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SW8200811_Historical File_20210720
CLH design, p.a. 400 Regency Forest Drive, Suite 120 Cary, North Carolina 27518 P: 919.319.6716 www.clhdesignpa.com Letter of Transmittal CLH Project Number: Iz�Z z l �r;r 73 Alk. !:7 July 9, 2021 To: Stormwater Program Company: NCDEQ Division of Energy, Mineral and Land Resources Address: 127 Cardinal Drive Extension City/State/Zip: Wilmington, NC 28405 Phone: 910-796-7215 Method: UPS Ground Subject: Hammocks Beach State Park Mainland Development — Phase 1 Prints X Originals Specifications Applications Reports Copy of Letter Submittals Other: Copies Date Description 2 05/06/21 Plan Set Additional Remarks: Please accept the revised plans for review and approval of the Post -Construction Stormwater Management for the above referenced project. I trust all area satisfactory for your review. Please call or email Bill Hamilton (bhalmiltonOcihdesionpa.com) or Dani Lovera dlovera clhdesi n a. m wi any questions or if you need additional information. Thanks. Signed: � , s pew Cc: File CLH design, p.a. Hall, Christine From: Hall, Christine Sent: Friday, June 18, 2021 3:09 PM To: Dani Lovera Subject: RE: [External] Hammocks Beach State Park - Supplemental Form Good afternoon Dani, I've had a chance to look through the revised items received on May 100' and do have a question about some additional features now shown on the plans. Sheet C1.3 shows what may be a dumpster pad with an access drive and an adjacent feature. I noticed the BUA numbers haven't been updated in the application documents. Can you provide a bit more details about these features? Christine Hall, PE Wilmington Regional Stormwater Program Supervisor Division of Energy, Mineral and Land Resources - State Stormwater Program North Carolina Department of Environmental Quality Office: 910 796 7215 Direct: 910 796 7339 Email: christine.hallOncdenr.gov Address: 127 Cardinal Drive Ext. Wilmington, NC 28405 i Emnif cvmtespoa:dence to _and frcrn this add,-es4, s subject to t 1a •North. Cone-4na P blic �ccc,ts Law and 11.-, � be discicoe6i to third pd•diLs. From: Dani Lovera[mailto:dlovera@clhdesignpa.com] Sent: Monday, May 10, 20218:59 AM To: Hall, Christine <Christine.Hall @ncdenr.gov> Subject: [External] Hammocks Beach State Park - Supplemental Form ' CAUg2AAc Edernpi email. dkk 4-As or opt aftachrrmeu tzness yQu ver'sfy. Send ail suspicious email as an att�jLhmem,, (a Report Spam. Good Morning Christine, Please find attached the supplemental form for Hammocks Beach State Park. Thank you, Dani Lovera Civil Designer CLH design, p.a. Collaborative Landscape Architecture and Civil Engineering 400 Regency Forest Drive, Suite 120 Cary, NC 27518 919.319.6716, ext. 4007 Twitter I Linkedln I Facebook I Instagram I dMesignpa.com Please consider the environment before printing E-mail Confidentiality Notice: The information contained in this transmission is confidential and may be subject to protection under the law. The message is intended for the sole use of the individual or entity to whom it is addressed. If you are not the intended recipient, you are notified that any use, distribution or copying of the message is strictly prohibited. If you received this transmission in error, please contact the sender immediately by replying to this e-mail and delete the material from any computer. l CLH design, p.a. r RECEIVED 400 Regency Forest Drive, Suite 120 Cary, North Carolina 27518 SAY P: 919.319.6716 t4coso C L H www.clhdesignpa.com WILMINGTONRO T.?L-�Ic,N Letter of Transmittal May 7, 2021 CLH Project Number: To: Stormwater Program Company: NCDEQ Division of Energy, Mineral and Land Resources Address: 127 Cardinal Drive Extension City/State/Zip: Wilmington, NC 28405 Phone: 910-796-7215 Method: UPS Ground Subject: Hammocks Beach State Park Mainland Development — Phase 1 Prints X Originals Specifications Applications X Reports X Copy of Letter Submittals Other: X Copies Date Description 2 08/20/20 Stormwater Management Permit Application Form (Original & Copy) 2 05/05/21 Operation & Maintenance Agreement (Original & Copy) 1 05/06/21 Supplemental EZ Form 1 05/06/21 Stormwater Management Design Narrative (Includes narrative, maps, calculations) 2 05/06/21 Plan Set 1 05/07/21 Comment Responses Age Additional Remarks: Please accept the attached documents for review and approval of the Polk' Instruction Stormwater Management for the above referenced project. I trust all area satisfactory for your review. Please call or email Bill Hamilton (bhalmilton@clhdesignpacom) or Dani Lovera (diovera@clhdesignpa.com) with any questions or if you need additional information. Thanks. CLH design, p.a. Signed: By 9': � —', , P, A Cc: File CLH design, p.a. Hammocks Beach State Park Mainland Development - Phase 1 1572 Hammocks Beach Road Swansboro, NC 28584 Stormwater Management Design Narrative Et Calculations Prepared by: CLH Design, pa Submittal #3 May 2021 ECE-INif- MAY 1 p 2021 Wit CONTENTS Design Narrative Maps Quad Map Soils Map FEMA Firm Map Supporting Calculations NOAA Atlas14 Lined Channel Design Culvert Design Stormwater Management Design Narrative Hammocks Beach State Park Mainland Development - Phase 1 CLH Project No.: 19-152 May 2021 PROJECT DESCRIPTION Hammocks Beach State Park is an existing state park located in Swansboro, North Carolina. Phase 1 of the mainland development proposes the addition of an asphalt loop with a shower house, parking areas, multi -use nature paths that connect to the existing visitors center, and fire pit area. The project site is located along FFA Camp Road, off Hammocks Beach Road, between 4-H Camp Road and Lydia Road. Refer to Quad Map. The proposed development will disturb approximately 10-acres. The site consists of an extremely deteriorated asphalt/gravel drive to be demolish, and existing buildings to remain. The plans also show the approximate location of 35 future campsites. Twenty of the future campsites will be RV campsites with full hook-ups and the remaining fifteen campsites will be primitive. Future impervious has been included in the application to accommodate for future improvements. The project will result in a built upon area (BUA) of 8.03-ac, of which only 3.08-ac will be constructed on this phase. Soils on the site consist of Wando fine sand (WaB — hydrologic soil group A), Muckalee loam (Mk — hydrologic soil group D), Baymeade fine sand (BaB — hydrologic soil group A), and Onslow loamy fine sand (On — hydrologic soil group B). Refer to Soils Map. Surface water features are not present on the project site. The site mostly drains southwest, towards the Intercoastal Waterway, and is located in the White Oak River Basin. FEMA FIRM #372053400K dated June 19, 2020 indicates that the project site is in Zone VE, AE, and X. The proposed shower house building is in Zone X. Refer to the FEMA Firm Map. STORMWATER MANAGEMENT Phase 1 of the Hammocks Beach State Park Mainland Development is located in the Town of Swansboro and must go through State Post -Construction Stormwater permitting. According to 15A NCAC 02H.1019 & 15A NCAC 02H.1003, Low Density development must not exceed 12% impervious for SA Water, achieve disperse flow, and use vegetated conveyance. This project has 1.61 % impervious considering the impervious on the abandoned ROW and site. Channels and a few culverts are proposed to safely convey the stormwater. MAPS v -i►E o-- q c i, 9 ' 0,0 42 0 f 4 11Sb0I'O; P, _ 6F 1 s - nc/ Z" 40 v � ` Z- - a' , � ? `, � > - ,.fie -•' ✓ ^, Vp'rP�� /� '\• ` ` '� A y Y�pd V 1 Property 1 Hammocks Beach .Mate f , '°�, ti o►xcRee�rF ;a Park Visitor Center ' via - ��► ,�� / 38 �'. 25)i 'i ^ �EID / 4 j ONDVIEW DR T �... 37 oe Hammocks Beach State Park 0 Portion of USGS Quad Map Mainland Development -Phase 1 North Hubert, NC - 2019 Scale: 1" = 2,000' ONE& . ... .. �I-om ONIF IT , vt Or: V ��pp d Id Q lN0 .5 c Q a"¢ m m g E_ a c 0 0 ac u LL xp U. `o W W W o T cc'a LL Y O Ci 0 C C r 1H11 p y H N O ei m 9 N Yl O C O O W 7 LL 8 L 3 W O C C N p� tll R V H LL W O !0 LLW 8 V v c `,� '.°—. 'x0 ? 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DATE DESIGN PHASE �l M Lei 109/30/2020 SD PROJECT NAME DD PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD / X / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY Sim PERMANENT LINING - Permissible Velocity and Capacity Channel No: CHANNEL-1 Drainage Area: 0.04 ac Sta from: Design Fequency: 10 yrs Sta to: Time of Conc: 5 min Section Length: 36 ft Intensity: 8.98 in/hr Section Slope: 2.22 % Runoff Coeff: 0.63 Ret Class: C Discharge: 0.22 cfs Permissible Velocity: 4.50 fps Allowable Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 0.22 cfs flow by Rational Method n = 0.25 Grass Manning's Coefficient (dimensionless) S = 0.0222 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 0.25 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 0.50 0.75 3.16 0.24 0.29 deep 0.49 0.72 3.10 0.23 0.27 deep 0.47 0.66 2.97 0.22 0.24 shallow 0.48 0.69 3.04 0.23 0.26 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow 213 Qn _ P = wetted perimeter of the channel R- 149 R = hydraulic radius of the channel Normal Depth, D = 0.48 ft Depth O.K. Velocit = 0.32 fps Vel. O.K. SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.66 lb/s -ft FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 2.0 ft top width, W = 12.0 ft Permanent Channel Lining: Grass (REF: Malcom, 1991) Page 1 ► _ .. . - DATE DESIGN PHASE L 09/30/2020 SD PROJECT NAME DD PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD / X / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM TEMPORARY LINING - Permissible Shear Channel No: CHANNEL-1 Drainage Area: 0.04 ac Sta from: Design Fequency: 2 yrs Sta to: Time of Conc: 5 min Section Length: 36 ft Intensity: 6.91 in/hr Section Slope: 2.22 % Runoff Coeff: 0.63 Lining Type: Curled Wood Mat Discharge: 0.17 cfs Permissible Shear: 1.55 Ib/sf Channel Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 0.17 cfs flow by Rational Method n = 0.066 Manning's Coefficient (dimensionless) S = 0.0222 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 0.050 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise) NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 0.30 0.27 1.90 0.14 0.074 deep 0.25 0.19 1.58 0.12 0.045 shallow 0.27 0.22 1.71 0.13 0.056 deep 0.26 0.20 1.64 0.12 0.050 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav - Zregi A = cross -sectional area of flow zra Qn _ P = wetted perimeter of the channel R1.49 Yrs- R = hydraulic radius of the channel Normal Depth, D = 0.26 ft Velocit = 0.83 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.36 lb/s q-ft Ternp Liner O.irZ. FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 1 ft top width, W = 6.0 ft Line Channel with: Curled Wood Mat (REF: Malcom, 1991) Page 2 ► D DATE DESIGN PHASE o WIGP 09/30/2020 SD PROJECT NAME PROJECT NO DD Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD / X / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM PERMANENT LINING - Permissible Velocity and Capacity Channel No: CHANNEL-2 Drainage Area: 0.54 ac Sta from: Design Fequency: 10 yrs Sta to: Time of Conc: 5 min Section Length: 431 ft Intensity: 8.98 in/hr Section Slope: 0.50 % Runoff Coeff: 0.56 Ret Class: C Discharge: 2.72 cfs r Permissible Velocity: 4.50 fps Allowable Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 2.72 cfs flow by Rational Method n = 0.195 Grass Manning's Coefficient (dimensionless) S = 0.005 ft/ft longitudinal slope (ft of fall per ft of run) r Zreq = 5.03 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 1.50 6.75 9.49 0.71 5.38 deep 1.45 6.31 9.17 0.69 4.91 shallow 1.46 6.39 9.23 0.69 5.01 shallow 1.47 6.48 9.30 0.70 5.10 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow 2r3 Qn _ P = wetted perimeter of the channel 1.49 R = hydraulic radius of the channel Normal Depth, D = 1.47 ft Depth O.K. Velocity-- 0.42 fps Vol. O.K. SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft r S = longitudinal slope in ft/ft shear stress, T = 0.46 Ib/s -ft FINAL CHANNEL LINING DIMENSIONS R = ft side slopes, M = 3 :1 D = 2.0 ft top width, W = 12.0 ft Permanent Channel Lining: Grass (REF: Malcom, 1991) Page 3 LINED CHANNEL- -. DATE DESIGN PHASE c 09/30/2020 SD PROJECT NAME DD PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD / X / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM TEMPORARY LINING - Permissible Shear Channel No: CHANNEL-2 Drainage Area: 0.54 ac Sta from: Design Fequency: 2 yrs Sta to: Time of Conc: 5 min Section Length: 431 ft Intensity: 6.91 in/hr Section Slope: 0.50 % Runoff Coeff: 0.56 Lining Type: Curled Wood Mat Discharge: 2.09 cfs Permissible Shear: 1.55 Ib/sf Channel Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 2.09 cfs flow by Rational Method n = 0.035 Manning's Coefficient (dimensionless) S = 0.005 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 0.695 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 0.50 0.75 3.16 0.24 0.287 shallow 0.60 1.08 3.79 0.28 0.467 shallow 0.69 1.43 4.36 0.33 0.678 shallow 0.70 1.47 4.43 0.33 0.705 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow zr3 Qn _ P = wetted perimeter of the channel R1.49 R = hydraulic radius of the channel Normal Depth, D = 0.70 ft Velocity-- 1.42 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.22 ib/s _ -ft Temp Liner O.K. FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 1 ft top width, W = 6.0 ft Line Channel with: Curled Wood Mat (REF: Malcom, 1991) Page 4 _QNED CHANNEL DATE DESIGN PHASE TJ_ ..._ _.. 09/30/2020 SD NAME PROJECT NO DDs Beach State Park Mainland Dev.-Phase 1 F 19-152 CD / XN REVo, BY NC DAL OTHER (SPECIFY) BY ICHECKED SJM PERMANENT LINING - Permissible !Velocity and Capacity Channel No: CHANNEL-3 Drainage Area: 1.18 ac Sta from: Design Fequency: 10 yrs Sta to: Time of Conc: 5 min Section Length: 408 ft Intensity: 8..98 in/hr Section Slope: 0.50 % Runoff Coeff: 040 Ret Class: C Discharge: 4.25 cfs Permissible Velocity: 4.50 fps Allowable Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 4.25 cfs flow by Rational Method n = 0.145 Grass Manning's Coefficient (dimensionless) S = 0.005 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 5.85 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 1.50 6.75 9.49 0.71 5.38 shallow 1.55 7.21 9.80 0.74 5.87 deep 1.54 7.11 9.74 0.73 5.77 shallow 1.55 7.21 9.80 0.74 5.87 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Y'eq A = cross -sectional area of flow zr3 Qn _ P = wetted perimeter of the channel R1.49 As R = hydraulic radius of the channel Normal Depth, D = 1.55 ft Depth OX Veloci = 0.59 fps Vel. O.K. SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.48 Ib/s -ft FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 2.0 ft top width, W = 12.0 ft Permanent Channel Lining: Grass (REF: Malcom, 1991) Page 5 ► D ,. ,DATE DESIGN PHASE D 09/30/2020 SD DID PROJECT NAME PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD / x / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM TEMPORARY LINING - Permissible Shear Channel No: CHANNEL-3 Drainage Area: 1.18 ac Sta from: Design Fequency: 2 yrs Sta to: Time of Conc: 5 min Section Length: 408 ft Intensity: 6.91 in/hr Section Slope: 0.50 % Runoff Coeff: 0.40 Lining Type: Curled Wood Mat Discharge: 3.27 cfs Permissible Shear: 1.55 lb/sf Channel Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 3.27 cfs flow by Rational Method n = 0.035 Manning's Coefficient (dimensionless) S = 0.005 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 1.087 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 1.00 3.00 6.32 0.47 1.825 deep 0.95 2.71 6.01 0.45 1.591 deep 0.82 2.02 5.19 0.39 1.075 shallow 0.83 2.07 5.25 0.39 1.110 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow 2/ Qn _ P = wetted perimeter of the channel — 1L49 R = hydraulic radius of the channel Normal Depth, D = 0.83 ft Veloci = 1.58 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.26 lb/s -ft TernLiner O.K. FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 1 ft top width, W = 6.0 ft Line Channel with: Curled Wood Mat (REF: Malcom, 1991) Page 6 -11'19-152 DATE DESIGN PHASE SD DD e ► 07/29/2020 PROJECT NAME PROJECT NO Hammocks Beach State Park Mainland Dev.-Pha CD / X / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM PERMANENT LINING - Permissible Velocity and Capacity Channel No: CHANNEL-4 Drainage Area: 0.08 ac . Sta from: Design Fequency: 10 yrs Sta to: Time of Conc: 5 min Section Length: 62 ft Intensity: 8.98 in/hr Section Slope: 0.85 % Runoff Coeff: 0.56 Ret Class: C Discharge: 0.41 cfs Permissible Velocity: 4.50 fps Allowable Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 0.41 cfs flow by Rational Method n = 0,25 Grass Manning's Coefficient (dimensionless) S = 0.0085 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 0.74 quantity to equate to Zav M = 3 :1 side slo a of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 1.00 3.00 6.32 0.47 1.82 deep 0.70 1.47 4.43 0.33 0.70 shallow 0.71 1.51 4.49 0.34 0.73 shallow 0.72 1.56 4.55 0.34 0.76 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow 2/ Qn _ P = wetted perimeter of the channel - 149 R = hydraulic radius of the channel Normal Depth, D = 0.72 ft Depth O.K. Velocity-- 0.26 fps Vel. O.K. SHEAR STRESS T = yds = shear stress in lb/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.38 ib/s -ft FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 2.0 ft top width, W = 12.0 ft Permanent Channel Lining: Grass (REF: Malcom, 1991) Page 7 = DATE DESIGN PHASE SD 07/29/2020 PROJECT NAME DD PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD / x / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM TEMPORARY LINING - Permissible Shear Channel No: CHANNEL-4 Drainage Area: 0.08 ac Sta from: Design Fequency: 2 yrs Sta to: Time of Conc: 5 min Section Length: 62 ft Intensity: 6.91 in/hr Section Slope: 0.85 % Runoff Coeff: 0.56 Lining Type: Curled Wood Mat Discharge: 0.31 cfs Permissible Shear: 1.55 Ib/sf Channel Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 0.31 cis flow by Rational Method n = 0.066 Manning's Coefficient (dimensionless) S = 0.0085 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 0.150 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 0.50 0.75 3.16 0.24 0.287 deep 0.40 0.48 2.53 0.19 0.158 deep 0.39 0.46 2.47 0.18 0.148 shallow 0.40 0.48 2.53 0.19 0.158 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area offlow 213 Qn _ P = wetted perimeter of the channel — 149 Vs- R = hydraulic radius of the channel Normal Depth, D = 0.40 ft Velocit = 0.65 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.21 lb/s -ft Temp Liner O.K. FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 1 ft top width, W = 6.0 ft Line Channel with: Curled Wood Mat (REF: Malcom, 1991) Page 8 ► DATE DESIGN PHASE -- 09/30/2020 SDECT ffPROJNAME DDmocks PROJECT NO Beach State Park Mainland Dev.-Phase 1 119-152 CD / x / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) ' CHECKED BY SJM PERMANENT LINING - Permissible Velocity and Capacity Channel No: CHANINEL-5 Drainage Area: 0.79 ac Sta from: Design Fequency: 10 yrs Sta to: Time of Conc: 5 min Section Length: 596 ft Intensity: 8.98 in/hr Section Slope: 0.85 % Runoff Coeff: 0.56 Ret Class: G Discharge: 3.96 cfs , Permissible Velocity: 4.50 fps Allowable Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 3.96 cfs flow by Rational Method n = 0,14 Grass Manning's Coefficient (dimensionless) S = 0.0085 ft/ft longitudinal slope (ft of fall per ft of run) , Zreq = 4.04 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 1.00 3.00 6.32 0.47 1.82 shallow 1.35 5.47 8.54 0.64 4.06 deep 1.34 5.39 8.47 0.64 3.98 shallow 1,35 5.47 8.54 0.64 4.06 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow 21 Qn _ P = wetted perimeter of the channel - 149 R = hydraulic radius of the channel Normal Depth, D = 1.35 ft Depth O.K. Velocit = 0.72 fps Vel. O.K. SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.72 ib/s -ft FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 2.0 ft top width, W = 12.0 ft Permanent Channel Lining: Grass (REF: Malcom, 1991) Page 9 - ' DATE DESIGN PHASE D - 09/30/2020 SD PROJECT NAME DD PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD / X / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM TEMPORARY LINING - Permissible Shear Channel No: CHANNEL-5 Drainage Area: 0.79 ac Sta from: Design Fequency: 2 yrs Sta to: Time of Conc: 5 min Section Length: 595 ft Intensity: 6.91 in/hr Section Slope: 0.85 % Runoff Coeff: 0.56 Lining Type: Curled.Wood Mat Discharge: 3.05 cfs Permissible Shear: 1.55 Ib/sf Channel Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 3.05 cfs flow by Rational Method n = 0.035 Manning's Coefficient (dimensionless) S = 0.0085 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 0.777 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 0.50 0.75 3.16 0.24 0.287 shallow 0.70 1.47 4.43 0.33 0.705 shallow 0.72 1.56 4.55 0.34 0.760 shallow 0.73 1.60 4.62 0.35 0.788 OK B = bottom width of trapezoidal channel D = normal depth of flow�� _eq A = cross -sectional area of flow 21 Qn _ P = wetted perimeter of the channel R- 149 Is- R = hydraulic radius of the channel Normal Depth, D = 0.73 ft Veloci = 1.91 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 lb/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.39 ib/s -ft Temp Liner O.K. FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 .1 D = 1 ft top width, W = 6.0 ft Line Channel with: Curled Wood Mat (REF: Malcom, 1991) Page 10 3HANNEL DATE DESIGN PHASE D 09/30/2020 SD PROJECT NAME PROJECT NO DD Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJ M PERMANENT LINING - Permissible Velocity and Capacity Channel No: CHANNEL-6 Drainage Area: 1-09 ac Sta from: Design Fequency: 10 yrs Sta to: Time of Conc: 5 min Section Length: 712 ft Intensity: 8.98 in/hr Section Slope: 0.85 % Runoff Coeff: 0.43 Ret Class: C Discharge: 4.23 cfs Permissible Velocity: 4.50 fps Allowable Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 4.23 cfs flow by Rational Method n = 0.13 Grass Manning's Coefficient (dimensionless) S = 0.0085 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 4.00 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 1.50 6.75 9.49 0.71 5.38 deep 1.40 5.88 8.85 0.66 4.48 deep 1.36 5.55 8.60 0.65 4.14 deep 1.35 5.47 8.54 0.64 4.06 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow zr� pn _ P = wetted perimeter of the channel R- 1L49 Is- R = hydraulic radius of the channel Normal Depth, D = 1.35 ft Depth O.K. Veloci = 0.77 fps Vel. O.K. SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.72 Ib/s -ft FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M P 3 :1 D = 2.0 ft top width, W = 12.0 ft Permanent Channel Lining: Grass (REF: Malcom, 1991) Page 11 DATE DESIGN PHASE SD 09/30/2020 PROJECT NAME PROJECT NO DD Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD REV / X / LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY Sim TEMPORARY LINING - Permissible Shear Channel No: CHANNEL-6 Drainage Area: 1.09 ac Sta from: Design Fequency: 2 yrs Sta to: Time of Conc: 5 min Section Length: 712 ft Intensity: 6.91 in/hr Section Slope: 0.85 % Runoff Coeff: 0.43 Lining Type: Curled Wood Mat Discharge: 3.25 cfs Permissible Shear: 1.55 Ib/sf Channel Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 3.25 cfs flow by Rational Method n = 0.035 Manning's Coefficient (dimensionless) S = 0.0085 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 0.829 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 0.80 1.92 5.06 0.38 1.006 deep 0.76 1.73 4.81 0.36 0.878 deep 0.74 1.64 4.68 0.35 0.817 shallow 0.75 1.69 4.74 0.36 0.847 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zregi A = cross -sectional area of flow U3 Qn _ P = wetted perimeter of the channel — 149 R = hydraulic radius of the channel Normal Depth, D = 0.75 ft Veloci = 1.93 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.40 lb/s -ft Temp Linea O.K. FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D= 1 ft top width, W= 6.0 ft Line Channel with: Curled Wood Mat (REF: Malcom, 1991) Page 12 ,gWE6 CHANNEL DATE DESIGN PHASE Wafal. 09/30/2020 SD PROJECT NAME PROJECT NO DD Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD REV / X / LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM PERMANENT LINING - Permissible Velocity and Capacity - Channel No: CHANNEL-7 Drainage Area: 0.67 ac Sta from: Design Fequency-, 10 yrs Sta to: Time of Conc: 5 min Section Length: 444 ft Intensity: 8.98 in/hr Section Slope: 2.15 % Runoff Coeff: 0.56 Ret Class: C Discharge: 3.36 cfs Permissible Velocity: 4.50 fps Allowable Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 3.36 cfs flow by Rational Method n = 0.13 Grass Manning's Coefficient (dimensionless) S = 0.0215 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 2.00 quantity to equate to Zav M = 3 :1 side slo a of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 1.00 3.00 6.32 0.47 1.82 shallow 1.10 3.63 6.96 0.52 2.35 deep 1 Z5 3.31 6.64 0.50 2.08 deep 1.04 3.24 6.58 0.49 2.03 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zregi A = cross -sectional area of flow 25 QM _ P = wetted perimeter of the channel - 149 Is R = hydraulic radius of the channel Normal Depth, D = 1.04 ft Depth O.K. Velocit = 1.04 fps Vel. O.K. SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 1.40 ib/s -ft FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 2.0 ft top width, W = 12.0 ft Permanent Channel Lining: Grass (RF.F: Malcom, 1991) Page 13 11NED CHANNEL ,DATE DESIGN PHASE SID DESIGN _aWifimi. 09/30/2020 PROJECT NAME PROJECT NO DD Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD REV / X / LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM TEMPORARY LINING - Permissible Shear Channel No: CHANNEL-7 Drainage Area: 0.67 ac Sta from: Design Fequency: 2 yrs Sta to: Time of Conc: 5 min Section Length: 444 ft Intensity: 6.91 in/hr Section Slope: 2.15 % Runoff Coeff: 0.56 Lining Type: Curled Wood Mat Discharge: 2.59 cfs Permissible Shear: 1.55 Ib/sf Channel Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 2.59 cfs flow by Rational Method n = 0.035 Manning's Coefficient (dimensionless) S = 0.0215 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 0.415 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 0.50 0.75 3.16 0.24 0.287 shallow 0.60 1.08 3.79 0.28 0.467 deep 0.57 0.97 3.60 0.27 0.408 shallow 0..58 1.01 3.67 0.28 0.427 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow 23 Qn _ P = wetted perimeter of the channel — 149 R = hydraulic radius of the channel Normal Depth, D = 0.58 ft Velocit = 2.56 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.78 ib/s -it Temp Liner OX FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 1 ft top width, W = 6.0 ft Line Channel with: Curled Wood Mat (REF: Malcom, 1991) Page 14 - DATE DESIGN PHASE SID DD ` 09/30/2020 PROJECT NAME PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM PERMANENT LINING - Permissible Velocity and Capacity Channel No: CHANNEL-8 Drainage Area: 0.48 ac Sta from: Design Fequency: 10 yrs Sta to: Time of Conc: 5 min Section Length: 689 ft Intensity: 8.98 in/hr Section Slope: 2.15 % Runoff Coeff: 0.59 Ret Class: C Discharge: 2.53 cfs Permissible Velocity: 4;50 fps Allowable Depth: UO ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 2.53 cfs flow by Rational Method n = 0.155 Grass Manning's Coefficient (dimensionless) S = 0.0215 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 1.79 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 1.00 3.00 6.32 0.47 1.82 deep 0.98 2.88 6.20 0.46 1.73 shallow 0.99 2.94 6.26 0.47 1.78 shallow 1.00 3.00 6.32 0.47 1.82 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zregt A = cross -sectional area of flow are Qn _ P = wetted perimeter of the channel R- 149 - R = hydraulic radius of the channel Normal Depth, D = 1.00 ft Depth O.K. Velocit = 0.84 fps Vel. O.K. SHEAR STRESS T = yds = shear stress in lb/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 1.34 Ib/s q-ft FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 2.0 ft top width, W = 12.0 ft Permanent Channel Lining: Grass (REF: Malcom, 1991) Page 15 oWWI DATE DESIGN PHASE �l ` -1" 109/30/2020 SD PROJECT NAME DD PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) ' CHECKED BY Sim TEMPORARY LINING - Permissible Shear Channel No: CHANNEL-8 Drainage Area: 0.48 ac Sta from: Design Fequency: 2 yrs Sta to: Time of Conc: 5 min Section Length: 689 ft Intensity: 6.91 in/hr Section Slope: 2.15 % Runoff Coeff: 0.59 Lining Type: Curled Wood Mat Discharge: 1.94 cfs , Permissible Shear: 1.55 Ib/sf Channel Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 1.94 cfs flow by Rational Method n = 0-035 Manning's Coefficient (dimensionless) S = 0.0215 ft/ft longitudinal slope (ft of fall per ft of run) 9 Zreq = 0.312 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise) NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 0.50 0.75 3.16 0.24 0.287 shallow 0.55 0.91 3.48 0.26 0.371 deep 0-51 0.78 3.23 0.24 0.303 shallow 0.52 0.81 3.29 0.25 0.319 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow zr� Qn _ P = wetted perimeter of the channel R— 149 R = hydraulic radius of the channel Normal Depth, D = 0.52 ft Veloci = 2.40 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.70 Ib/s -ft Temp Liner O.K. FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 1 ft top width, W = 6.0 ft Line Channel with: Curled Wood Mat (REF: Malcom, 1991) Page 16 DATE DESIGN PHASE ,09/30/2020 SD PROJECT NAME DID PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD / X / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) !' CHECKED BY SJ M PERMANENT LINING - Permissible Velocity and Capacity Channel No: CHANNEL-9 Drainage Area: 0.87 ac Sta from: Design Fequency: 10 yrs Sta to: Time of Conc: 5 min Section Length: 48 ft Intensity: 8.98 in/hr Section Slope: 3.53 % Runoff Coeff: 0.50 Ret Class: I C Discharge: 3.89 cfs Permissible Velocity: 4.50 fps Allowable Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 3.89 cfs flow by Rational Method n = 0.12 Grass Manning's Coefficient (dimensionless) S = 0.0353 ft/ft longitudinal slope (ft of fall per ft of run) , Zreq = 1.67 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark .1.00 3.00 6.32 0.47 1.82 deep 0.99 2.94 6.26 0.47 1.78 deep 0.98 2.88 6.20 0.46 1.73 deep 0.97 2.82 6.13 0.46 1.68 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zregi , A = cross -sectional area of flow 23 Qn _ P = wetted perimeter of the channel 1.49 Is R = hydraulic radius of the channel Normal Depth, D = 0.97 ft Depth O.K. Veloci = 1.38 fps Vol. O.K. SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 2.14 Ib/s -ft FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 N D = 2.0 ft top width, W = 12.0 ft N Permanent Channel Lining: Grass (REF: Malcom, 1991) Page 17 DATE DESIGN PHASE FPROJECT 09/30/2020 SD DDocks NAME PROJECT NO Beach State Park Mainland Dev.-Phase 1 19-152 CD / x / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY Sim TEMPORARY LINING - Permissible Sheer Channel No: CHANNEL-9 Drainage Area: 0.87 ac Sta from: Design Fequency: 2 yrs Sta to: Time of Conc: 5 min Section' Length: 48 ft Intensity: 6.91 in/hr Section Slope: 3.53 % Runoff Coeff: 0.50 Lining Type: Curled Wood Mat Discharge: 2.99 cfs Permissible Shear: 1.55 Ib/sf Channel Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 2.99 cfs flow by Rational Method n = 0.035 Manning's Coefficient (dimensionless) S = 0.0353 ft/ft longitudinal slope (ft of fall per ft of run) , Zreq = 0.374 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 0.50 0.75 3.16 0.24 0.287 shallow 0.53 0.84 3.35 0.25 0.336 shallow 0-55 0.91 3.48 0.26 0.371 shallow 0.56 0.94 3.54 0.27 0.389 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow Qn Rzr� _ P = wetted perimeter of the channel — 1 d9 Vs R = hydraulic radius of the channel Normal Depth, D = 0.56 ft Veloci = 3.18 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 lb/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 1.23 Ib/s -ft TernLiner OX FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :t D = 1 ft top width, W = 6.0 ft Line Channel with: Curled Wood Mat (REF: Malcom, 1991) Page 18 DATE DESIGN PHASE SD 09/30/2020 PROJECT NAME DD PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD / X / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM PERMANENT LINING - Permissible Velocity and Capacity Channel No: CHANNEL-10 Drainage Area: 0.50 ac Sta from: Design Fequency: 10 yrs Sta to: Time of Conc: 5 min Section Length: 45 ft Intensity: 8.98 in/hr Section Slope: 3.06 % Runoff Coeff: 0.59 Ret Class: I C Discharge: 2.65 cfs Permissible Velocity: 4.50 fps Allowable Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 2.65 cfs flow by Rational Method n = 0.145 Grass Manning's Coefficient (dimensionless) S = 0.0306 ft/ft longitudinal slope (ft of fall per ft of run) , Zreq = 1.47 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 1.00 3.00 6.32 0.47 1.82 deep 0.95 2.71 6.01 0.45 1.59 deep 0.94 2.65 5.95 0.45 1.55 deep 0.93 2.59 5.88 0.44 1.50 OK B = bottom width of .trapezoidal channel D = normal depth of flow Zav = Zregi A = cross -sectional area of flow 2 3 Qn _ P = wetted perimeter of the channel R1.49 R = hydraulic radius of the channel Normal Depth, D = 0.93 ft Depth O.K. Velocit = 1.02 fps Val. O.K. SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 1.78 Ib/s -ft FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 2.0 ft top width, W = 12.0 ft Permanent Channel Lining: Grass (REF: Malcom, 1991) Page 19 ► o CHANNEL DATE DESIGN PHASE ;109/30/2020 SD PROJECT NAME PROJECT NO DD Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD REV / X / LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM TEMPORARY LINING - Permissible Shear Channel No: CHANNEL-10 Drainage Area: 0.50 ac Sta from: Design Fequency: 2 yrs Sta to: Time of Conc: 5 min Section Length: 45 ft Intensity: 6.91 in/hr Section Slope: 3.06 % Runoff Coeff: 0.59 Lining Type: Curled Wood Mat Discharge: 2.04 cfs Permissible Shear: 1.55 Ib/sf Channel Depth: 2.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 2.04 cfs flow by Rational Method n = 0.035 Manning's Coefficient (dimensionless) S = 0.0306 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 0.274 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 0.50 0.75 3.16 0.24 0.287 deep 0.48 0.69 3.04 0.23 0.258 shallow 0.49 0.72 3.10 0.23 0.272 shallow 0.50 0..75 3.16 0.24 0.287 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zxeq A = cross -sectional area of flow 23 Qn _ A R P = wetted perimeter of the channel — 149 R = hydraulic radius of the channel Normal Depth, D = 0.50 ft Veloci = 2.72 f ps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.95 ibis -ft Temp Liner 11X FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = i ft trap width, W = 6.0 ft Line Channel with: Curled Wood Mat (REF: Malcom, 1991) Page 20 DATE DESIGN PHASE PPROJECT 09/30/2020 SDAME DDeach PROJECT NO State Park Mainland Dev.-Phase 1 19-152 CD / x / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM PERMANENT LINING - Permissible Velocity and Capacity Channel No: CHANNEL-11 Drainage Area: 0.93 ac Sta from: Design Fequency: 10 yrs Sta to: Time of Conc: 5 min Section Length: 136 ft Intensity: 8.98 in/hr Section Slope: 0.93 % Runoff Coeff: 0.50 Ret Class: C Discharge: 4.18 cfs Permissible Velocity: 4.50 fps Allowable Depth: 1.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 4.18 cfs flow by Rational Method n = 0.15 Grass Manning's Coefficient (dimensionless) S = 0.0093 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 4.36 quantity to equate to Zav M = _ 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 4 1.00 7.00 10.32 0.68 5.40 deep 4 0.95 6.51 10.01 0.65 4.88 deep 4 0.89 5.94 9.63 0.62 4.30 shallow 4 0.90 6.03 9.69 0.62 4.39 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow 213 Qn P = wetted perimeter of the channel A R= 149 R = hydraulic radius of the channel Normal Depth, D = 0.90 ft Depth O.K. Velocit = 0.69 fps Vel. O.K. SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.52 Ib/s--ft FINAL CHANNEL LINING DIMENSIONS B = 4 ft side slopes, M = 3 :1 D = 1.0 ft top width, W = 10.0 ft Permanent Channel Lining: Grass (REF: Malcom, 1991) Page 21 DATE DESIGN PHASE SD DD �. 09/30/2020 PROJECT NAME PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 119-152 CD / X / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM TEMPORARY LINING - Permissible Shear Channel No: CHANNEL-11 Drainage Area: 0.93 ac Sta from: Design Fequency: 2 yrs Sta to: Time of Conc: 5 min Section Length: 136 ft Intensity: 6.91 in/hr Section Slope: 0.93 % Runoff Coeff: 0.50 Lining Type: Curled Wood Mat Discharge: 3.21 cfs , Permissible Shear: 1.55 Ib/sf Channel Depth: 1.00 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 3.21 cfs flow by Rational Method n = 0.066 Manning's Coefficient (dimensionless) S = 0.0093 ft/ft longitudinal slope (ft of fall per ft of run) , Zreq = 1.476 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 4 0.50 2.75 7.16 0.38 1.453 shallow 4 0.55 3.11 7.48 0.42 1.730 deep 4 0.52 2.89 7.29 0.40 1.561 deep 4 0.51 2.82 7.23 0.39 1.506 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow 2f Qn _ P = wetted perimeter of the channel — 149 R = hydraulic radius of the channel Normal Depth, D = 0.51 ft Velocit = 1.14 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.30 ib/s -ft TernLiner O.I. FINAL CHANNEL LINING DIMENSIONS B = 4 ft side slopes, M = 3 :1 D = 1 ft top width, W = 10.0 ft I Line Channel with: Curled Wood Mat I (REF: Malcom, 1991) Page 22 DATE DESIGN PHASE SD 09/30/2020 PROJECT NAME DD PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD / X / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM PERMANENT LINING - Permissible Velocity and Capacity Channel No: CHANNEL-12 Drainage Area: 1.26 ac Sta from: Design Fequency: 10 yrs Sta to: Time of Conc: 5 min Section Length: 254 It Intensity: 8.98 in/hr Section Slope: 2.00 % Runoff Coeff: 0.33 Ret Class: IC Discharge: 3.73 cfs Permissible Velocity: 4.50 fps Allowable Depth: 1.90 It Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 3.73 cfs flow by Rational Method n = 0.13 Grass Manning's Coefficient (dimensionless) S = 0.02 ft/ft longitudinal slope (ft of fall per It of run) Zreq = 2.30 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 It of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 1.50 6.75 9.49 0.71 5.38 deep 1.10 3.63 6.96 0.52 2.35 deep 1.09 3.56 6.89 0.52 2.30 shallow 1.10 3.63 6.96 0.52 2.35 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow W Qn R P = wetted perimeter of the channel = 149 R = hydraulic radius of the channel Normal Depth, D = 1.10 It Depth O.K. Veloci = 1.03 fps Vel. O.K. SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 1.37 Ib/s -ft FINAL CHANNEL LINING DIMENSIONS B = It side slopes, M = 3 :1 D = 1.9 It top width, W = 11.4 It Permanent Channel Lining: Grass (REF: Malcom, 1991) Page 23 ► - DATE DESIGN PHASE 09/30/2020 SD PROJECT NAME DD PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM TEMPORARY LINING - Permissible Shear Channel No: CHANNEL-12 Drainage Area: 1.26 ac Sta from: Design Fequency: 2 yrs Sta to: Time of Conc: 5 min Section Length: 254 ft Intensity: 6.91 in/hr Section Slope: 2.00 % Runoff Coeff: 0.33 Lining Type: Curled Wood Mat Discharge: 2.87 cfs , Permissible Shear: 1.55 lb/sf Channel Depth: 1.90 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 2.87 cfs flow by Rational Method n = 0.035 Manning's Coefficient (dimensionless) S = 0.02 ft/ft longitudinal slope (ft of fall per ft of run) , Zreq = 0.477 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 0.50 0.75 3.16 0.24 0.287 shallow 0.60 1.08 3.79 0.28 0.467 shallow 0.62 1.15 3.92 0.29 0.510 deep 0.61 1.12 3.86 0.29 0.488 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zraq A = cross -sectional area offlow z3 Qn _ P = wetted perimeter of the channel R1.49 R = hydraulic radius of the channel Normal Depth, D = 0.61 ft Velocity-- 2.57 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.76 lb/s -ft Temp Liner O.K. FINAL CHANNEL LINING DIMENSIONS 13 = ft side slopes., IM = 3 :1 D = 1 ft top width. W = 6.0 ft Line Channel with: Curled Wood Mat (REF: Malcom, 1991) Page 24 i DATE DESIGN PHASE . .. 09/30/2020 SD DID PROJECT NAME PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD / X / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM PERMANENT LINING - Permissible Velocity and Capacity Channel No: CHANNEL-13 Drainage Area: 0.17 ac Sta from: Design Fequency: 10 yrs Sta to: Time of Conc: 5 min Section Length: 110 ft Intensity: 8.98 in/hr Section Slope: 0.50 % Runoff Coeff: 0.33 Ret Class: C Discharge: 0.50 cfs Permissible Velocity: 4.50 fps Allowable Depth: 1.90 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 0.50 cfs flow by Rational Method n = 0.25 Grass Manning's Coefficient (dimensionless) S = 0.005 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 1.20 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 1.00 3.00 6.32 0.47 1.82 deep 0.90 2.43 5.69 0.43 1.38 deep 0.85 2.17 5.38 0.40 1.18 shallow 0.86 2.22 5.44 0.41 1.22 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow 2/3 Qn P = wetted perimeter of the channel A R= 149 R = hydraulic radius of the channel Normal Depth, D = 0.86 ft Depth O.K. Velocity-- 0.23 fps Vel. O.K. SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.27 Ib/s -ft FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 1.9 ft top width, W = 11.4 ft Permanent Channel Lining: Grass (REF: Malcom, 1991) Page 25 DATE DESIGN PHASE 09/30/2020 rPROJECT SD DDs NAME PROJECT NO Beach State Park Mainland Dev.-Phase 1 19-152 CD REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM TEMPORARY LINING - Permissible Shear Channel No: CHANNEL-13 Drainage Area: 0.17 ac Sta from: Design Fequency: 2 yrs Sta to: Time of Conc: 5 min Section Length: 110 It Intensity: 6.91 in/hr Section Slope: 0.50 % Runoff Coeff: 0.33 Lining Type: Curled Wood Mat Discharge: 0.39 cfs Permissible Shear: 1.55 Ib/sf Channel Depth: 1.90 It Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 0.39 cfs flow by Rational Method n = 0.066 Manning's Coefficient (dimensionless) S = 0.005 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 0.243 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 It of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 0.50 0.75 3.16 0.24 0.287 deep 0.40 0.48 2.53 0.19 0.158 shallow 0.45 0.61 2.85 0.21 0.217 shallow 0.47 0.66 2.97 0.22 0.244 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zregi A = cross -sectional area of flow W Qn _ P = wetted perimeter of the channel 1.49 R = hydraulic radius of the channel Normal Depth, D = 0.47 It Velocity-- 0.58 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.15 lb/s -ft Temp Liner O.K. FINAL CHANNEL LINING DIMENSIONS R = It side slopes, M = 3 :1 D = 1 It top width, W = 6.0 It Line Channel with: Curled Wood Mat (Hti-: Maicom, 1991) Page 26 D DATE DESIGN PHASE ,09/30/2020 SD PROJECT NAME DD PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD / x / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM PERMANENT LINING - Permissible Velocity and Capacity Channel No: CHAMNEL-14 Drainage Area: 3.15 ac Sta from: Design Fequency: 10 yrs Sta to: Time of Conc: 5 min Section Length: 16,0 ft Intensity: 8.98 in/hr Section Slope: 0.50 % Runoff Coeff: 0.33 Ret Class: C Discharge: 9.33 cfs , Permissible Velocity: 4.50 fps Allowable Depth: 1.90 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 9.33 cfs flow by Rational Method n = 0.09 Grass Manning's Coefficient (dimensionless) S = 0.005 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 7.97 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark Z00 . 12.00 12.65 0.95 11.59 deep 1.80 9.72 11.38 0.85 8.75 deep 1.75 9.19 11.07 0.83 8.11 deep 1.74 9.08 11.00 0.83 7.99 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Y'eq( A = cross -sectional area offlow W Qn P = wetted perimeter of the channel A R= 149 R = hydraulic radius of the channel Normal Depth, D = 1.74 ft Depth O.K. Veloci = 1.03 fps Vel. O.K. SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.54 Ib/s -ft FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 1.9 ft top width, W = 11.4 ft Permanent Channel Lining: Grass (HtF: Malcom, 1991) Page 27 LINED CHANNEL DATE DESIGN PHASE kESVG 09/30/2020 SID PROJECT NAME PROJECT NO DD Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD REV / X / LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM TEMPORARY LINING - Permissible Shear Channel No: CHANNEL-14 Drainage Area: 3.15 ac Sta from: Design Fequency: 2 yrs Sta to: Time of Conc: 5 min Section Length: 160 ft Intensity: 6.91 in/hr Section Slope: 0.50 % Runoff Coeff: 0.33 Lining Type: Curled Wood Mat Discharge: 7.18 cfs Permissible Shear: 1.55 Ib/sf Channel Depth: 1.90 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 7.18 cfs flow by Rational Method n = 0.035 Manning's Coefficient (dimensionless) S = 0.005 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 2.386 quantity to equate to Zav M = 3 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 1.00 3.00 6.32 0.47 1.825 shallow 1.10 3.63 6.96 0.52 2.353 shallow 1.12 3.76 7.08 0.53 2.468 deep 1.11 3.70 7.02 0.53 2.410 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq A = cross -sectional area of flow 23 Qn _ P = wetted perimeter of the channel R— 149 Vs- R = hydraulic radius of the channel Normal Depth, D = 1.11 ft Velocit = 1.94 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.35 Ib/s -ft Temp Liner OX FINAL CHANNEL LINING DIMENSIONS B = ft side slopes, M = 3 :1 D = 2 ft top width, W = 12.0 ft ILine Channel with: Curled Wood Mat (REF: Malcom, 1991) Page 28 .• - DATE DESIGN PHASE � _.09/30/2020 SD PROJECT NAME DD PROJECT NO Hammocks Beach State Park Mainland7v.-Phase 1 19-152 CD / X / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM PERMANENT LINING - Permissible Velocity and Capacity Channel No: TDD-1 Drainage Area: 1.55 ac Sta from: Design Fequency: 25 yrs Sta to: Time of Conc: 5 min Section Length: 510 ft Intensity: 10.10 in/hr Section Slope: 1.20 % Runoff Coeff: 0.40 Ret Class: C Discharge: 6.26 cfs Permissible Velocity: 4.50 fps Allowable Depth: 1.25 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 6.26 cfs flow by Rational Method n = 0.086 Grass Manning's Coefficient (dimensionless) S = 0.012 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 3.30 quantity to equate to Zav M = 2 :1 side slope of channel ft of run : 1 ft of rise) NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 2 1.25 5.63 7.59 0.74 4.61 deep 2 1.20 5.28 7.37 0.72 4.23 deep 2 1.10 4.62 6.92 0.67 3.53 deep 2 1.07 4.43 6.79 0.65 3.33 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = 7req A = cross -sectional area of flow W Qn P = wetted perimeter of the channel A R= 149 R = hydraulic radius of the channel Normal Depth, D = 1.07 ft Depth O.K. Velocit = 1.41 fps Vel. O.K. SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.80 Ib/s -ft FINAL CHANNEL LINING DIMENSIONS B = 2 ft side slopes, M = 2 :1 D = 1.3 ft top width, W = 7.0 ft IPermanent Channel Lining: Grass (REF: Malcom, 1991) Page 29 L16LNEI) CHANNEL DATE DESIGN PHASE 09/30/2020 SD PROJECT NAME DD PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 119-152 CD / X / REV LOCATION BY Swansboro, NC DAL OTHER / (SPECIFY) CHECKED BY SJM TEMPORARY LINING - Permissible Shear Channel No: TDD-1 Drainage Area: 1.55 ac Sta from: Design Fequency: 25 yrs Sta to: Time of Conc: 5 min Section Length: 510 ft Intensity: 10.10 in/hr Section Slope: 1.20 % Runoff Coeff: 0.40 Lining Type: Curled Wood Mat Discharge: 6.26 cfs Permissible Shear: 1.55 Ib/sf Channel Depth: 1.25 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 6.26 cfs flow by Rational Method n = 0.035 Manning's Coefficient (dimensionless) S = 0.012 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 1.343 quantity to equate to Zav M = 2 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 2 1.00 4.00 6.47 0.62 2.902 deep 2 0.75 2.63 5.35 0.49 1.632 deep 2 0.70 2.38 5.13 0.46 1.426 deep 2 0.68 2.28 5.04 0.45 1.348 OK B = bottom width of trapezoidal channel D - normal depth of flow Zav = 7req A = cross -sectional area of flow 2/ Qn _ P = wetted perimeter of the channel — 1.49 R = hydraulic radius of the channel Normal Depth, D = 0.68 ft Velocity-- 2.74 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.51 Ib/s- -ft Temp Liner O.K. FINAL CHANNEL LINING DIMENSIONS B = 2 ft side slopes, M = 2 :1 D = 1 ft top widths W = 6.0 ft Line Channel with: Curled Wood Mat (REF: Malcom, 1991) Page 30 ► DATE DESIGN PHASE a 09/30/2020 SD PROJECT NAME PROJECT NO DD Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 CD / X / REV LOCATION BY Swansboro, NC DAL OTHER (SPECIFY) CHECKED BY SJM PERMANENT LINING - Permissible Velocity and Capacity Channel No: TDD-2 Drainage Area: .0.13 ac Sta from: Design Fequency 25 yrs Sta to: Time of Conc: 5 min Section Length: 135 ft Intensity: 10.10 in/hr Section Slope: 1.00 % Runoff Coeff: 0.40 Ret Class: C Discharge: 0.53 cfs Permissible Velocity: 4.50 fps Allowable Depth: 1.25 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 0.53 cfs flow by Rational Method n = 0.25 Grass . Manning's Coefficient (dimensionless) S = 0.01 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 0.88 quantity to equate to Zav M = 2 :1 side slope of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 2 1.25 5.63 7.59 0.74 4.61 deep 2 0.70 2.38 5.13 0.46 1.43 deep 2 0.60 1.92 4.68 0.41 1.06 deep 2 0.55 1.71 4.46 0.38 0.90 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Yreq A = cross -sectional area of flow I V3 Qn _ P = wetted perimeter of the channel 1.49 R = hydraulic radius of the channel Normal Depth, D = 0.55 ft Depth O.K. Velocity-- 0.31 fps Vel. O.K. SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.34 lb/s -ft FINAL CHANNEL LINING DIMENSIONS B = 2 ft side slopes, M = 2 :1 D = 1.3 ft top width, W = 7.0 ft Permanent Channel Lining: Grass (REF: Malcom, 1991) Page 31 . DATE DESIGN PHASE F 09/30/2020 SDJECT NAME PROJECT NO DDmocks Beach State Park Mainland Dev.-Phase 1 19-152 CD / x / REV LOCATION BY Swansboro, NC DAL IOTHER (SPECIFY) CHECKED BY SJM TEMPORARY LINING - Permissible Shear Channel No: TDD-2 Drainage Area: 0.13 ac Sta from: Design Fequency: 25 yrs Sta to: Time of Conc: 5 min Section Length: 135 ft Intensity: 10.10 in/hr Section Slope: 1.00 % Runoff Coeff: 0.40 Lining Type: Curled Wood Mat Discharge: 0.53 cfs , Permissible Shear: 1.55 Ib/sf Channel Depth: 1.25 ft Swale sizing method done by manipulation of Manning's Equation to find the depth of flow that matches the known flow conditions. Performed by trial and error. INPUT DATA Qp = 0.53 cfs flow by Rational Method n = 0.066 Manning's Coefficient (dimensionless) S = 0.01 ft/ft longitudinal slope (ft of fall per ft of run) Zreq = 0.233 quantity to equate to Zav M = 2 :1 side slo a of channel ft of run : 1 ft of rise NORMAL DEPTH AND VELOCITY B D A P R Zav Remark 2 0.50 1.50 4.24 0.35 0.751 deep 2 0,35 0.95 3.57 0.27 0.390 deep 2 0.25 0.63 3.12 0.20 0.214 shallow 2 0.27 0.69 3.21 0.21 0.245 OK B = bottom width of trapezoidal channel D = normal depth of flow Zav = Zreq{ A = cross -sectional area of flow 213 Qn P = wetted perimeter of the channel A R _ 1.49 R = hydraulic radius of the channel Normal Depth, D = 0.27 ft Veloci = 0.77 fps SHEAR STRESS T = yds = shear stress in Ib/sq-ft Y = unit weight of water, 62.4 Ib/cu-ft D = normal depth of flow in ft S = longitudinal slope in ft/ft shear stress, T = 0.17 Ib/s -ft Temp Liner O.K. FINAL CHANNEL LINING DIMENSIONS B = 2 ft side slopes, M = 2 :1 D = 1 ft top width, W = 6.0 ft Line Channel with: Curled Wood Mat (REF: Malcom,1991) Page 32 !Hammocks Beach State Park Mainland Dev.-Phase 1 ISwansboro, NC Culvert No: A Culvert Diameter: 15 in Culvert Material: RCP Entrance Type FES Shoulder Elevation: 31.74 HW Control Elev: 31.70 Upper Invert: 29.70 Lower Invert: 29.50 Culvert Length: 20 ft Culvert Slope: 0.01 ft/ft Tailwater Elevation: 30.50 Check Inlet Control HW/D = HW = HW Elev = (upper inv) + (HW) _ Check Outlet Control do = (dc+D)/2 = Ke = H= TW = h = TW or (dc+D)/2 = HW=h+H= HW Elev = (lower inv) + (HW) _ Results HW Elevation: 30.50 Flow Condition: Outlet Control Freeboard: 1.20 ft Outlet Protection 0.5 0.63 30.33 0.40 0.825 0.5 0.00 1.00 1.00 1.00 30.50 DATE 09/30/2020 19-152 DAL Drainage Area: Design Frequency: Time of Conc: Intensity: Runoff Coeff: Discharge: (from Chart 1) (from Chart 4) (from Table 12) (from Chart 5) (whichever greater) CULVERT IS O.K. Q10= 0.23 cfs Qio/Qfull= 0.03 Qfull = 6.47 cfs VNfull = 0.42 Vfull = 5.27 fps V = 2.23 fps From Fig. 8.06.b.1: Zone = 1 From Fig. 8.06.b.2: D50 = 4 in DMAX = 6 in Riprap Class = A Apron Thickness = 12 in Apron Length = 5.0 ft Apron Width = 3xDia = 3.75 ft 0.04 ac 10 yrs 5.00 min 8.98 in/hr 0.63 0.23 cfs CLH design, p.a. LATEST REVISION: 10/7/2020 4:52 PM PAGE 1 OF 9 ocks Beach State Park Mainland Dev.-Phase 1 PION boro, NC Culvert No: B Culvert Diameter: 15 in Culvert Material: RCP Entrance Type FES Shoulder Elevation: 31.69 HW Control Elev: 31.65 Upper Invert: 29.65 Lower Invert: 29.45 Culvert Length: 20 ft Culvert Slope: 0.01 ft/ft Tailwater Elevation: 30.45 Check Inlet Control HW/D = HW = HW Elev = (upper inv) + (HW) _ Check Outlet Control do = (dc+D)/2 = Ke = H= TW = h = TW or (dc+D)/2 = HW=h+H= HW Elev = (lower inv) + (HW) _ Results HW Elevation: 30.45 Flow Condition: Outlet Control Freeboard: 1.20 ft Outlet Protection Q10 = 0.16 cfs Qfull = 6.47 cfs Vfull = 5.27 fps From Fig. 8.06.b.1: From Fig. 8.06.b.2: Dso 0.5 0.63 30.28 0.40 0.825 0.5 0.00 1.00 1.00 1.00 30.45 DATE 19-152 BY DAL Drainage Area: Design Frequency: Time of Conc: Intensity: Runoff Coeff: Discharge: (from Chart 1) (from Chart 4) (from Table 12) (from Chart 5) (whichever greater) CULVERT IS O.K. Zone DMAX Riprap Class Apron Thickness Apron Length Apron Width = 3xDia Q10/Qfull = VNfull = V= 0.02 0.32 1.69 fps 1 4 in 6 in A 12 in 5.0 ft 3.75 ft �p � 0.03 ac 10 yrs 5.00 min 8.98 in/hr 0.69 0.16 cfs CLH design, p.a. LATEST REVISION: 10/7/2020 4:52 PM PAGE 2 OF 9 Hammocks Beach State Park Mainland Dev.-Phase 1 LOCATION Swansboro. NC Culvert No: C Culvert Diameter: 18 in Culvert Material: RCP Entrance Type FES Shoulder Elevation: 28.75 HW Control Elev: 28.71 Upper Invert: 26.71 Lower Invert: 26.41 Culvert Length: 40 ft Culvert Slope: 0.0075 ft/ft Tailwater Elevation: 27.61 Check Inlet Control HW/D = HW = HW Elev (upper inv) + (HW) _ Check Outlet Control do = (dc+D)/2 = Ke = H= TW = h = TW or (dc+D)/2 = HW=h+H= HW Elev = (lower inv) + (HW) _ Results HW Elevation: 28.49 Flow Condition: Outlet Control Freeboard: 0.22 ft Outlet Protection Q10 = 8.60 cfs Qfull = 9.11 cfs Vfull = 5.16 fps From Fig. 8.06.b.1: From Fig. 8.06.b.2: D50 1.18 1.77 28.48 1.10 1.3 0.5 0.78 1.20 1.30 2.08 28.49 DATE 09/30/2020 19-152 BY DAL Drainage Area: Design Frequency: Time of Conc: Intensity: Runoff Coeff: Discharge: (from Chart 1) (from Chart 4) (from Table 12) (from Chart 5) (whichever greater) CULVERT IS O.K. Zone DMAX Riprap Class Apron Thickness Apron Length Apron Width = 3xDia Q10/Qfull = VNfull = V= 0.94 1.14 5.86 fps 1 4 in 6 in A 12 in 6.0 ft 4.50 ft 2.28 ac 10 yrs 5.00 min 8.98 in/hr 0.42 8.60 cfs CLH design, p.a. LATEST REVISION: 10/7/2020 4:52 PM PAGE 3 OF 9 (Hammocks Beach State Park Mainland Dev.-Phase 1 ISwansboro, NC Culvert No: D Culvert Diameter: 15 in Culvert Material: RCP Entrance Type FES Shoulder Elevation: 34.18 HW Control Elev: 34.14 Upper Invert: 32.14. Lower Invert: 31.83 Culvert Length: 37 ft Culvert Slope: 0.008378 ft/ft Tailwater Elevation: 32.83 Check Inlet Control HW/D = HW = HW Elev = (upper inv) + (HW) _ Check Outlet Control do = (dc+D)/2 = Ke = H= TW = h = TW or (dc+D)/2 = HW=h+H= HW Elev = (lower inv) + (HW) _ Results HW Elevation: 32.83 Flow Condition: Outlet Control Freeboard: 1.31 ft Outlet Protection 0.5 0.63 32.77 0.40 0.825 0.5 0.00 1.00 1.00 1.00 32.83 DATE 09/30/2020 19-152 DAL Drainage Area: Design Frequency: Time of Conc: Intensity: Runoff Coeff: Discharge: (from Chart 1) (from Chart 4) (from Table 12) (from Chart 5) (whichever greater) CULVERT IS O.K. Q10 = 0.40 cfs Q10/Qfull = 0.07 Qfull = 5:92 cfs VNfull = 0.52 Vfull = 4.83 fps V = 2.52 fps From Fig. 8.06.b.1: Zone = 1. From Fig. 8.06.b.2: D50 = 4 in DMAx = 6 in i Riprap Class = A i Apron Thickness = 12 in Apron Length = 5.0 ft Apron Width = 3xDia = 3.75 ft 0.08 ac 10 yrs 5.00 min 8.98 in/hr 0.56 0.40 cfs CLH design, p.a. LATEST REVISION: 10/7/2020 4:52 PM PAGE 4OF9 Beach State Park Mainland Dev.-Phase 1 jSwansboro, NC Culvert No: E Culvert Diameter: 15 in Culvert Material: RCP Entrance Type FES Shoulder Elevation: 28.23 HW Control Elev: 28.19 Upper Invert: 26.19 Lower Invert: 25.67 Culvert Length: 24 ft Culvert Slope: 0.021667 ft/ft Tailwater Elevation: 26.67 Check Inlet Control HW/D = HW = HW Elev = (upper inv) + (HW) _ Check Outlet Control do = (dc+D)/2 = Ke = H= TW = h = TW or (dc+D)/2 = HW=h+H= HW Elev = (lower inv) + (HW) Results HW Elevation: 26.82 Flow Condition: Inlet Control Freeboard: 1.38 ft 0.5 0.63 26.82 0.40 0.825 0.5 0.00 1.00 1.00 1.00 26.67 DATE 09/30/2020 19-152 DAL Drainage Area: Design Frequency: Time of Conc: Intensity: Runoff Coeff: Discharge: (from Chart 1) (from Chart 4) (from Table 12) (from Chart 5) (whichever greater) CULVERT IS O.K. Outlet Protection Q10 = 0.40 cfs Q10/Qfull = 0.04 Qfull = 9.52 cfs VNfull = 0.42 Vfull = 7.76 fps V = 3.28 fps From Fig. 8.06.b.1: Zone = 1 From Fig. 8.06.b.2: D5o = 4 in DMAX = 6 in .� %. r. Riprap Class = A Apron Thickness = 12 in Apron Length = 5.0 ft }; Apron Width = 3xDia = 3.75 ft I � 0.08 ac 10 yrs 5.00 min 8..98 in/hr 0..56 0.40 cfs CLH design, p.a. LATEST REVISION: 10/7/2020 4:52 PM PAGE 5 OF 9 Beach State Park Mainland Dev.-Phase 1 ISwansboro, NC Culvert No: F Culvert Diameter: 15 in Culvert Material: RCP Entrance Type FES Shoulder Elevation: 22.99 HW Control Elev: 22.95 Upper Invert: 20.95 Lower Invert: 20.38 Culvert Length: • 55 ft Culvert Slope: 0.010364 ft/ft Tailwater Elevation: 21.38 Check Inlet Control HW/D = HW = HW Elev = (upper inv) + (HW) _ Check Outlet Control do = (dc+D)/2 = Ke = H= TW = h = TW or (dc+D)/2 = HW = h+H = HW Elev = (lower inv) + (HW) _ Results HW Elevation: 21.93 Flow Condition: Inlet Control Freeboard: 1.03 ft Outlet Protection 0.78 0.98 21.93 0.70 0.975 0.5 0.17 1.00 1.00 1.17 21.55 DATE 09/30/2020 19-152 DAL Drainage Area: Design Frequency: Time of Conc: Intensity: Runoff Coeff: Discharge: (from Chart 1) (from Chart 4) (from Table 12) (from Chart 5) (whichever greater) CULVERT IS O.K. Q10 = 2.54 cfs Q10/Qfull = 0.39 Qfull = 6.59 cfs VNfull = 0.93 Vfull = 5.37 fps V = 4.99 fps From Fig. 8.06.b.1: Zone = 1 From Fig. 8.06.b.2: D50 = 4 in DMAx = 6 in Riprap Class = A Apron Thickness = 12 in Apron Length = 5.0 ft ^� I ` Apron Width = 3xDia = 3.75 ft 0.48 ac 10 yrs 5.00 min 8.98 in/hr 0.59 2.54 cfs CLH design, p.a. LATEST REVISION: 10/7/2020 4:52 PM PAGE 6OF9 lHammocks Beach State Park Mainland Dev.-Phase 1 NC Culvert No: G Culvert Diameter: 15 in Culvert Material: RCP Entrance Type FES Shoulder Elevation: 12.04 HW Control Elev: 12.00 Upper Invert: 10.00 Lower Invert: 9.75 Culvert Length: 24 ft Culvert Slope: 0.010417 ft/ft Tailwater Elevation: 10.75 Check Inlet Control HW/D = HW = HW Elev = (upper inv) + (HW) _ Check Outlet Control do = (dc+D)/2 = Ke = H= TW = h = TW or (dc+D)/2 = HW=h+H= HW Elev = (lower inv) + (HW) _ Results HW Elevation: 11.21 Flow Condition: Outlet Control Freeboard: 0.79 ft Outlet Protection 0.93 1.16 11.16 1.10 1.175 0.5 0.28 1.00 1.18 1.46 11.21 DATE 09/30/2020 19-152 DAL Drainage Area: Design Frequency Time of Conc: Intensity: Runoff Coeff: Discharge: (from Chart 1) (from Chart 4) (from Table 12) (from Chart 5) (whichever greater) CULVERT IS O.K. Q10 = 3.73 cfs Q10/Qfull = 0.57 Qfull = 6.60 cfs VNfull = 1.02 Vfull = 5.38 fps V = 5.51 fps From Fig. 8.06.b.1: Zone = 1 From Fig. 8.06.b.2: D50 = 4 in DMAx = 6 in Riprap Class = A Apron Thickness = 12 in 2 Apron Length = 5.0 ft 1I Apron Width = 3xDia = 3.75 ft ength 1,26 ac 10 yrs 5.00 min 8.98 in/hr 0.33 3.73 cfs CLH design, p.a. LATEST REVISION: 10/7/2020 4:52 PM PAGE 7 OF 9 �DATEG09/30/2020 QPR!R'l o �/J T NAME PROJECT NO Hammocks Beach State Park Mainland Dev.-Phase 1 19-152 LOCATION BY Swansboro, NC DAL Culvert No: H Drainage Area: 0.17 ac Culvert Diameter: 15 in Design Frequency: 10 yrs Culvert Material: RCP Time of Conc: 5.00 min Entrance Type FES Intensity: 8.98 in/hr Shoulder Elevation: 12.04. Runoff Coeff: 0.33 HW Control Elev: 12.00 Discharge: 0.50 cfs Upper Invert: 10.00 Lower Invert: 9.75 Culvert Length: 24 ft Culvert Slope: 0.010417 ft/ft Tailwater Elevation: 10.75 Check Inlet Control HW/D = 0.5 (from Chart 1) HW = 0.63 HW Elev = (upper inv) + (HW) = 10.63 Check Outlet Control do = 0.40 (from Chart 4) (dc+D)/2 = 0.825 Ke = 0.5 (from Table 12) H = 0.01 (from Chart 5) TW = 1.00 h = TW or (dc+D)/2 1.00 (whichever greater) HW=h+H= 1.01 HW Elev = (lower inv) (HW) = 10.76 Results HW Elevation: 10.76 Flow Condition: Outlet Control Freeboard: 1.24 ft CULVERT IS O.K. Outlet Protection Q10 = 0.50 cfs Q10/Qfull = 0.08 Qfull = 6.60 cfs VNfull = 0.59 Vfull = 5.38 fps V = 3.16 fps From Fig. 8.06.b.1: Zone = 1 From Fig. 8.06.b.2: D50 = 4 in DMAX = 6 in .. Riprap Class = A Apron Thickness = 12 in ' Apron Length - 5.0 ft `C Apron Width = 3xD1a = 3.75 ft CLH design, p.a. LATEST REVISION: 10/7/2020 4:52 PM PAGE 8 OF 9 ocks Beach State Park Mainland Dev.-Phase 1 NC Culvert No: Culvert Diameter: 11.5 in Culvert Material: IP Entrance Type jFW Shoulder Elevation: 12-04 HW Control Elev: 112.01 Upper Invert: 10.00 Lower Invert: 9.55 Culvert Length: 44 ft Culvert Slope: 0.010227 ft/ft Tailwater Elevation: 10.55 Check Inlet Control HW/D = HW = HW Elev = (upper inv) + (HW) _ Check Outlet Control do = (dc+D)/2 = Ke = H= TW = h = TW or (dc+D)/2 = HW=h+H= HW Elev = (lower inv) + (HW) _ Results HW Elevation: 11.31 Flow Condition: Inlet Control Freeboard: 0.69 ft Outlet Protection 010 = 4.67 cfs Qfull = 6.54 cfs Vfull = 5.33 fps From Fig. 8.06.b.1: 1.05 1.31 11.31 0.40 0.825 0.9 0.62 1.00 1.00 1.62 11.17 Zone From Fig. 8.06.b.2: D50 DMAX Riprap Class Apron Thickness Apron Length Apron Width = 3xDia DATE 09/30/2020 Q PROJECT NO 19-152 BY DAL Drainage Area: 3.15 ac Design Frequency: 10 yrs Time of Conc: S.:W min Intensity: 8.98 in/hr Runoff Coeff: 0.33 Discharge: 9.33 cfs Dual Culvert: 4.67 cfs (from Chart 1) (from Chart 4) (from Table 12) (from Chart 5) (whichever greater) CULVERT IS O.K. Q10/Qfull = V/Vfull = V= 0.71 1.08 5.77 fps 1 4 in 6 in A 12 in 5.0 ft 3.75 ft CLH design, p.a. LATEST REVISION: 10/7/2020 4:52 PM PAGE 9 OF 9 CLH design, p.a. 400 Regency Forest Drive, Suite 120 Cary, North Carolina 27518 P: 919.319.6716 (L— L H www.clhdesignpa.com l7E<.SEC.iN Site Plan Comment Responses Date: May 7, 2021 To: Christine Hall, PE From: Bill Hamilton, PLA — Project Manager Re: Hammocks Beach State Park — Mainland Development — Phase 1 Dear Christine: Below in red are our responses to the 2nd round of review comments received for the above referenced project. Comment 1: 15A NCAC 02H.1040(1) and .1042(2)0): In response to Item 1 of the previous request for additional information, it is noted that the originals will be mailed as soon as they are received. To date, the originally signed application or operation and maintenance agreement have not been received. Please provide an application and operation and maintenance agreement with original signatures from an individual that meets the requirements of 15A NCAC 02H.1040(1). Response: Acknowledged. We have included to original sign application and O&M Agreement. Comment 2. 15A NCAC 02H.1042(2)(iv): a. In response to Item 3.d of the previous request for additional information, it is noted that the proposed walking trail is not considered built -upon area and that the adjacent lot's deed is included in the submittal. This is true, however this trail is also included as part of the land disturbance for the erosion control plans and thus requires stormwater approval per 15A NCAC 02H.1019(2). Please either include this disturbed land or the adjacent tract as part of this project area. Alternatively, if this adjacent tract is located within other previously permitted areas, such as SW8971235, that permit must be modified to include the new improvements. Response: We will submit a Minor Modification to permit SW8971235 shortly. A hatch and notes have been added to the overall plans stating that the soil trails on the adjacent property are not part of this permit and are iin-ccll��� �r in the Minor Modifications to the SW8971235 permit. E,V 1I d el i n, p.a. AY: Construction Plan Comments May 7, 2021 b. The project area listed in W 70 of the application and in the drainage area section of the supplement is not consistent with the project area presented in IV.7 of the application or Row 2 of the supplement cover page. Please confirm the project area is presented consistently. Response: erection IV.10 has been updated per comment. Comment 3. G.S. 743-214.7(b2), 15A NCAC 02H .1042(2)(a)(iv), and .1042(2)(g)(v): Plan sheet C8.1 shows that an ABC stone surface with geotextile fabric will be used in wet locations along the walking trail. ABC stone is typically considered to be a built -upon area. Please either provide additional details that demonstrate this profile will remain porous with a hydraulic conductivity greater than 0.001 centimeters per second (1.41 inches per hour) as required by the General Statutes or include these areas as part of the built -upon area associated with this site. Response: We have removed the detail showing ABC stone. We have ground truth the trails with a soil scientist and do not foresee the need for ABC stone. Comment 4: 75A NCAC 02H.1042(2): Please email the supplement form to the email address provided below so that it can be preserved electronically per the regulatory requirements. Response: Acknowledged. Supplement forms will be emailed. End of Responses Thank you for all of your help and please call with any questions. Sincerely, For CLH design, p.a. Bill Hamilton, PLA Project Manager CLH design, p.a. ROY COOPER Gmwww hUCHAEL & REGAN secrrfar� BRAN WRENN Dkedor March 15, 2021 Via email only. ierry.howertoWnenarkS.,-ov Department of Natural and Cultural Recourses Division of Parks and Recreation Attn: Stacy Meyer, Deputy Secretary c/o Jerry Howerton, Chief of Design and Construction 1615 Mail Service Center Raleigh, NC 27699 R Subject: Request for Additional Information Stormwater Project No. SW8 200811 Hammocks Beach State Park Mainland Development- Phase 1 Onslow County Dear Mr. Howerton: The Wilmington Regional Office received and accepted a State Stormwater Management Permit Application for the subject project on August 24, 2020 with additional information requested on November 20, 2020 and received on February 5, 2021. A preliminary in-depth review of that information has determined that the application is not complete and that additional information is needed. To continue the review, please provide the following additional information in a single, hard copy submittal package: X.ti15A NCAC 02H.1040(1) and .1042(2)0): In response to Item 1 of the previous request for additional information, it is noted that the originals will be mailed as soon as they are received. To date, the originally signed appl Cation or operation and maintenance agreement have not been received. Please provide an application and operation and maintenance agreement with original signatures from an individual that meets the requirements of 15A NCAC 02H.1040(1). A. 15A NCAC 02H.1042(2)(iv): o k a. In response to Item 3.d of the previous request for additional information, it is noted that the proposed walking trail is not considered built -upon area and that the adjacent lot's deed is included in the submittal. This is true, however this trail is also included as part of the land disturbance for the erosion control plans and thus requires stormwater approval per 15A NCAC 02H.1019(2). Please either include this disturbed land or the adjacent tract as part of this project area. Alternatively, if this adjacent tract is located within other previously permitted areas, such V,/bb.as SW8971235, that permit must be modified to include the new improvements. The project area listed in IV.10 of the application and in the drainage area section of the supplement is not consistent with the project area presented in IV.7 of the application or Row 2 of the supplement cover page. Please confirm the project area is presented consistently. 3. G.S. 143-214.7(b2), 15A NCAC 02H .I042(2)(a)(iv), and .I042(2)(g)(v): Plan sheet C8.1 shows that an ABC stone surface with geotextile fabric will be used in wet locations along the walking trail. ABC stone is typically considered to be a built -upon area. Please either provide additional details that demonstrate this profile will remain porous with a hydraulic conductivity greater than 0.001 centimeters per second (1.41 inches per hour) as required by the General Statutes or include these areas as part of the built -upon area associated with this site. ✓4. 15A NCAC 02H.1042(2): Please email the supplement form to the email address provided below so that it can be preserved electronically per the regulatory requirements. Please remember to confirm that any revised information is presented consistently throughout the application documents including calculations, supplements, narrative, and plans. Please also remember to provide two hard copies of any updated documents per 15A NCAC 02H.1042(2). IVANadi CdrdlmB DeµartWft t of EnvirmwnriA1 Q"itv Di ,%WP aE and lard RcS# =_m Wboh3gtoi Rrgwral Office ti'.7 Cardinal umr E0m5= Wilmington. Nm rh CmrrW 2W State Stormwater Permit No. SW8 200811 Page 2 of 2 All of the requested information listed above should be received in this Office by April 5, 2021, or the application will be returned as incomplete. Please note that only two letters requesting additional information is allowed in the State Stormwater Program. If the information is not satisfactorily provided after either the second request or 30 days, the project will be returned. If the project is returned and you wish to re -submit later, you will need to resubmit all required items at that time, including the application fee. The construction of any impervious surfaces, other than a construction entrance under an approved Sedimentation Erosion Control Plan, is a violation of NCGS 143-215.1 and is subject to enforcement action pursuant to NCGS 143-215.6A. Please reference the State assigned project number on all correspondence. If you have any questions concerning this matter, please feel free to call me at (910) 796-7215 or email me at christine.hall@ncdenr.gov. Sincerely, &Vrz ute Ufa& Christine Hall Regional Stormwater Program Supervisor DES/canh: \\\Stormwater\Permits & Projects\2020\200811 LD\2021 03 addinfo 200811 cc: Steven J. Miller PE; CLH Design, PA; via email: smiller@clhdesignpa.com Wilmington Regional Office Stormwater File Hall, Christine From: Hall, Christine Sent: Monday, March 15, 2021 11:01 AM To: Howerton, Jerry, smiller@clhdesignpa.com Subject: 2nd request for additional info, Hammocks State Park mainland (SW8200811) Attachments: 2021 03 addinfo 200811.pdf All, Attached is a pdf of the second request for additional information for the subject project. Please let me know if you have any questions or concerns. Thanks. Christine Hall, PE Wilmington Regional Stormwater Program Supervisor Division of Energy, Mineral and Land Resources — State Stormwater Program North Carolina Department of Environmental Quality Office: 910 796 7215 Direct: 910 796 7339 ** Plsaso note the change to my direct phone number ** Email: christine.hallca7.ncdenr.gov Address: 127 Cardinal Drive Ext. Wilmington, NC 28405 Q E� Hall, Christine From: Howerton, Jerry Sent: Friday, February 5, 2021 12:19 PM To: Hall, Christine Cc: Fikinas, Adrienne; Dwayne Parker Subject: Division of Parks and Recreation Howerton-Signature-Authority2-4-21.pdf Attachments: Howerton-Signature-Authority2-4-21.pdf Ms. Hall, Please see the attached Signature Authority per our discussion. Please let me know if any additional information will be needed. Thanks, Jerry Jerry Howerton Chief of Design and Construction NC Division of Parks and Recreation 1615 Mail Service Center Raleigh, NC 27699-1615 919-707-9361 Office 919-368-5977 Cell Jerry.Howerton@ncparks.gov c-i F-Ar Sh •• Division of Parks and Recreation NC Department of Natural and Cultural Resources Governor Roy Cooper February 4, 2021 Ms. Christine Hall, Stormwater Program Supervisor NC DEQ-Division of Water Resources Wilmington Regional Office 127 N. Cardinal Drive Ext. Wilmington, North Carolina 28405-3845 Dear Ms. Hall: Secretary D. Reid Wilson This letter is in response to an email and letter dated November 20, 2020, concerning permit signature authority for the NC Division of Parks and Recreation. Jerry Howerton, Chief of Design and Development, NC Division of Parks and Recreation has the delegated authority to sign all permit applicants and other DEQ related documents pertaining to all related construction projects on behalf of the North Carolina Division of Parks and Recreation. If you need additional information, please contact me at 919-707-9300. Sincerely, 6D Dwa a Pµ atterson D (� - C yn e � c�1�bla� cc: Jerry Howerton, Chief of Design and Development, DPR Brian Strong, Deputy Director of Planning and Natural Resources, DPR ECEIVE FEB 0 5 20zi BY: Dwayne Patterson, Director NC G'ivsion of Parks and Recreation NORTH CAROUNA STATE PAR4S 1615 MSC - Raleigh, NC 27699-1615 Na&Ml+ WondWa 919.707.9300 / ncp:!rks.gov RECEIVED CLH design, p.a. 400 Regency Forest Drive, Suite 120 Cary, North Carolina 27518 N: 919.319.6716 www.clhdesignpa.com Letter of Transmittal CLH Project Number: JAN 19 2021 NCDEQ WILMINGTON RO CLH January 15, 2021 To: Stormwater Program Company: NCDEQ Division of Energy, Mineral and Land Resources Address: 127 Cardinal Drive Extension City/State/Zip: Wilmington, NC 28405 Phone: 910-796-7215 Method: UPS Ground Subject: Hammocks Beach State Park Mainland Development - Phase 1 Prints X Originals Specifications I Applications X Reports X Copy of Letter Submittals I Other: X Copies Date Description 2 01/15/21 Stormwater Management Permit Application Form (Unsigned copies - Original and copy will be submitted a soon as we receive it from the Owner) 1 01/15/21 Operation & Maintenance Agreement (Unsigned -Original will be submitted as soon as we receive it from Owner) 1 01/15/21 Supplemental EZ Form 1 01/15/21 Stormwater Management Design Narrative (Includes narrative, maps, calculations) 1 05/18/20 Geotechnical Engineering Report 2 01/15/21 Plan Set 1 04/21/15 Deed (Property &Adjacent Property) 1 01/15/21 Comment Responses Additional Remarks: Please accept the attached documents for review and approval of the Post -Construction Stormwater Management for the above referenced project. I trust all area satisfactory for your review. Please call or email Bill Hamilton (bhalmilton(aclhdesignpa.com) or Dani Love a (ciloveraw1hd6signpa.com) with any questions or if you need additional information. Thanks. Signed: Cc: File CLH design, p.a. S lailitiligilliCRP Doe ID: 012873230003 TVPa. Recorded: 08/90/2018 at 02:25:38 PM Revenue Taxe9E2.096iPo0s 1 of 9 Onelow Count. Rebecca L. Pollard Req. of Deeds 9K4475 Pa575-577 NORTH CAROLINA SPECIAL WARRANTY DEED The attorney preparing this instrument has made no record search or title examination as to the property herein described, unless the same is shown by his written and signed Certificate. Excise Tax: S2,951.00 Parcel Identifier No. 1320-33.4 Verified by County on the _ day of 20_ By: 160131, split frown 032107 Mail/Box to: Pollock & Pollock, Attorneys At Law, P.A., PO Drawer 999, Burgaw, NC 28425 This instrument was prepared by: Pollock & Pollock, Attorneys At Law, P.A. Brief description for the index: THIS DEED made this 8th day of June, 2016, by and between GRANTOR I GRANTEE The Conservation Fund, State of North Carolina a Maryland nonproPt corporation clo State Property Office 1321 Mail Service Center Raleigh, NC 27699-1321 Enter inappropriate block for each party: name, address, and, if appropriate, character of entity, e.g. corporation or partnership. This property __ is or X is not the primary residence of the Grantor. The designation Grantor and Grantee as used herein shall include said pa+iies, theirheirs, successors, and assigns, and shall include singular, plural, masculine, feminine or neuter as required by context WrMESSF.111, thatthe Grantor, for a valuable consideration paid by the Grantee, the receipt ofwhich is hereby acknowledged, has and by these presents does grant, bargain, sell and convey unto the Grantee in fee simple, all that certain lot or parcel of land situated in the City of, Swansboro Township, Onslow County, North Carolina and more particularly described as follows: Being all of Tract B-1, 45.35 acres as shown on a map entitled Composite Plat for: The Conservation Fund (Owner) Division of Tract B, dated 28 March 2016, recorded 1 April 2016 in Map Book 71, page 98, Cabinet N, of the Onslow, County Registry. The property hereinabove described was acquired by Grantor by instrument recorded in Book , page A map showing the above described property is recorded in Map Book , Page NC Bar Association Fort No. 6 ® 1977, 2002 Printed by Agreement with the NC Bar Association —1981 - Chicago Title Insurance Company JAN 19 2u21 BY. Book: 4475 Page: 575 Page 1 of 3 TO HAVE AND TO HOLD the aforesaid tot or parcel of land and all privileges and appurtenances thereto belonging to the Grantee in fee simple. And the Grantor covenants with the Grantee, that Grantor has done nothing to impair such We as Grantor received, and Grantor will warrant and defend the title against the lawful claims, of all persons claiming by, under or through Grantor, other than the following exceptions; IN WITNESS WHEREOF, the Grantor has duly executed the foregoing as of the day and year first above written. The Conservation Fund, a Maryland nonprofit corporation _(SEAL) (Entity N By: Title:.7o6rtW V!u ?lr5,Ae f �'GGtA°�+l�l�tS�i (SEAL) By: By: Title: (SEAL) Title: (SEAL) fir^ I I► awe of 1{1 - County of `t iQQA^ A tCGV Notary Public of the County and State aforesaid, certify that i ar n 14. personally came before me this day and acknowledged thane is the&Nw VT of The Conservation Fund, a Maryland nonprofit corporation, and that by authority duly given and as the act of such entity, She signed the foregoing irosnument in its name on its behalf as its act and deed. Witness my land and Notarial stamp or seal, this My Commission Expires: 313.1ac Notary Public NC Bar Association Form No. 6 0 1977, 2002 Printed by Agrooment with the NC Bar Association 1981 Chicago Title Insurance Company Book: 4475 Page: 575 Page 2 of 3 Tax Certification Form (Check One Box) ✓0 This certifies that there are no delinquent ad valorem taxes, or other taxes which the Onslow County Tax Collector is charged with collecting, that are a lien on: Parcel Identification Number: 160131 S/F 032107 This is not a certification that this Onslow County Parcel Identification Number matches the deed description. No certification required, as attorney statement that any delinquent taxes will be paid from closing proceeds is included on first page of deed. Balance due on account. It must be paid to Onslow County- Tax Collector within 5 days of closing. dol•M1ny�rl W Ina+r.�ae Linda Hernandezaa�„�•...�] OY• ]0160]]O 11II Ot NCP Tax Collections Staff Signature 6130116 Date El This parcel may have deferred taxes which become due upon transfer of the property. Call the Tax Office, Land Records Division at 910-989-2204 for more information. 234 NW Corridor Blvd • Jacksonville, North Carolina • 28540 • Phone: (910) 989-2200 • Fax: (910)989-5918 -OnslowCountVNC.gov/tax Book: 4475 Page: 975 Page 3 of 3 CLH design, p.a. 400 Regency Forest Drive, Suite 120 Cary, North Carolina 27518 P: 919.319.6716 www.clhdesignpa.com Site Plan Comment Responses Date: January 15, 2021 To: Ted Triantis From: Bill Hamilton, PLA — Project Manager Re: Hammocks Beach State Park — Mainland Development — Phase 1 Dear Ted: 0 CLH LDESI(Z rN Below are our responses to the 1st round of review comments received for the above referenced project. Comment 1: 75A NCAC 02H.1040(l). The provided applications appear to be copies and not original signatures. Application forms shall have original signatures. Please provide an application with original signatures. Response: Acknowledged. We will mail the original signed application as soon as be receive it from the owner. Comment 2: 15A NCAC 02H.1040(l)(d): Section 111. La lists the Signing Official & Title as Jerry Howerton, Chief of Design and Construction. In the case of a municipal, state, or other public entity, the signing official must be either a principal executive officer, ranking ofFciat or other duly authorized employee. Please provide documentation from a principal executive officer, ranking official, or other duly authorized employee giving Jerry Howerton signing authority, OR please update the application with someone holding one of these titles/positions. Response: Acknowledged. We are currently in the process of getting the application signed by an authorized employee. We will mail the signed application as soon as be receive it from the owner. Comment 3. 75A NCAC 02H.1042(2)00 and .1042(g)(d): j 1 a. The application and supplement lists an area of 37,810 sf of off -site Built Upon Area (BUA). Row 20 of the supplement says the off -site is 'Roadway" BUA. Section IV.10 of the Basin Information table in the application shows an Off -site Drainage Area as 89,744 sf. Please provide maps showing the location of the total project area (with 77C CLH design, a JAN 19 2utn 9 P 1 BY: Response: Construction Plan Comments January 15, 2021 bearings and distances) as well as the where the offsite and onsite drainage areas and BUA are located. b. The total property area listed in Section IVA and 7 of the application, 191.03 acres, appears to relate to the total drainage area. If there are offsite areas located outside the property area, please exclude those from the property area reported in these sections of the application. c. The application lists the Total Property Area as 791.03 acres, however, Row 2 of the provided supplement shows the Project Area as 9.95 acres. Please ensure the information is presented consistently. d. The proposed walking trail appears to leave the property identified in the deed and continue across other properties. Please explain how this extra property is included in this project area and how the walking trail impacts the onsite and offsite areas included in this submittal. If the trail crosses into other property not included in this project area or owned by the applicant, please include these trails in the project area and show the easements allowing them the construct these improvements. If the improvements are located within other permitted project areas, those permits must be modified. a. The proposed off -site roadway (31,810-sf) is now listed as off -site and has been removed from "Other' category of the supplement form. The Off -site drainage area (89,800-sf) is the abandoned NC DOT right-of-way area. Sheet C3A has been added to show limits of on -site and off -site drainage areas and impervious covers. Sheets 50.1 and 50.2 showing the property bearing and distances. b. Originally, we were considering the abandoned NC DOT right-of-way tract as part of our property. We have updated Section IVA & 7 of the application form to exclude this area. c. The application has been revised to say 189.37-acres. Row 2 of the supplement form has been updated to say 176.97-acres like Section IV.7 of the applications form. d. Both properties are owned by the State of North Carolina and are part of Hammocks Beach State Park. The proposed walking trail is a simple 10-ft wide soil path and was not considered in the BUA. We have included the adjacent lot's deed in this submittal. Comment 4: 75A NCAC 02H. 1003(4),.1019(6)(b) and .1042(2)(g)(iii): a. Please provide the boundaries of all surface waters, wetlands, protected vegetated setbacks, and protected riparian buffers on the plans. If surface waters or coastal wetlands measured landward from the normal high waterline are located within the CLH design, p.a. Response: Construction Plan Comments January 15, 2021 property area, they must be excluded from the project area and drainage area presented in Section IV.7 and IV.10 of the application per 15A NCAC 02H.10030)(c). b. Row 7 of the supplement-EZ cover page indicates that the width of the vegetated setback is not applicable, however, the site plans show surface waters are located along the edge of the project. Please update to show the associated setback. c. The vegetated setbacks are to remain vegetated with grass or other vegetation. Please demonstrate that the provided campsites are not located within the vegetated setback or update the narrative to indicate that they will remain vegetated. a. We have labeled the mean high water line surveyed and added the 50-ft vegetated setback on our plans. This project will disturb approximately 10-acres of the 189.37- acre lot. The proposed driveway, bath house, and future campsites are to be built around an already cleared area where there is an existing deteriorated road and there use to be camping cabins. For those reasons and cost restrictions, only the portion of the lot that was going to be disturbed was surveyed. Wetlands are not present in the surveyed area or in the proximity of the proposed trails. An environmental soil scientist was present while field staking the trails to avoid any potential wetlands. We have added the approximate NCDENR wetlands locations and mean high water line featured on Onslow County's GIS to our plans. All GIS wetlands are outside of our limits of disturbance. We have labeled all GIS wetlands, mean high water lines, and setbacks "approx. location — form GIS". Additionally, we have added a note on the staking plan (sheets C1.1-C1.3) that clearly states "No BUA within the 50' vegetated setback. Vegetated setbacks are to remain vegetated with grass or other vegetation". The future phase (campsite & cabin construction) will stay within the surveyed area and the owner is aware that additional survey and wetland delineations are required if improvements are proposed outside this set limits. We calculated the approximate wetland area per GIS (539,255-sf) and rounded it up to nearest thousand (540,000-sf) and excluded this area from the project area per Section IV.7 & 10. b. Setback width on row 7 of the supplement form has been updated to 50-ft c. The location of the future campgrounds is an approximation. At this point in the project we do not know the exact location of the campgrounds, but we have added a note in the staking plan (sheets CM — C1.3) specifically saying that "No BUA within the 50' vegetated setback. Vegetated setbacks are to remain vegetated with grass or other vegetation" to limit future phases from encroaching in the vegetated setbacks. Additionally, the limits of disturbance of phase 1 do not encroach into the vegetated setback. Comment S. 15A NCAC 02H.1042(3)(b): The Low Density Section of the Supplement is not included in the application. Please include the Low Density Supplement Section of the Supplement-EZ form. This form can be found by clicking on the "Load Supplement Forms" within the CLH design, p.a. Construction Plan Comments January 15, 2021 Supplement-EZ Cover Page. Please make sure to use the latest version of the supplement form, which can be found on the division website. Response: We have updated the supplement form and included the Low Density Section Comment 6: 15A NCAC 02H.1042(2)0): Please include a signed copy of the most recent version of the Operation and Maintenance agreement for low density projects, which can be found on the division website. Response: Acknowledged. We have included an unsigned O&M Agreement. We will mail the signed O&M Agreement as soon as we receive them from the owner. Comment 7.• 15A NCAC 02H.7042(2)(d): On the USGS map, please identify the project area subject to the SA-HQW requirements set forth in 15A NCAC 02H.1019 of the rules. One option to depict the subject project area is to delineate a V2 mile radius from the receiving waters. Response: We nave delineated the SA-HQW requirements limits in the USGS Quad Map. Comment 8: 15A NCAC 02H .1042(2)(g)(v): The plans show that a walking trail is proposed. Please provide additional details on the plans to demonstrate if this feature has been designed per GS 743-274.7(b2) to be a permeable surface or if it has been considered part of the built - upon area. Response: Please refer to sheet C8.1 for the natural surface multi -use path detail. The path will be a simple earth path. We are not considering it in the BUA since no impervious cover is proposed. Comment 9: 15A NCAC 02H.7042(2): Please email the supplement form to the email address provided below so that it can be preserved electronically per the regulatory requirements. Response: HCKnowieagea. vve will email the forms as soUII as we have them. Comment 10: Recommendation: 15A NCAC 02H.7019(6) allows up to 12% for low density projects discharging to SA waters. Section 1V.10 of the application indicates that this project is proposing 1.61 % of built -upon area. To assist with future improvements within this project and reduce the level of effort required for modifying this permit, it is recommended that a future built -upon area allocation be added to Section IV.10 of the application to maximize the built -upon area and be included as part of this proposed project. Response: Acknowledged. Since we do not know the exact area of the wetlands precent in the site, we have decided to add only 215,450-sf of future impervious to the project. This amount brings the percent of impervious up to 4.54% and should be more than enough for foreseeable phases in the park. CLH design, p.a. Construction Plan Comments End of Responses Thank you for all of your help and please call with any questions. Sincerely, For CLH design, p.a. Bill Hamilton, PLA Project Manager January 15, 2021 CLH design, p.a. Triantafillopoulos, Ted From: Dani Lovera <dlovera@clhdesignpa.com> Sent: Wednesday, January 13, 2021 1:57 PM To: Triantafillopoulos, Ted Subject: RE: [External] RE: Request for Additional Hammocks Beach Park Mainland Development - Phase 1 SW8 200811 CAUTION: ExLernalemail. Do not cNk links or open attachments unWm you verify. Send aA suSpi�ioug email as an attachment to Report S5am. i would hope no later than the end of next week. Thank you! Dani Lovera Civil DeE.gner CLH design, p.a. Collaborative Landscape Architecture and Civil Engineering 400 Regency Forest Drive, Suite 120 Cary, NC 27518 919.319.6716, ext. 4007 Twitter I Linkedln I Facebook ; Instagram [ dhdesignpa.com From: Triantafillopoulos, Ted <ted.triantis@ncdenr.gov> Sent: Wednesday, January 13, 2021 1:32 PM To: Dani Lovera <dlovera@clhdesignpa.com> Subject: RE: [External] RE: Request for Additional Hammocks Beach Park Mainland Development -Phase 1 SW8 200811 That would be ok. Do you have a timeline when you may have them? Ted From: Dani Lovera[mailto:dlovera@cihdesi.gnpa.com] Sent: Wednesday, January 13, 2021 1:15 PM To: Triantafillopoulos, Ted <ted.triant!s@ncdenr.eov> Subject: RE: [External] RE: Request for Additional Hammocks Beach Park Mainland Development -Phase 1 SW8 200811 CAUTION: Eittii`nal errauh Do not c1 tk lirks or open attachments unless ycu vary. Send all suspicious email asan attachment to Report Spare. Hi Ted, Hcpe you had a bocd stert to the new year. We are working on the submittal right rcw, and plan on mailing you the submittal package on Friday. I have a question regarding the original forms. We're trying to coordinate picking up the originals, but it's a. little complicated with everyone working remotely. Is it ok if we submit copies on this submittal, and mail the cr iginals as soon as we have them? Thank you, Dani Lovera Civil Designer CLH design, p.a. Collaborative Landscape Architecture and Civil Engineering 400 Regency Forest Drive, Suite 120 Cary, NC 27513 919.319.6716, ext. 4007 Twitter I Unkedln I Facebook I Instagram I clhdesignpat.ccm From: Triantafillopoulos, Ted <ted.triantis@ncdenr.sov> Sent: Wednesday, January 13, 2021 12:45 PM To: Dani Lovera <dlovera@clhdesignpa.com> Subject: RE: [External] RE: Request for Additional Hammocks Beach Park Mainland Development -Phase 1 SW8 200811 Hi Dani, Any update on the submittal for the subject project? Just wanted to touch base. Thanks Ted Triantis From: Dani Lovera[mailto:dlovera@clhdesignpa.com] Sent: Friday, December 11, 2020 7:59 PM To: Triantafillopoulos, Ted <ted.triantis@ncdenr.gov> Subject: RE: [External] RE: Request for Additional Hammocks Beach Park Mainland Development -Phase 1 SW8 200811 CAUTION: Ext ma! email. Do not cock links or open attachments unless you verify. Send all suspicous email as an attachment to Repgrt Spam. Thank you! Dani Lovera Civil Designer Coliaborative Landscape Architecture and Civil Engineering 400 Regency Forest Drive, Suite 120 Cary, NC 27518 919.319.6716, ext. 4007 Twitter I Linkedin I Facebook I Instagrarr I clhdesignpa.com From: Triantafillopoulos, Ted <ted.triantis@ncdenr.gov> Sent: Friday, December 11, 2020 5:34 PM To: Dani Lovera <dlovera@clhdesienpa.com> Subject: RE: [External] RE: Request for Additional Hammocks Beach Park Mainland Development -Phase 1 SW8 200811 Based on the fact it is a holiday; I think we can allow that. We will be on the lookout for the submittal. Please let me know if I can help you further. Thanks Ted Triantis From: Dani Lovera[mailto:dlovera`mclhdesienpa.com] Sent: Friday, December 11, 2020 2:33 PM To: Triantafillopoulos, Ted <ted.triantis@ncdenr.Rov> Subject: RE: [External] RE: Request for Additional Hammocks Beach Park Mainland Development -Phase 1 SW8 200811 CAUTION: External email. Qo not dick l nlcs or open attabhments unless you verify. Send ail suspicious e=4 as an attachment to Aepart Spam. Hi Ted, Thanks for the quick responses Would it be possible to extend the extension until the second week of January? We are in a pinch to get everything together with the holidays and people taking time off. We greatiy appreciate your understanding. Thank you, Dani Lovera Civil Designer CLH design, p.a. Collaborative Landscape Architecture and Civil Engineering 400 Regency Forest Drive, Suite 120 Cary,NC 27518 919.319.6716, ext. 4007 Twitter I Linkedln I Facebook I Instagram i clh:designpa.com From: Triantafillopoulos, Ted <ted.triantis@ncdenrgov> Sent: Friday, December 11, 2020 12:20 PM To: Dani Lovera <dlovera@clhdesienpa.com> Subject: RE: [External] RE: Request for Additional Hammocks Beach Park Mainland Development -Phase 1 SW8 200811 Dani, I have spoken with my supervisor. At this particular juncture. I may be best to continue with the Phase-1 and the project as it is currently submitted. This vjay the permit can get fWshcd up, and when it is issued, the only thing that would be required for a -nnor modification would be the update in future and BUA ons *.e with the minor charges. This would just typically require a N'iro3 Modification application v.hich is free, and any updated plans and tables for the BUA updates, etc.. Feel free to reach out or email me if you have any more question. That said, we are still hoping to have the initial request for additional information addressed in a timely manner. I have set cut an extension until the 23r' of t~?is inorth. Tharks Ted Triantis From: Dani Lovera [mailto:dlovera clhdesignpa.com-] Sent: Wednesday, December 9, 2020 4:52 PM To: Triantafillopoulos, Ted <ted.triantis@ncdenr.gov> Cc: Steven J. Miller <smiller clhdesignpa.com>; Bill Hamilton <bhamilton@clhdesignpa.com> Subject: [External] RE: Request for Additional Hammocks Beach Park Mainland Development -Phase 1 SW8 200811 CAUTION: External emag Do not click links or open attachments uniess you verify. Send all suspickas emad as an attachmerit to Report Spam_ Good Afternoon Ted, Thanks again for taking the time today to talk to me. As we discussed earlier, Hammocks Beach State Park Mainland Development -Phase 1 has been momentarily put on hold. Originally we were designing the driveway loop with some parking areas and a bath house. ^IC State Parks has decided to increase the scope to include the campsites that are shown as future proposed on our plans. These campsites will be graded out and have gravel pads that will increase the impervious cover. Additionally, they are looking into ircluding 4 to 6 small camper cabins which will be approximately 230-sf to 250-sf and will require some additional parking. Would it be possible to extend the review process unti' February/March? We foresee having more direction from RC State Parks by then and a better grasp of the current design changes needed. Thank you, Dani Lovera Civil Designer CLH .411. Collcborative Landscape Architecture and Civil Engineering 400 Regency Fcrest Drive, Suite 120 Cary: NC 27518 919.319.6716, ext. 4007 Twitter I Linkedln I Facebook I Instagrarr. j clhdesi-Vpa.com From: Triantafillopoulos, Ted <ted.triantis@ncdenr.gov> Sent: Tuesday, December 8, 2020 2:24 PM To: Howerton, Jerry <lerry.howerton@ncparks.gcv> Cc: Steven J. Miller <smiller@clhdesignpa.com> Subject: RE: Request for Additional Hammocks Beach Park Mainland Development -Phase 1 SW8 200811 Hi All, I was checking to see if you ever received the request for additional information for the subject ,project? My records show a response was requested by 12/7/2020. 1 will put out an extension until 12/23 if more time is needed? Please let me know. Thanks Ted Triantis From: Triantafillopoulos, Ted Sent: Friday, November 20, 2020 8:17 AM To: Howerton, Jerry <jerry.howerton@n par;s.£� Cc: smiller@clhdesienpa.com Subject: Request for Additional Hammocks Beach Park Mainland Development -Phase 1 SW8 200811 All, Attached is a request for additional information for the subject project. If you have any question let me know. Thanks! Ted Trian- is Engineer Division of Energy, Mineral and Land Resources North Carolina Department of Environmental Quality Phone: (910) 796-7334 FAX: (910) 350-2018 Email: ted.triantis(�D_ncdenr.gov 127 Cardinal Drive Extension Wilmington, NC 28405 mia1I cOrreSpjn da .tea _tc a!% ,`.' !7 :is .1�'G','n,ss is subject' to the z Mina Pub; i^5°i:C�IG�s �.36� ui L)t !e dj/ G@ r'±Si:fJsF<<toit c siec p' ROY COOPER. ML14AEL S. REGAN 5,ecnnw BRIAN WREN►` November 20, 2020 it . NORTH CAROUNA EmkomeodQuaWy Via email only: ierry.howertonAncparks rov Division of Parks and Recreation/Dept. of Natural and Cultural Recourses Attn: Jerry Howerton- Chief of Design and Construction 1615 MSC Raleigh, NC 27699 Subject: Request for Additional Information Stormwater Project No. SW8 200811 Hammocks Beach State Park Mainland Development- Phase 1 Onslow County Dear Mr. Howerton: The Wilmington Regional Office received and accepted a State Stormwater Management Permit Application for the subject project on August 24, 2020. A preliminary in-depth review of that information has determined that the application is not complete and that additional information is needed. To continue the review, please provide the following additional information in a single, hard copy submittal package: -� 1. 15A NCAC 02H.1040(1): The provided applications appear to be copies and not original signatures. Application forms shall have original signatures. Please nrovide an application with original signatures. v-'2. 15A NCAC 02H.1040(1)(d): Section Ill. La lists the Signing Official & Title as Jerry Howerton, Chief of Design and Construction. In the case of a municipal, state, or other public entity, the signing official must be either a principal executive officer, ranking official, or other duly authorized employee. Please provide documentation from a principal executive officer, ranking official, or other duly authorized employee giving Jerry Howerton signing authority, OR please update the application with someone holding one of these titles/positions. =� 3. 15A NCAC 02H.1042(2)(iv) and .1042(g)(ii): The application and supplement lists an area of 31,810 sf of off -site Built Upon Area (BUA). Row 20 of the supplement says the off -site is "Roadway" BUA. Section IV.10 of the Basin Information table in the application shows an Off -site Drainage Area as 89,744 sf. Please provide maps showing the location of the total project area (with bearings and distances) as well as the where the offsite and onsite drainage areas and BUA are located. The total property area listed in Section IVA and 7 of the application, 191.03 acres, appears to relate to the total drainage area. If there are offsite areas located outside the property area, please exclude those from the property area reported in these sections of the application. ---aSc. The application lists the Total Property Area as 191.03 acres, however, Row 2 of the provided supplement shows the Project Area as 9.95 acres. Please ensure the information is presented consistently. -� d. The proposed walking trail appears to leave the property identified in the deed and continue across other properties. Please explain how this extra property is included in this project area and how the walking trail impacts the onsite and offsite areas included in this submittal. If the trail crosses into other property not included in this project area or owned by the applicant, please include these trails in the project area and show the easements allowing them the construct these improvements. If the improvements are located within other permitted project areas, those permits must be modified. 4. 15A NCAC 02H.1003(4), .1019(6)(b) and .1042(2)(g)(iii): a. Please provide the boundaries of all surface waters, wetlands, protected vegetated setbacks, and protected riparian buffers on the plans. If surface waters or coastal wetlands measured landward �� rom the normal high waterline are located within the property area, they must be excluded from `cam fhe project area and drainage area presented in Section IV.7 and IV.10 of the application per 15A NCAC 02H.1003(1)(c). a'4• D. ���'Nan�f�vl�i:cpar�eniofE:rva•cnrneot.alQtta ili+tisi�EaxEnc�y 4titt�-a1�id:aRtlRr>v�rzc!s �s ek 1Yilmingtsfl7Rc9imaltf6cF Si7CardnaiDrive .xtcnSacul W+hfluRgtc�n'�or+ttdrolfr+aZ�lat1 '� \i State Stormwater Permit No. SW8 200811 Page 2 of 2 ✓b. Row 7 of the supplement-EZ cover page indicates that the width of the vegetated setback is not applicable, however, the site plans show surface waters are located along the edge of the project. Please update to show the associated setback. o�L c. The vegetated setbacks are to remain vegetated with grass or other vegetation. Please demonstrate that the provided campsites are not located within the vegetated setback or update the narrative to indicate that they will remain vegetated. ✓5. 15A NCAC 02H.1042(3)(b): The Low Density Section of the Supplement is not included in the application. Please include the Low Density Supplement Section of the Supplement-EZ form. This form can be found by clicking on the "Load Supplement Forms" within the Supplement-EZ Cover Page. Please make sure to use the latest version of the supplement form, which can be found on the division website. -> 6. 15A NCAC 02H.1042(2)0): Please include a signed copy of the most recent version of the Operation and Maintenance agreement for low density projects, which can be found on the division website. i%7. 15A NCAC 02H.1042(2)(d): On the USGS map, please identify the project area subject to the SA-HQW requirements set forth in 15A NCAC 02H.1019 of the rules. One option to depict the subject project area is to delineate a'/2 mile radius from the receiving waters. ✓8. 15A NCAC 02H .1042(2)(g)(v): The plans show that a walking trail is proposed. Please provide additional details on the plans to demonstrate if this feature has been designed per GS 143-214.7(b2) to be a permeable surface or if it has been considered part of the built -upon area. 9. 15A NCAC 02H.1042(2): Please email the supplement form to the email address provided below so that it can be preserved electronically per the regulatory requirements. ✓10. Recommendation: 15A NCAC 02H.1019(6) allows up to 12% for low density projects discharging to SA waters. Section IV.10 of the application indicates that this project is proposing 1.61 % of built -upon area. To assist with future improvements within this project and reduce the level of effort required for modifying this permit, it is recommended that a future built -upon area allocation be added to Section IV.10 of the application to maximize the built -upon area and be included as part of this proposed project. Please remember to confirm that any revised information is presented consistently throughout the application documents including calculations, supplements, narrative, and plans. Please also remember to provide two hard copies of any updated documents per 15A NCAC 02H.1042(2). All of the requested information listed above should be received in this Office by December 7, 2020, or the application will be returned as incomplete. If additional time is needed to submit the requested information, please email your extension request prior to this due date to the email address provided below with a justification and a date of when the requested information will be submitted, which shall be no later than 15 days past the original due date. Please note that only two letters requesting additional information is allowed in the State Stormwater Program for a total of 30 days to submit the requested additional information. If the information is not satisfactorily provided after either the second request or 30 days, the project will be returned. If the project is returned and you wish to re -submit later, you will need to resubmit all required items at that time, including the application fee. The construction of any impervious surfaces, other than a construction entrance under an approved Sedimentation Erosion Control Plan, is a violation of NCGS 143-215.1 and is subject to enforcement action pursuant to NCGS 143-215.6A. Please reference the State assigned project number on all correspondence. If you have any questions concerning this matter, please feel free to call me at (910) 796-7215 or email me at ted.triantis@ncdenr.gov. Sincerely, Ted Triantis Engineer DES/tjt: \\\Stormwater\Permits & Projects\2020\20081.1 LD\2020 11 addinfo 200811 cc: Steven J. Miller PE; CLH Design, PA; via email: smiller@clhdesignpa.com Wilmington Regional Office Stormwater File Triantafillopoulos, Ted From: Triantafillopoulos, Ted Sent: Friday, November 20, 2020 8:17 AM To: Howerton, Jerry Cc: smiller@clhdesignpa.com Subject: Request for Additional Hammocks Beach Park Mainland Development -Phase 1 SW8 200811 Attachments: 2020 11 addinfo 200811.pdf All, Attached is a request for additional information for the subject project. If you have any question let me know. Thanks! Ted Triant9s Engineer Division of Energy, Mineral and Land Resources North Carolina Department of Environmental Quality Phone: (910) 796-7334 FAX: (910) 350-2018 Email: ted.triantisAmcdenr.gov 127 Cardinal Drive Extension Wilmington, NC 28405 L; _ale,+v_tto the =,::i 'na; .3closed to third parfles .�9 (..o — OCS :T ®a agaad; ara�ssar�TT�garaTs :Frsuy T690—d : •oN aeuaaTY TOTS-06E(758') 'O N `711rQd JVPDD 'PATS gturod aspGo ap09 '�3��d `.�€�'rlf'a�s.,rz3,s saIIIIILId �' IIaS N � a•Or?aa=raa4Y pus ""d dO ffOrsrAja 'ON arLL -*JOB paasdaad q s � x 4-00 goo (saauAO) ?s nH XJMH uVOp ap .mums ;sanH ??araaag 0 3 y4S :.rod Md 07F-d-RD .2 m 4 � � ° a E 1 4 U �' xe A O � E i II� W � x at u CA + �3 Qa ! Vo r oa �Qa �€r�sga�FFaq€raF� :Tyvur FB€O—d :*ON asuaoff n n l C� FOF9—€6S(292) �'1� `7rrrd v.rsPVD 'PATU ?rrroC[ -EWPOO H-PO9 - 2 m -0-1-ld `.�urd'an.rn,s sd�IlrLld IIaS N 44 z rro.17"N OU paw S-wv'd JO UOfSrUja '3-M OV UOJ paasdaJd c � nr Q' —60 -01swo (s rairao) 7S.rnH I••rgaH UVOf W •raaran b 78LMH 77araaeg : ro; z drqala a s»s #aid O v{i ' �L `F N 9a m� �� m:■ WW WID 0 L,z � z zzz q! ���pRREE $ id A41 $$� �_ gg 2 C� m q w . �y m Na m V I v R ti 9 N 3 WCO. gz •.,5 sf. - 6 vm Qr - E / ' 3= 0 / w 2 gg�g o U � >¢¢S u cn N N Iq � r i ir°j fil y.•gL(py� C °. V D O - r w uyid t7 s� Ao s�� � �$ u Star Te § A' ° T �o'• i� �d: aaa•�•�t�ws/ I �� g ��� � I Pd>8 8 �����•�� ... �o a-o jj �W�� _ �L � �_ �......���• CFO {{ d ' �y �• 8° ;off. 8O--i. ...T , t."iry5 Burd, Tina J From: Burd, Tina J Sent: Tuesday, September 1, 2020 8:43 AM To: Howerton, Jerry, Pate, Neai F, smilier@cihdesignpa.com Subject: SW8 200811 - Hammocks Beach State Park Mainland Development - Phase 1 The Wilmington Regional Office of the Division of Energy, Mineral and Land Resources (Stormwater Section) accepted the Stormwater Permit Application and $505.00 fee for the subject project on August 24, 2020. The project has been assigned to Ted Triantis and you will be notified if additional information is needed. Please be advised that the construction of built -upon area may not commence until the Stormwater Permit is issued. Best Regards, Tina Burd Administrative Associate II Wilmington Regional Office Division of Environmental Assistance & Customer Service Phone 910-796-7215 NCDEQ Wilmington Regional Office 127 Cardinal Drive Ext. Wilmington, NC 28405 . aEE3 t wwfl o r !spo;weii ;e ro and frurn + c, addiressci ry to Application Completeness Review Checklist (Non -Transfers) - Short Version Project Name: V- �l S A, �� � {]EAcTaT� i AEr Iv( J,„) + Z> L�rl _ .1 j yG � pate Delivered to WIRC: �U Z Project County/Location; C , s-�D�� _ BIMS Received/Accepted Date: Rule(s): 2017 Coastal 2008 Coastal �.L995 Coastal 3iMS Acknowledged Date'H: Phase itUniversal E-11988 Coastal �. Perinit Action: r 2w Ma cr i'Aod i Minor Vlod / Renewal Permit Type: :-iD.��/ LD Overall / HD &LD Combo General Permit i Offsite / Exempt / Rescission Development Type: Commercial / Residential/ Ot_h_e_r Subdivided?: `subdivision ors-12-ngie Lot Rermittee Type & Documents Needed: Prooerty Owner(s) Purchaser Lessee Viable? Viable'Viable' 171 Deed MPurchaseAgmt Lease LNot Subdivided: Deed Flubdivision: Common Area peed Paperwork New Permit #1: Existing permit #: 5L,)$ _v0�11 Expriation Date 3: E:]Offsite to SW8: F-11_ot is in Master Permit? FiPE Cert on File 1:3HOA Developer [:]Viable-? DViable? Election Minutes Application ee P$505 (within Smo) Check#(5): c7 nsupplementZ (I new form or for older forms: 1 originol per 5CM) ❑O&MZ 5oiIs Report (Infil or PP) Calculations (signed/sealed] Deed Restrrctions, if subdivided EOProject Narrative DUSGS Map (or on file?) Subject to SA?: Y N Subject to ORW? Plans (2 5ets) PE Certification Electronic Copies Easements, Recorded (2017 Rules) NOTES: IEnter BIMS Acknowledged Date on this Sheet ZFor New Projects -Enter New Permit # on Supplements & Deed Resricrion Temclates. if kVin 5 months and thew are requesting a rrod, STOP Needs a renewal r-st. EMAILED ENGINEER DATE - REVIEWER NAME: Ly Comments- r: VQ ReferenceLibra -OPT ecedures\Chechiisrs\Ccmole?eness Revie,,v C=.ec05t 2 ;2G 0131 IDN❑ Fee Y/N CLH design, p.a. 400 Regency Forest Drive, Suite 120 Cary, North Carolina 27518 P: 919.319.6716 www.clhdesignpa.com Letter of Transmittal CLH Project Number: RECEIVED AUG 2 4 2020 NCDEQ WILMINGTON RO August 21, 2020 To: Stormwater Program Company: NCDEQ Division of Energy, Mineral and Land Resources Address: 127 Cardinal Drive Extension City/State/Zip: Wilmington, NC 28405 Phone: 910-796-7215 Method: UPS Ground Subject: Hammocks Beach State Park Mainland Development - Phase 1 Prints X Originals Specifications Applications I X Reports X Copy of Letter Submittals Other: X Copies Date Description 2 08/20/20 Stormwater Management Permit Application Form (Original & Copy) 1 08/04/20 Application Fee ($505) 1 07/29/20 Stormwater Management Design Narrative (Includes narrative, maps, calculations) 2 07/29/20 Plan Set 1 05/18/20 Geotechnical Engineering Report 1 04/21/15 Deed Additional Remarks: Please accept the attached documents for review and approval of the Post -Construction Stormwater Management for the above referenced project. I trust all area satisfactory for your review. Please call or email Bill Hamilton (bhalmilton(@clhdesignpa.com) with any questions or if you need additional information. Thanks. Signed: Cc: File CLH design, p.a. r 13 Geotechnical Exploration Report Hammocks Beach State Park Swansboro, North Carolina S&ME Project No. 1305-19-108 9 E 1lCh"r- AAUU 2 4 2VO BY. _ _ May 18, 2020 CLH Design P.A. 400 Regency Forest Drive, Suite 120 Cary, North Carolina 27518 Attention: Mr. Bill Hamilton, PLA Reference: Geotechnical Exploration Report Hammocks Beach State Park Swansboro, North Carolina S&ME Project No. 1305-19-108 NC PE Firm License No. F-0176 Dear Mr. Hamilton: S&ME, Inc. (S&ME) is pleased to submit this geotechnical exploration report for the referenced project site. The work was completed in general accordance with our proposal number 13-1900378 dated August 22, 2019. This report describes our understanding of the project, results of field and laboratory testing, and our geotechnical engineering conclusions and recommendations. S&ME appreciates the opportunity to provide our services on this project. Please contact us if you have any questions regarding this report or if we may be of further assistance. Sincerely, SWE, Inc. +,+JOna101", CAn�.,�� ••+�+•+�.�N Elliot Blonshine ; 5-18-20 ' ��'•:N&gIi=y�`"ffJ••� Kevin Nadeau, P.E. Geotechnical Group Leader Nrq Np0 +. Senior Geotechnical Engineer f Senior Reviewed by J. Adam Browning, P.E. S&ME, Inc. 1 3201 Spring Forest Road I Raleigh, NC 276161 p 919.872.26601 www.smeinc.com Geotechnical Exploration Report wa' Hammocks Beach State Park Swansborc, North Carolina S&ME Project No. 1305-19-108 Table of Contents 1.0 Project and Site Information...........................................................................................1 2.0 Area Geology.....................................................................................................................1 3.0 Field Exploration...............................................................................................................2 4.0 Laboratory Testing Program...........................................................................................2 5.0 Subsurface Conditions.....................................................................................................3 5.1 Surficial Material............................................................................................................................3 52 Coastal Plain Soils..........................................................................................................................3 5.3 Groundwater...................................................................................................................................4 6.0 Conclusions and Recommendations.............................................................................4 6.1 General.............................................................................................................................................4 6.2 Earthwork .............................................. ....... ................................................................................... 4 6.2.1 General..............................................................................................................................................4 6.2.2 Initial Site Preparation......................................................................................................................4 6.2.3 Excavations.......................................................................................................................................5 6.2.4 Structural Fill...................................................................................................................................5 6.2.5 Subgrade Evaluation and Repair...................................................................................................... 6 6.3 Foundation Recommendations.....................................................................................................6 6.4 Floor Slabs.......................................................................................................................................6 6.5 Seismic Site Classification.............................................................................................................7 6.5.1 Liquefaction Triggering....................................................................................................................7 6.5.2 Seismic Site Class..............................................................................................................................8 6.6 Pavements.......................................................................................................................................8 6.6.1 Asphalt Pavement .................... 6.6.2 Concrete Pavements..........................................................................................................................9 7.0 Limitations of Geotechnicau Report............................................................................10 May 18, 2020 Geotechnical Exploration Report 13 Hammocks Beach State Park Swansborj, North Carolina S&ME Pro ect No. 1305-19-108 w� Appendices Appendix I — Figures Appendix II — Boring Logs Appendix III — Laboratory Test Results May 18, 2020 iii Geotechnical Exploration Report S Hammocks Beach State Park 13 Swansboro, North Carolina S&ME Project No. 1305-19-108 1.0 Project and Site Information This report is based on the following information: Emails from Mr. Bill Hamilton with CLH to Mr. Kevin Nadeau in August 2019 and subsequent emails in March and April 2020. Emails from Mr. Bill Hamilton with CLH to Mr. Elliot Blonshine on April 28, 2020 with updated Site Grading Plans (sheets C3.1 through C3.3) prepared by CLH Design dated April 22, 2020 and anticipated structural and traffic loading information. We understand plans have been further developed for the Mainland Development Phase 1 at Hammocks Beach State Park located outside Swansboro, North Carolina. Planned development is to include a new park entry drive to a camping area that will include a restroom/shower facility. Maximum anticipated structural loading for columns, walls and slabs are 1 kip, 1.5 kips per linear foot, and 150 pounds per square foot, respectively. Estimated traffic frequency was based on 35 campsites, with a minimum of 1 vehicle per campsite, including tandem axle RVs. Currently the park entrance drive is a dirt roadway approximately 1/2 mile in length. The south end of the access road and building area are generally cleared with lightly grassed and vegetated areas. The site is bound by wooded areas and 4-H Club Road and Hammock Beach Road to the northwest and northeast, and by Queen Creek to the south and west. Based on the grading plan provided, existing ground surface elevations range from 34 feet near Hammocks Beach Road to about 10 feet near the southern end of the project. Proposed grading will involve nominal cuts and fills on the order of about 1 to 2 feet. 2.0 Area Geology The site is located within the Coastal Plain Physiographic Province of North Carolina. The Coastal Plain is typically characterized by marine and aeolian sediments that were deposited during periods of fluctuating sea levels and moving shorelines. Near surface soils often consist of more recent undifferentiated deposits of inter -bedded sands, silts, and clays. Deeper deposits also consist of sands, silts, or clays but can be defined as formations with distinguishable characteristics and engineering properties. The geology of the area of Onslow County near the project site primarily consists of Undifferentiated Surface Deposits of Quaternary Age and recent alluvial sediments. Typically, the Undifferentiated Deposits consist of silty clays underlain by silty fine to coarse sands. These deposits are underlain by the Yorktown Formation of the Middle Tertiary Age. The Yorktown Formation consists of blue -gray fine to coarse sands with silt, clay, and shell material. The Yorktown Formation was encountered at a depth of 22 feet in the soil test borings. May 18, 2020 Geotechnical Exploration Report 13 Hammocks Beach State Park Swansborj, North Carolina S&ME Project No. 1305-19-108 10 field Exploration Boring locations were selected and established in the field by S&ME using hand-held GPS equipment and should be considered approximate. Approximate test boring locations are shown in Figure 1 in the Appendix. Borings were advanced to depths of approximately 5 to 35 feet below the existing ground surface. Borings were advanced using hollow -stem auger and mud rotary procedures with a CME-750 drill rig mounted on an all -terrain vehicle. Within borings P-1 through P-9, soils were sampled continuously to a depth of about 5 feet using a 24-inch long split -spoon sampler. Within borings B-1 and B-2, samples of subsurface soils were taken at 2.5-foot intervals above a depth of 10 feet, and at 5-foot intervals below 10 feet using an 18-inch long split -spoon sampler. Standard penetration testing was performed in conjunction with split -spoon sampling in general accordance with ASTM D 1586. Two bulk samples of near -surface auger cuttings were obtained from borings P-4 and P-8 from depths of approximately 0 to 3 feet. Test Boring Records and a Generalized Subsurface Conditions profile (Figure 2), showing specific subsurface information from each boring are included in the Appendix. Stratification lines shown on Test Boring Records and the Subsurface Profiles are intended to represent approximate depths of changes in soil types. Naturally, transitional changes in soil types are often gradual and cannot be defined at one particular depth. Ground surface elevations shown on the Test Boring Records and profile were estimated from site grading plans and should be considered approximate. �,.0 Laboratory Testing Program Split -spoon samples were returned to S&ME's laboratory for visual classification in general accordance with the Unified Soil Classification System (USCS) by a geotechnical professional. Similar soils were grouped into strata on the logs. The strata contact lines represent approximate boundaries between the soil types; the actual transition between the soil types in the field may be gradual in both the horizontal and vertical directions. The results of the classifications are presented on the individual boring logs included in Appendix II. In addition to visual classification, select split -spoon and bulk samples were submitted for further laboratory testing including natural moisture content, Atterberg limits, sieve analysis (#200 wash), standard Proctor, and California Bearing Ratio (CBR) tests. Laboratory testing was performed in general accordance with applicable ASTM standards. Discussion of test results are included in applicable subsections of this report. Individual laboratory test sheets are included in the appendix. A Summary of Laboratory Test Data is presented in the table below. More detailed information can be found on the individual laboratory test records in Appendix III. May 18, 2020 Geotechnical Exploration Report Hammocks Beach State Park Swansboro, North Carolina S&ME Project No. 1305-19-108 'fable 4-1 — Summary of Laboratory Test Results =�rr; percent Atterberg Limits Standard Proctor Boring Sample Natural Fines Organic a Max. Depth Moisture (silt 1 USCS Content Dry CBRI ID (ft) Content Liquid Plasticity Moisture Unit (` o) clay) (%) Limit Index Content (%) Weight (pcf) 'Corrected CBR value at 0.1 inches of penetration. CBR specimen was compacted to 98% of its ASTM D698 maximum dry density, near its optimum moisture content, and soaked for 96 hours. *Visual Classification 5.0 Subsurface Conditions 5.1 Surficial Material The site was lightly vegetated and grassed. Surface soils were observed at borings B-1, B-2, P-8 and P-9. Surficial soils consisted of silty sands (USCS designation SM), and poorly -graded sand (SP) with trace amounts of roots or vegetative material. Borings performed within the existing dirt road did not encounter organic surface soils or topsoil. 5.2 Coastal Plain Soils Coastal Plain soils were encountered in all borings. Coastal Plain soils encountered were generally comprised of poorly -graded sands, and silty and clayey sands (SP, SP-SM, SM and SC), high plasticity silts (MH), and low to high plasticity clays (CL and CH). SPT N-values in Coastal Plain soils ranged from weight of hammer (W.O.H.) to 13 blows per foot (bpf) indicating very soft to stiff consistencies for silts/clays and very loose to medium dense relative densities for sands. The Coastal Plain soils were visually observed to be moist to saturated. Low consistency near surface soils (N-values ranging from 2 to 8 bpf) were encountered in all borings except for P-1 within the upper 2 to 10 feet. Multiple split -spoon samples were visually observed to be wet at depths ranging from 2 to 5.5 feet. May 18, 2020 Geotechnical Exploration Report Hammocks Beach State Park ■� Swansborj, North Carolina S&ME Pro ect No. 1305-19-108 5.3 Groundwater Groundwater measurements were attempted in all borings except for B-1 and B-2 at termination of drilling. In borings P-1 through P-4, groundwater was observed at depths ranging from 3 to 5 feet below ground surface. Borings P-5 through P-9 were observed to be dry above their cave depths. Borings B-1 and B-2 were drilled using mud -rotary drilling techniques, which introduced water into the borehole during drilling. The water levels at B-1 and B-2 were estimated at 5 feet based on visual observation of the split - spoon samples. Groundwater elevations can be expected to fluctuate due to seasonal variations in rainfall, evaporation,.and other factors. Additionally, perched water conditions may exist during the typically wetter winter months above less permeable fine-grained soils. 6.0 Conclusions and Recommendations 6.1 General The exploration indicates the site is adaptable for the proposed construction. Borings performed for this exploration revealed the presence of near -surface, low -consistency soils (N-values of 2 to 8 bpf) across the site. In -place densification of near -surface soils and undercut/replacement for foundations is recommended. Groundwater levels recorded in borings ranged from about 3 to 5 feet below the ground surface. These conditions will make site development difficult, particularly if construction is scheduled to begin during typically wetter months of the year (November through April). The following presents our geotechnical recommendations regarding site grading and structural support. 6.2 Earthwork 6.2.1 General Site grading will be difficult during periods of extended rainfall that generally occur during the winter months. Near -surface soils are moisture sensitive, and when wet, will tend to rut and pump under rubber -tired traffic and provide poor subgrade support for structures and pavements. To reduce potential earthwork problems, site preparation and grading should be scheduled during the typically drier months of May through November, if possible. If winter grading is attempted, repair of near -surface soils and possible use of select off -site borrow will be necessary to adequately prepare subgrades for new construction. Heavy rubber -tired construction equipment should not be allowed to operate on exposed subgrades during wet conditions. Even during drier periods of the year, we recommend that exposed subgrades be sloped and sealed at the end of each day to promote runoff and reduce infiltration from rainfall. 6.2.2 Initial Site Preparation Initial site preparation should include stripping surface vegetation and removing soil with organic contents greater than 5 percent and any other deleterious materials. Borings performed for this exploration indicated surface soil May 18, 2020 4 Geotechnical Exploration Report Hammocks Beach State Park Swansboro, North Carolina S&ME Project No. 1305-19-108 = thicknesses of about 2 inches at borings B-1, B-2, P-8 and P-9; however, these surface soils appeared to contain less than 5 percent organic matter. We recommend that stripping be performed with light, tracked equipment to reduce disturbance of near -surface, low -consistency soils. After stripping, we recommend the existing subgrade surface be densified in place with a heavy vibratory roller prior to placement of any new fill. The exposed surface should be densified to at least 98 percent of the Standard Proctor maximum dry density (ASTM D 698) to a depth of at least 8 inches below the surface, in order to recompact the existing loose, sandy surface. Under favorable moisture conditions and with the proper equipment, this may be achievable by densifying the soil from the working surface. However, under less favorable conditions, it may be necessary for the contractor to re -work (or remove, condition, and replace) the material, using moistening or drying techniques, to achieve the desired level of compaction. The densification of these soils should be performed under the observation of an S&ME representative. After surface densification, the exposed subgrade of areas to receive fill and areas near final grades should be evaluated by an S&ME representative. This evaluation should include proofrolling with a fully -loaded tandem -axle dump truck or similar rubber -tired construction equipment. Any area that ruts or pumps should be disced, moisture conditioned to near the soil's optimum moisture content by drying or wetting, and recompacted. If water is drawn to the surface, the vibrator should be disengaged. 6.2.3 Excrczwtions Groundwater was encountered at depths of approximately 3 to 5 feet below ground surface at the time of drilling. Groundwater levels should be expected to fluctuate. Groundwater may be encountered during site work, particularly within deeper excavations such as utility trenches. The contractor should be prepared to control any water that collects in excavations and maintain water levels at least 2 feet below exposed subgrade at all times. The contractor should be responsible for determining water control measures. We recommend consideration be given to installing proposed ditches in as early as possible to help lower groundwater levels and promote drainage of near -surface soils. Excavations should be sloped or shored in accordance with OSHA (29 CFR Part 1926) excavation trench safety standards. The contractor is usually responsible for site safety. This information is provided only as a service and under no circumstances should we be assumed responsible for construction site safety. 6.2.4 Stri{ctitral Fill Structural fill material should be cohesionless, non -plastic sandy soil containing no more than 15 percent fines (material passing the No. 200 sieve) by weight and having a maximum dry density of at least 100 pounds per cubic foot (pcf) as determined by a laboratory standard Proctor moisture density relationship test (ASTM D698). The soil should contain less than 5 percent organics or other deleterious matter and have a maximum particle size of 3 inches. All fill should be placed in uniform lifts of 10 inches or less (loose measure) and compacted to at least 98 percent of the standard Proctor maximum dry density (ASTM D 698). Based upon our visual -manual soil classifications and laboratory test results, the majority of near -surface soils on this site appear to be suitable for re -use as controlled fill. May 18, 2020 Geotechnical Exploration Report Hammocks Beach State Park Swansboro, North Carolina S&ME Project No. 1305-19-108 r Fill placement should be observed by a qualified Materials Technician working under the direction of the Geotechnical Engineer. In addition to this visual evaluation, the Technician should perform a sufficient number of in -place field density tests to confirm that the required degree of compaction is being attained. At least one density test per each 5,000 square feet per lift of fill should be performed for large area fills. 6.2.5 Subgrade Evaluation and Repair The exposed subgrade of both cut and fill areas can deteriorate and lose support when exposed to construction traffic and adverse weather conditions. Deterioration can occur in the form of rutting, pumping, freezing, or erosion. We recommend that, during construction, exposed subgrade surfaces be sealed at the end of each day or when wet weather is forecast. Water should not be allowed to pond in fill or cut areas. Immediately prior to floor slab construction, exposed subgrade soils should be evaluated by proofrolling to determine their stability. Soils which rut, pump, or deflect under proofrolling should be repaired prior to ABC stone placement. Repair measures may include scarifying/drying/recompacting, undercutting, or some combination of these. Actual repair measures will be influenced by project schedule and weather conditions and can only be determined in the field. 6.3 Foundation Recommendations Borings B-1 and B-2 performed for the planned shower/bathroom structure indicate the presence of very loose and soft soils at the anticipated foundation bearing elevation. These soils are not suitable for direct foundation support. We recommend that existing soils be overexcavated at least three feet below planned foundation bearing elevation and widened a minimum of 12 inches on all sides. Overexcavated material should be backfilled with a washed stone (no. 57 or no. 67) wrapped in a woven geotextile (Mirafi HP270 or equivalent). Foundations should then be formed and poured to their planned dimensions. Repair measures should be observed by a representative of S&ME. The contractor should be prepared to control any water that collects in excavations and maintain water levels at least 2 feet below exposed subgrade at all times. This may require the use of temporary sump pits. Provided the recommendations above are implemented, building foundations can be supported on shallow spread footings designed for a net allowable bearing pressure of 1,500 pounds per square foot (psf). Based on the test borings and our empirical settlement analyses, the total and differential post construction settlement potentials for the building should be less than 1 inch and 1/2 inch, respectively. Minimum wall and column footing dimensions of 18 and 24 inches, respectively, should be maintained. Foundations should be designed to bear at least 18 inches below finished grade for frost protection and protective embedment. 6.4 Floor Slabs A modulus of subgrade reaction (k) of 150 psi/in (pci) is recommended for use in reinforcing design of thin, soil - supported grade slabs. This is estimated using the anticipated subgrade soil type, recommended compaction, and correlation with 30-inch plate load test values. If large loaded areas are anticipated, we should be provided with that information to review this recommended value. May 18, 2020 Geotechnical Exploration Report Hammocks Beach State Park Swansboro, North Carolina S&ME Project No. 1305-19-108 = We recommend placement of a layer of at least 4 inches of compacted granular materials below the reinforced slabs. The granular layer may consist of clean sand having a USCS Classification of SP or SW according to ASTM D 2487, with less than 5 percent by weight passing the No.. 200 sieve as measured by ASTM D 1140. Alternatively, the granular layer may consist of a crushed, well -graded gravel blend such as NCDOT Aggregate Base Course (ABC), or an open -graded, manufactured, washed gravel such as NCDOT No. 57 or No. 67 stone. If sand or washed gravel is used as the underslab layer, then the contractor should plan on using a pump truck to place the floor slab concrete since these materials are cohesionless and are difficult to drive vehicles on. If ABC is used, then either a pump truck or direct discharge from concrete batch trucks may be appropriate depending upon the circumstances. If either ABC or sand is used, the underslab layer should be compacted to at least 98 percent of the modified Proctor maximum dry density (ASTM D 1557), and tested for density by a representative of S&ME. Have the geotechnical engineer observe a proofroll of all slab subgrades (where accessible) prior to reinforcing wire, vapor barrier, or concrete placement. Softened soils may need to be undercut or stabilized before slab construction. Evaluating the need for and design of a vapor retarder or vapor barrier for moisture control is outside our scope of services and should be determined by the project architect/structural engineer based on the planned floor coverings and the corresponding design constraints, as outlined in ACI 302.1 R-04 Guide for Concrete Floor and Slab Construction. Further, health and environmental considerations with respect to any potentially harmful vapor transmission are also outside of our scope. 6.5 Seismic Site Classification The following seismic evaluation was based on boring B-2, which extended to approximately 35 feet below ground surface, and supplemental data from 35 to 50 feet from a nearby subsurface exploration performed by S&ME in 2003. 6.5.1 Liquefaction Triggering We performed a seismic liquefaction triggering evaluation using the methods presented by Youd et. al. (2001) and Boulanger and Idriss (2014) based on the design earthquake (M=7.3). The design earthquake has a 2 percent probability of exceedance in a 50-year period. This is equivalent to an earthquake that has the likelihood of occurring once every 2,475 years. To help evaluate the consequences of liquefaction, the Liquefaction Potential Index (LPI) was computed. The LPI is an empirical tool used to evaluate the site liquefaction hazard and the potential for liquefaction -induced damages. The LPI considers the factor of safety against liquefaction, the depth to the liquefiable soils, and the thickness of the liquefiable soils to compute an index that ranges from 0 to 100. An LPI of 0 means there is no risk of liquefaction; an LPI of 100 means the entire profile is expected to liquefy. The level of risk is generally defined as: Iwasaki et al. 1982, Toprak & Holzer (2003). May 18, 2020 Geotechnical Exploration Report 13 Hammocks Beach State Park Swansborj, North Carolina S&ME Project No. 1305-19-108 • LPI < 5 - surface manifestation and liquefaction -induced damage not expected. 5 <- LPI <- 15 - moderate liquefaction with some surface manifestation possible. LPI > 15 - severe liquefaction and foundation damage is likely. Based on the results of our analyses, we conclude that the site has potential for severe liquefaction for the design earthquake under the 2018 NCBC. We predict the occurrence of about 8 to 14 inches of free -field liquefaction induced ground surface settlement. LPI calculated at our test locations is about 40; therefore, liquefaction - induced damage is expected during the design seismic event. Mitigation techniques for liquefaction potential include stone columns, compacted aggregate piers, or earthquake drains. If the risk of liquefaction is considered unacceptable, we recommend providing this geotechnical report to a design -build contractor that is experienced in liquefaction potential mitigation. The design -building contractor can provide a liquefaction mitigation design to reduce liquefaction potential beneath the proposed building. 6.5.2 Seismic Site Class Section 1613.3.2 of the IBC 2015, as referenced by the 2018 North Carolina Building Code, classifies sites with the potential for liquefaction as Seismic Site Class F. However, the IBC 2015 allows the design spectral response accelerations for a site to be determined without regard to liquefaction provided buildings have a fundamental period of less than or equal to 0.5 seconds and the risks of liquefaction are considered in design. The proposed building should meet these criteria; however, this must be confirmed by the Structural Engineer. Provided the above criteria are met, design accelerations may be calculated on the basis of a Site Class E assumption. 6.6 Pavements Traffic usage assumptions were based on 50 to 100 passenger vehicles per day, 5-10 RVs per day (including a single and tandem axle), three garbage trucks per week, and one fire truck per month. The estimated total traffic load over the 20-year design life is approximately 15,000 18-kip equivalent single axle loads (ESALs). 6.6.1 Asphalt Pavement Based on the laboratory testing and our experience, a design CBR value of 10 percent was used for pavement design. This CBR value is based on the top 12 inches of subgrade soils being uniformly compacted to at least 98% of the soil's standard Proctor MDD. The table below includes the provided pavement sections for proposed new pavements: Table 6-1- Asphalt Pavement Recommendations Thickness Material Type (inches) Asphalt Surface Course (S-9.513) 2 inches Aggregate Base Course 6 inches May 18, 2020 Geotechnical Exploration Report Hammocks Beach State Park Swansboro, North Carolina S&ME Project No. 1305-19-108 Materials and construction methods should conform to the 2018 edition of the NCDOT "Standard Specifications for Roads and Structures." The aggregate base course (ABC) stone should consist of stone meeting the requirements under Section 520. ABC stone should be compacted to at least 98 percent of the maximum dry density as determined by the modified Proctor compaction test, AASHTO T-180M as modified by NCDOT. To confirm that the base course stone has been uniformly compacted, in -place density tests should be performed by a qualified soils technician and the area should be thoroughly proofrolled under his observation. Asphaltic concrete should conform to Section 610 in the 2018 edition of the NCDOT "Standard Specifications for Roads and Structures." Sufficient testing and observation should be performed during pavement construction to confirm that the required thickness, density, and quality requirements of the specifications are achieved. Although our analysis was based on traffic loading for a 20-year design life, our experience indicates that pavement maintenance is necessary due to normal weathering of the asphaltic concrete. Normal weathering (i.e., oxidation) causes asphalt to become more brittle resulting in loss of tensional strength. This loss in strength can cause minor cracking which provides access for water infiltration -into the stone base and subgrade. As the degree of saturation of the subgrade increases, the strength of the subgrade decreases leading to pavement failure. Routine maintenance in the form of sealing, patching, and maintaining proper drainage is required to increase pavement life. It is not uncommon for overlays to be required after 10 to 12 years. 6.6.2 Concrete Pazvements The concrete pavement design was performed using the same design traffic as the asphalt pavement areas (15,000 ESALs). The compressive strength of the concrete was assumed to be 4,000 psi. A modulus of subgrade reaction of 150 pci was used for design assuming 6 inches of compacted ABC stone. We have assumed that load transfer across contraction (saw) joints will be handled by aggregate interlock. Aggregate base course should meet the material and compaction requirements stated in the "Flexible (Asphalt) Pavement" section above. Concrete pavement is recommended for heavily loaded traffic and dumpster pad areas. The table below presents our recommended concrete pavement section thicknesses. Table 6-2 — Concrete Pavement Section Air Entrained Concrete (4000 psi) 5 inches_ Aggregate Base Course (ABC) stone 6 inches Maximum Joint Spacinq 12 feet in all directions Saw joints should be cut to a depth of at least 1/4 of the thickness of the concrete pavement to promote shrinkage cracking along thejoint. The ABC stone should be compacted to at least 98 percent of its modified Proctor maximum dry density. May 18, 2020 9 Geotechnical Exploration Report r F7 Hammocks Beach State Park Swansborj, North Carolina S&ME Pro ect No. 1305-19-108 7.0 Limitations of Geotechnicall Report This report has been prepared in accordance with generally accepted geotechnical engineering practice for specific application to this project. The conclusions and recommendations contained in this report are based upon applicable standards of our practice in this geographic area at the time this report was prepared. No other representation or warranty either express or implied, is made. We relied on project information given to us to develop our conclusions and recommendations. If project information described in this report is not accurate, or if it changes during project development, we should be notified of the changes so that we can modify our recommendations based on this additional information if necessary. Our conclusions and recommendations are based on data from a field exploration program. Subsurface conditions can vary widely outside the explored area. Some variations may not become evident until construction. If conditions are encountered which appear different than those described in our report, we should be notified. This report should not be construed to represent subsurface conditions for the entire site. Unless specifically noted otherwise, our field exploration program did not include an assessment of regulatory compliance, environmental conditions or pollutants. If there is a concern about these items, other studies should be performed. S&ME can provide a proposal and perform these services if requested. S&ME should be provided the opportunity to review the final plans and specifications to confirm that our recommendations are properly interpreted and implemented. The recommendations in this report are contingent on S&ME's review of final plans and specifications followed by observation and monitoring during construction activities. May 18, 2020 10 Appendices Appendix I - Figures op, ► 4*—F LEGEND Soil Test Borings WAIF � J A REA 2 4—. MIA -A NOTE: STAKING PLAN PROVIDED BY CLH AND DATED JANUARY 9, 2020 WAS MODIFIED BY sma'am S&ME. DRAWING IS FOR GENERAL INFORMATION ONLY AND SHOULD NOT BE USED FOR THE MEASUREMENT OR V ESTIMATION OF QUANTITIES OR DISTANCES. BORING LOCATION PLAN SCALE: NTS FIGURE NO. DATE: HAMMOCKS BEACH STATE PARK 5/18/2020 HAMMOCK BEACH ROAD PROJECT NUMBER SWANSBORO, NORTH CAROLINA 1305-19-108 O V1 O Lo O l7 N f7 N O w o in N Z V N Of O a � m UI 2 Z WO M a Ln F m UI 2 Z N V' f0 N N n Cy m �I S Z co 0 u) r- m b Cl) F m �I Z co Cl) in a a m UI O in O 10 O O m O L? O N IT co m N N (ISW:P%) NOLLVA3l3 E .1 P- CL m lQ m w c O :6 0 0 U m a w U Z m NY7 O O N E S C7 t�1 m E 2 O ❑ C m to l0 CI C 0 LL O Of A •� t V7 O O T % a0i M Ol 6/ Q W N Je 5) Me CL m a, 3 0 GI CD o c 0 d) W N U1 O O C IL r R 55 o II Z LLI z O � I Appendix II - Boring Logs SOIL CLASSIFICATION CHART C R—^l C A= I ICCn TA IAlnlf`ATC l2ni2 1=01 IIJF lWill f`I ARRIFIRATIMR SYMBOLS TYPICAL MAJOR DIVISIONS DESCRIPTIONS GRAPH LETTER CLEAN WELL -GRADED GRAVELS, GRAVEL - GRAVEL GRAVELS �: GW MIXTURES, LITTLE OR NO FSAND INES AND GRAVELLY oa Qo POORLY -GRADED GRAVELS, SOILS (LITTLE OR NO FINES) o DOo GP GRAVEL - SAND MIXTURES, LITTLE Q Q oQ C) OR NO FINES COARSE , '' �~ k�a SAND GRAINED GRAVELS WITH ✓"'- n GM SILTY GRAVELS, GRAVEL - - SOILS MORE THAN 50% FINES `� `' SILT MIXTURES OF COARSE q^ FRACTION RETAINED ON NO. 4 SIEVE (APPRECIABLE GC CLAYEY GRAVELS, GRAVEL - SAND - AMOUNT OF FINES) CLAY MIXTURES SAND CLEAN SANDS SW WELL -GRADED SANDS, GRAVELLY SANDS, LITTLE OR NO FINES MORE THAN 50% OF MATERIAL IS AND POORLY -GRADED SANDS, LARGER THAN SANDY N0.200 SIEVE SIZE SOILS (LITTLE OR NO FINES) . •' Sp GRAVELLY SAND, LITTLE OR NO FINES SANDS WITH SM SILTY SANDS, SAND - SILT MORE THAN 50% FINES MIXTURES l OF COARSE FRACTION PASSING ON NO. 4 SIEVE (APPRECIABLE sc CLAYEY SANDS, SAND - CLAY AMOUNT OF FINES) MIXTURES INORGANIC SILTS AND VERY FINE ML SANDS, ROCK FLOUR, SILTY OR CLAYEY FINE SANDS OR CLAYEY SILTS WITH SLIGHT PLASTICITY SILTS INORGANIC CLAYS OF LOW TO FINE LIQUID LIMIT AND CL MEDIUM PLASTICITY, GRAVELLY LESS THAN 50 CLAYS, SANDY CLAYS, SILTY GRAINED CLAYS I CLAYS, LEAN CLAYS SOILS — — — OL ORGANIC SILTS AND ORGANIC SILTY CLAYS OF LOW PLASTICITY MORE THAN 50% INORGANIC SILTS, MICACEOUS OR OF MATERIAL IS MH DIATOMACEOUS FINE SAND OR SMALLER THAN SILTY SOILS NO.200 SIEVE CH INORGANIC CLAYS OF HIGH SIZE SILTS LIQUID LIMIT AND GREATER THAN 50 PLASTICITY CLAYS OH ORGANIC CLAYS OF MEDIUM TO I HIGH PLASTICITY, ORGANIC SILTS HIGHLY ORGANIC SOILS PT PEAT, HUMUS, SWAMP SOILS WITH HIGH ORGANIC CONTENTS PROJECT: Hammocks Beach State Park Swansboro, NC BORING LOG B-1 S&MIE Project No.1305-19-108 DATE DRILLED: 4114120 ELEVATION: 17.0 ft NOTES: Boring locations and elevations are approximate. DRILL RIG: CME 750 BORING DEPTH: 30.0 ft DRILLER: T. Williams WATER LEVEL: Estimated at 5 feet HAMMER TYPE: Automatic LOGGED BY: M. Hartman .SAMPLING METHOD: Split spoon DRILLING METHOD: Mud Rotary _ _ > 0 a w z n- BLOW COUNT II CORE DATA STANDARD PENETRATION TEST DATA w .. a. W 0 o MATERIAL DESCRIPTION J ac F ¢ W a W Z c7 0 � 6 — lows/ft @ I J Q o � v �g /REMARKS > Z W ¢- 10 20 30 6080 Surface Soils (2 inches) - brown silty sand with r few scattered roots and vegetative material, moist 3 3 3 S5-1 6 COASTAL PLAIN: SLTY SAND (SM) loose, brown, fine, moist 5 12.0_2 2 1 2 3 SANDY CLAY (CL) .f ,+ soft, brown, wet SAND (SP-SM) )•' ' SS--3 3 3 2 5 loose, brown, fine, wet, with silt SANDY CLAY (CL) 10 very soft, brown and gray, wet SS-4 VVOH off : WOH 0 SAND (SP-SM) } loose, gray and brown, fine, wet, with sift 15 } 2.0 SS-5 3 6 1 SAND (SPI very loose, brown, fine to coarse, wet, trace shell 20 fragments SS 1 0 3 3 3 0 SANDY CLAY (CL) soft, blueish gray, wet, trace shell fragments 25 �.0 SS 3 1 2 3 ELASTIC SILT (MH) firm, gray, wet 30 -13.0 SS-8 3 3 3 6 Boring terminated at 30 ft NOTES 1. THIS LOG /S ONLYA PORTIOI:' OFA REPORT PREPARED FOR THE NAMED PRO ACT AND _ UST ONLY9F USED TOGtTHER W17H THAT 4EPCRT. Z BOR8 r SAMPLINGAND PENETRATION TEST DATA IN GENERAL ACCORDANCE VWTOf Hord D-1586. 3. STRATIRCATION AND GROUNDWATER DEPTHS ARE NOT EXACT. 4 WATER LEVEL ISATTMrEOFDXPLORATMANDMLVARY. Page 1 of 1 PROJECT: Hammocks Beach State Park Swansboro, NC BORING LOG B-2 S&ME Project No.1305-19-108 NOTES: Boring locations and elevations are DATE DRILLED: 4114120 ELEVATION: 15.0 ft approximate. DRILL RIG: CME 750 BORING DEPTH: 35.0 ft DRILLER: T. Williams WATER LEVEL: Estimated at 5 feet HAMMER TYPE: Automatic LOGGED BY: M. Hartman SAMPLING METHOD: Split spoon DRILLING METHOD: Mud Rotary w BLOW COUNT U zO : Z a / CORE DATA STANDARD PENETRATION TEST DATA w w a o MATERIAL DESCRIPTION H CO I w r Uj a z � o � (blows/ft) > w> -j Uj !REMARKS W y g E 10 20 30 6080 Z Surface Soils (2 inches) - brown silly sand with few scattered roots and vegetative material, moist 1 1 1 SS-1 2 COASTAL PLAIN: SLTY SAND (SM) very loose, brown, fine, moist 5 10.0 SS-2 0 1 CLAYEY SAND (SC) very loose, brown, fine, wet SAND ISP) SS-3 1 2 2 y very loose, tan, fine; wet SS-4 2 0 1 10 5.0 i - - - Wet, loose, brown and orange at 13.5 feet SS-5 3 4 2 6 s 15 0.0 i SAND (SP-SM) loose, brown, fine, wet, with silt i' SS-6 1 2 3 5 20 ' -5.0 FAT CLAY (CH) very soft, blueish gray, wet, trace shell fragments - 25 -10.0 SS7 2 1 1 2 n 3 t 9 C r - - - Wet, firm, sandy, no shells, at 28.5 feet SS-8 6 3 4 T z 30 -15.0 D J Z Y n - - - Wet, stiff at 33.5 feet SS_g 5 4 7 11 ji 35 -20.0 1 n Boring terminated at 35 ft NOTES: 1. THIS LOG IS ONLYA PORTION OFA REPORT PREPARED FOR THE NAMED PROJECT AND MUST ONLYBE USED TOGETHER WITH THAT REPORT. 2 M A, SAMPLING AND PENETRATION TEST DATA IN GENERAL ACCORDANCE -1586. 3. STRATIFICATION AND GROUNDWATER DEPTHS ARE NOT EXACT. 4 WATER LEVEL IS AT TIME OF EXPLORATION AND W&L VARY. Page 1 of 1 III PROJECT: Hammocks Beach State Park Swansboro, NC BORING LOG P_1 S&ME Project No.1305-19-108 DATE DRILLED: 4114120 ELEVATION: 31.0 ft NOTES: Boring locations and elevations are approximate. DRILL RIG: CME 750 BORING DEPTH: 5.0 ft DRILLER: T. Williams WATER LEVEL: X ATD HAMMER TYPE: Automatic LOGGED BY: M. He SAMPLING METHOD: Split spoon DRILLING METHOD: 3%" H.S.A. = U j 0 w Z d BLOW COUNT / CORE DATA STANDARD PENETRATION TEST DATA w w v a MATERIAL DESCRIPTION co ¢ > w aCL z (blows/ft) C9 ~ J w v Q�L ip toL /REMARKS > 10 20 30 6080 COASTAL PLAIN: SILTY SAND (SM) medium dense, tan and brown, fine, moist SS-1 3 5 7 12 SAND (SPSM) }' loose, tan and brown, fine, moist, with silt . r. SS-2 5 5 5 10 . SAND SP loose, tan, fine, saturated SSA 3 5 ::A 5 26.0 Boring terminated at 5 ft BU I CJ: 1. THIS LOG IS ONLYA P�7T10N QFA REPC PREPARED FQR 7F [ NAACm ?age 1 Of 1 FRO.AECT AND MUST ONLY@E USED TOGETHER WITH THAT S 80RaIG SAMPLINGAND PENETRATION TEST DATA IN GENERAL ACCORDANCE {M./FiA�TM D-106. 3. STRATIFICATION AND OROUNDWATER DEPTHS ARE NOT E7rACT. -. WATER LEVEL MAT TWEOFSMEORA7IDNAND*XL VARY PROJECT: Hammocks Beach State Park Swansboro, NC BORING LOG P-2 SBME Project No.1305-19408 NOTES: Boring locations and elevations are DATE DRILLED: 4114120 ELEVATION: 29.0 ft approximate. DRILL RIG: CME 750 BORING DEPTH: 6.0 ft DRILLER: T. Williams WATER LEVEL: 3.5' ATD HAMMER TYPE: Automatic LOGGED BY: M. Hartman SAMPLING METHOD: Split spoon DRILLING METHOD: 3'/4" H.S.A. � w BLOW COUNT U j 0O Z y ICORE DATA STANDARD PENETRATION TEST DATA w 0. d a. °oo MATERIAL DESCRIPTION w w a o °` 9 (blows/ft) a IREMARKS J w w v Q Z co g E 10 20 30 6080 2 COASTAL PLAIN: SILTY SAND (SM) very loose, brown, fine, moist, trace to little roots SS-1 1 1 1 2 SANDY CLAY (CL) very soft, gray and brown, wet SS-2 2 1 1 2 Q HC CLAYEY SAND (SC) M24.0 loose, gray, fine, wet SS-3 3 6 5 Boring terminated at 5 ft d 1 1 S 0 e 7 3 i 7 e z D z 9 J L Y J a L F d a NOTES: 1. THIS LOG IS ONLYA PORTION OFA REPORT PREPARED FOR THE NAMED Page 1 of 1 PROJECT AND MUST ONLY BE USED TOGETHER WITH THAT REPORT. 2. BORINCa� SAMPLMGAND PENETRATION TESTDATA IN GENERAL ACCORDANCE WITH A TM D-1S86. a STRATIRCA7rON AND GROUNDWATER DEPTHS ARE NOT EXACT. 4 WATER LEVEL IS AT TIME OF EXPLORATION AND WILL VARY. PROJECT: Hammocks Beach State Park Swansboro, NC BORING LOG P-3 S&ME Project No.1305-18-108 DATE DRILLED: 411420 ELEVATION: 30.0 ft NOTES: Boring locations and elevations are approximate. DRILL RIG: CME 750 BORING DEPTH: 5.0 ft DRILLER: T. Williams WATER LEVEL: 4.5' ATD HAMMER TYPE: Automatic _ LOGGED BY: M. Hartman SAMPLING METHOD: Split spoon DRILLING METHOD: 3Y:' H.S.A. = c� w o z w BLOW COUNT a- liCORE DATA STANDARD PENETRATION TEST DATA r W a. c7 a o MATERIAL DESCRIPTION o a w a z o -j� W CF (blows/ft) j a o F w 1REMARK5 i ¢� vs 10 20 30 6080 COASTAL PLAIN: SLTY SAND (SM) 1 �•) very loose, brown and gray, fine, wet : �' SS-1 3 2 2 4 SAND (SP) medium dense, tan, fine, wet SS-2 3 6 7 13 Q 3 2 7 25.0- Boring terminated at 5 ft I myIca; 1. TM LOGIS ONLYA PORTION OFA REPORT PREPARED FOR THE NAMED Page i Of 1 PRO.ECT AND MUST ONLY BE USED TOGETHER KIT14 THATREPORT. 2. 90R8A, SAMPLING AND PENETRATION TEST DATA IN GENERAL ACCORDANCE YNI'ri A'TM D-1588. 3. STRATWICA7ION AND GROUNDWATER DEPTHS ARE NOT EXACT. 4 WA7ER LEVEL N AT ME OP EXPLORATIOUAND IMLL VARY. PROJECT: Hammocks Beach State Park Swansboro, NC BORING LOG P-4 SB;ME Project No. 130549-108 NOTES: Boring locations and elevations are DATE DRILLED: 4114120 ELEVATION: 34.0 ft approximate. DRILL RIG: CME 750 BORING DEPTH: 5.0 ft DRILLER: T. Williams WATER LEVEL: 3.5' ATD HAMMER TYPE: Automatic LOGGED BY: M. Hartman SAMPLING METHOD: Grab Sample, Split spoon DRILLING METHOD: 3'/4" H.S.A. w w BLOW COUNT v � ZO z cL / CORE DATA STANDARD PENETRATION TEST DATA w a a o MATERIAL DESCRIPTION ¢ w 0 {blowsm} w w w a !REMARKS > w m N m 10 20 30 6080 COASTAL PLAIN: SILTY SAND (SAID loose, brown tan, fine, moist SS-1 2 3 5 s BULK-1 ..I - -- Saturated, grayish brown at 2 feet SS-2 3 3 3 6 Q HC CLAYEY SAND (SC) very loose, dark brown, fine, wet SS-3 2 5 29.0 Boring terminated at 5 ft J J S ] 7 J C cC C iD J i 7 E r z z z Y J n 11 E n NOTES: 1. THIS LOG IS ONLYA PORTION OFA REPORT PREPARED FOR THE NAMED Page 1 of 1 PROJECT AND MUST ONLY BE USED TOGETHER WITH THAT REPORT. 2 BORING. SAMPLING AND PENETRATION TEST DATA IN GENERAL ACCORDANCE WITH A TM D-1506. * STRATIFICATION AND GROUNDWATER DEPTHS ARE NOT EXACT. * WATER LEVEL IS AT TIME OF EXPLORATION AND WILL VARY. PROJECT: Hammocks Beach State Park Swansboro, NC BORING LOG P-6 S&ME Project No.1305-19-108 DATE DRILLED: 4114120 ELEVATION: 36.0 ft NOTES: Boring locations and elevations are approximate. DRILL RIG: CME 750 BORING DEPTH: 6.0 ft DRILLER: T. Williams WATER LEVEL: Dry HAMMER TYPE: Automatic LOGGED BY: M. Hartman SAMPLING METHOD: Split soon DRILLING METHOD: 3Y." H.S.A. J w W Z O O wa Z F BLOW COUNT /CORE DATA STANDARD PENETRATION TEST DATA w W " o o MATERIAL DESCRIPTION W ¢ J J U v (blows/ft) e F a� /REMARKS > Z 10 20 30 6080 COASTAL PLAIN: ISM) very loose, brown, fine, moist �I. 1 2 2 I :� 5S1 4 - - - Gray at 2 feet SS-2 2 2 1 3 HC - - - Brown, loose at 4 feet SS-3 4 5 5 31.0 Boring terminated at 5 ft I I sw L ca. 'I. NOR IS OFlLYA PORTION OFA REPORT PREPARED FOR THENAMEe Page 1 of 1 PROJECT AND MUST ONLYBE USED TO_aE7F/ER WITH THAT REoD.4T. 2. BORING SAMPLING AND PENETRATION TEST DATA IN GENERAL ACCORDANCE 'rV/!H A�TU D-1586. 3. STRATIRCATION AND GROUNDWATER DEPTHS ARE NOT EXACT. 4 WATER LEVEL IS AT T ENOF EXPLORAT ION AND WILL VARY. PROJECT: Hammocks Beach State Park Swansboro, NC BORING LOG P-6 SBME Project No. 130549-108 NOTES: Boring locations and elevations are DATE DRILLED: 4/74/20 ELEVATION: 211.0 ft approximate. DRILL RIG: CME 750 BORING DEPTH: 5.0 ft DRILLER: T. Williams WATER LEVEL: Dry HAMMER TYPE: Automatic LOGGED BY: M. Hartman SAMPLING METHOD: Split spoon DRILLING METHOD: 3'/4" H.S.A. w wa BLOW COUNT v W z O z r !CORE DATA STANDARD PENETRATION TEST DATA w CL IL o MATERIAL DESCRIPTION w a W r J -1�� Z U w a (blom/fl) a wo J /REMARKS z z W y 42 N E 10 20 30 6080 COASTAL PLAIN: SAND (SP) loose, brown, fine, moist SS-1 2 3 3 6 SILTY SAND (SM) loose, brown, fine, wet SS-2 2 2 4 6 1:• HC SAND SP medium dense, brown, fine, wet SS-3 8 4 5 23.0 J Boring terminated at 5 ft f i b L C L 0 2 s C 7 n i 3 z_ E Y z Z J z J z Z X D m w NOTES: 1. THIS LOG IS ONLYA PORTION OFA REPORT PREPARED FOR THE NAMED PROJECT AND MUST ONLYBE USED TOGETHER WITH THAT REPORT. I BORING. SAMPLING AND PENETRATION TEST DATA IN GENERAL ACCORDANCE WITH A TM D-fW& 3. STRATIFICATION AND GROUNDWATER DEPTHS ARE NOT EXACT. A WATER LEVEL IS AT TWEOF EXPLORATION AND WILL VARY. Page 9 of 1 III PROJECT: Hammocks Beach State Park Swansboro, NC BORING LOG P_7 SB:ME Project No. 13054 9-108 DATE DRILLED: 4114120 ELEVATION: 21.0 ft NOTES: Boring locations and elevations are approximate. DRILL RIG: CME 750 BORING DEPTH: 5.0 ft DRILLER: T. Williams WATER LEVEL: Dry HAMMER TYPE: Automatic _ LOGGED BY: M. Hartman SAMPLING METHOD: Split spoon DRILLING METHOD: 3'/4" H.S.A. = c> CL w > C) w BLOW z a- I COUNT CORE DATA STANDARD PENETRATION TEST DATA w W v cU o MATERIAL DESCRIPTION 2 a w a z c n� blows/ft I I D a o F g /REMARKS z w ¢� v3 10 20 30 6080 COASTAL PLAIN: SAND (SPI loose, light gray, fine, moist SS-1 1 3 3 s - - - Wet, brown, very loose at 2 feet SS-2 2 1 2 3 HI L SAND (SPSM) } loose, brown, fine, saturated, with sift 3 .1 3 5 Boring terminated at 5 fl nor r ca: 1. THIS LOG IS ONLYA PORTION OFA REPORT PREPARED FOR THE NAMED Page 1 Of 1 PROJECT AND MUST ONLYSE USED TOGETHER. WITH THAT REPORT. Z BORW SAMPLpYGANDPENETRATIONTEST DATA INGENERAL ACCORDANCE WflriA TMD•15M 3. STM71FICATION AND GROUNDWATER DEPTHS ARE NOT EXACT. 4 WATER LEVEL IS AT 7WE OF E)fPLORATHON AND WILL VARY. PROJECT: Hammocks Beach State Park Swansboro, NC BORING LOG P-8 SBME Project No. 1305-19408 NOTES: Boring locations and elevations are DATE DRILLED: 411M20 ELEVATION: 12.0 ft approximate. DRILL RIG: CME 750 BORING DEPTH: 5.0 ft DRILLER: T. Williams WATER LEVEL: Dry HAMMER TYPE: Automatic LOGGED BY: M. Hartman SAMPLING METHOD: Split spoon DRILLING METHOD: 31/4" H.S.A. w BLOW COUNT U > 0 °z EL / CORE DATA STANDARD PENETRATION TEST DATA w _ a d 2 a o MATERIAL DESCRIPTION 'L J W ~ a W Z U ❑ (blows/ft) w ❑ w > d W' a a— ¢ — /REMARKS > z Q ?n Q y g 10 2030. 60B0 loll Surface Soils (2 inches) - tan silty sand with few scattered roots and vegetative material, moist SS-1 2 2 3 5 COASTAL PLAIN: SILTY SAND (SND loose, tan, fine, moist SANDY CLAY ICL) soft, brown, wet SS-2 2 2 1 3 HC CLAYEY SAND (SC) very loose, brown, fine, wet SS-3 1 2 5 7.0 Boring terminated at 5 ft J i b 7 L L 0 z 8 7 n 2 t Y 7 z z J Z Y 9 W N NOTES: 1. THIS LOG IS ONLYA POR77ON OFA REPORT PREPARED FOR THENAMED Page 1 of 1 PROJECT AND MUST ONLYBE USED TOGETHER WITH THAT REPORT. 2 BORING SAMPLINGANDPENETRATIONTESTDATAINGENERAL ACCORDANCE WITH AS�TM D-1586. 9. STRATIFICATION AND GROUNDWATER DEPTHS ARE NOT EXACT. 4. WATER LEVEL IS AT TIME OF EXPLORATION AND 1WLL VARY. PROJECT: Hammocks Beach State Park Swainsboro, NC BORING LOG P-g SS•.ME Project No. 130549408 DATE DRILLED: 4114120 ELEVATION: 12.0 ft NOTES: Boring locations and elevations are approximate. DRILL RIG: CME 750 BORING DEPTH: 5.0 ft DRILLER: T. Williams WATER LEVEL: Dry HAMMER TYPE: Automatic LOGGED BY: M. Hartman SAMPLING METHOD: Split spoon DRILLING METHOD: 3Y." H.S.A. = c� w W z O wn. BLOW z } COUNT SCORE DATA STANDARD PENETRATION TEST DATA w w J MATERIAL DESCRIPTION z¢ a UJ M� (d01 I G 9 LU IL s s /REMARKS > z w m ?n E 10 20 30 6080 Surface Soils (2 inches) - brown silty sand with few scattered roots and vegetative material, moist r . SS-1 3 3 1 4 COASTAL PLAIN: SLTY SAND ISMI �I very loose, brown, fine, moist 1' f; SAND ISP-SM1 very loose, tan, with silt, fine, moist 1 1 1 SS-2 2 {. HC :'•�::. - - - Wet, loose at 4 feet SS-3 3 3 5 7.0 Boring terminated at 5 ft rvVIts: 1. TM LOGES ONLYA PORTION OFA REPQRT RREPARED FOR THE NArdED PROJECTAND MUST OR'LYEE USED 7yJGETHER YRTIi THAT REPORT. I BORING SAMPLINGANDPENETRATIONTESTDATAINGENERAL ACCORDANCE MfNAS�TM D-15K * STRATIFICATION AND GROUNDWATER DEPTHS ARE NOT EDICT. * WATER LEVEL IS AT 71AW OF EXPLORATION AND WILL VARY. Page 1 of 9 Form No TR-D6913-GR-01 SIEVE ANALYSIS OF SOIL Revision No. 1 Revision Date: 9/5/17 I Single sieve set Project #: ASTM D6913 S&ME. Inc Raleigh: 3201 Spring Forest Road, Raleigh, NC 27616 1305-19-108 Record Date: 4/20/2020 Project Name: Hammocks Beach State Park Lab Report #: 1 Client Name: CLH Design Date Received: 4/16/2020 Received By: Lab Sampled by: S&ME Date Sampled: 4/14/2020 Location: Site -Borehole Boring #: B-1 Sample #: SS-5 Log/Sample Id. 154 Type: SS Elev/Depth (ft): 13.5-15 Sample Description: Gray SAND with Silt 3" 2" 1.5" 1" 3/4" 3/8" 44 #10 #20 4r40 #60 :t10o #140 #200 100% 90% c a I 60% 50% v 40% 30% 20% 10% 0% 10 Cobbles < 300 mm (12") and > 75 mm (3") Fine Sand < 0.425 mm and > 0.075 mm Gravel < 75 mm and > 4.75 mm (#4) Silt < 0.075 and > 0.005 mm Coarse Sand < 4.7S mm and >2.00 mm (#10) Clay - 0.005 mm Medium Sand 2.00 mm and > 0.425 mm (#40) Golk"cls < 0.001 mm Method: B Procedure for obtaining Specimen: Moist Maximum Particle Size 3/8" Coarse Sand 2.8% Fine Sand 71.5% Gravel 0.4% Medium Sand 14.2% Silt & Clay 11.1% Liquid Limit ND Plastic Limit ND Plastic Index ND Maximum Dry Density ND Bulk Gravity (C127) N/A % Absorption N/A Optimum Moisture ND Natural Moisture 26.0% Notes/Deviations/References: ND=Not Determined. Mal Krajan, ET d\� c.' Laboratory Manager 4/25/2020 Technical Responsibility Signature Position Date This report shall not be reproduced, except in full, without the written approval of S&ME, Inc. S&ME, Inc. - Corporate 3201 Spring Forest Road B-I SS-5 (13.5-15ft) Grainsire Raleigh, NC 27616 Page I of I t Form No TR-D6913-GR-01 Revision No. 1 Revision Date: 9/5/17 SIEVE ANALYSIS OF SOIL Single sieve set Project #: ASTM D6913 S&MF, Inc. Raleigh: 3201 SFaosing Forest Road, Raleigh, 1305-19-108 NC 27616 Record Date: 4/20/2020 Project Name: Hammocks Beach State Park Lab Report #: 1 Client Name: CLH Design Date Received: 4/16/2020 Received By: Lab Sampled by: S&ME Date Sampled: 4/14/2020 Location: Site -Borehole Boring #: P-1 Sample #: SS-2 Log/Sample Id. 154 Type: SS Elev/Depth (ft): 2-4 Sample Description: Tan SAND with Silt 3" 2" 1.5" 1" 3!4" 3/8" #4 *10 920 vr40 #60 #100 #140 *200 100% 90% 80% 0 � 70% C w 60% 0., a ' so% L d. 0.' 1 40% 30% 20% 10% 0% 10i Cobbles 300 mm (12") and > 75 mm (Y) Fine Sand < 0.425 mm and > 0.075 mm Gravel < 75 mm and a 4.75 mm (#4) Silt < 0.075 and > 0.005 mm Coarse Sand < 4.75 mm and >2.00 mm (#10) Clay < 0.005 mm Medium Sand < 2.04 mm and - 0.425 mm (#40) Colloids < p•001 mm metnoo: b Procedure for obtaining Specimen: Moist Maximum Particle Size #4 Coarse Sand 0.0% Fine Sand 89.4% Gravel 0.0% Medium Sand 0.1% Silt & Clay 10.5% Liquid Limit ND Plastic Limit ND Plastic Index ND Maximum Dry Density ND Bulk Gravity (C127) N/A % Absorption N/A Optimum Moisture ND Natural Moisture 21.3% Notes/Deviations/References: ND=Not Determined. Mai KL,. ET Laboratory Manager 4/25/2020 Technical Responsibility Signature Position Date This report shall not be reproduced, except in full, without the written approval of S&ME, Inc. S&ME, Inc. Corporate 3201 Spring Forest Road P-1 SS-2 (2-4ft) Grainsize Raleigh, NC 27616 Page I of I Form No TR-D6913-GR-01 SIEVE ANALYSIS OF SOIL Revision No. 1 _ Revision Date: 9/5/17 i Single sieve set Project #: ASTM D6913 S&ME, Inc. Raleigh 3201 Spring Forest Road, Raleigh, NC 27�16 1305-19-108 Record Date: 4/20/2020 Project Name: Hammocks Beach State Park Lab Report #: 1 Client Name: CLH Design Date Received: 4/16/2020 Received By: Lab Sampled by: S&ME Date Sampled: 4/14/2020 Location: Site -Borehole Boring #: P-3 Sample #: SS-1 Log/Sample Id. 154 Type: SS Elev/Depth (ft): 0-2 Cobbles < 300 mm (12") and > 75 rnm (3-1 'Fine Sand < 0.425 mm and > 0.075 mm� Gravel < 75 mm and > 4.75 mm (#4) Silt < 0.075 and > 0.005 mm Coarse Sand < 4.75 mm and >2.00 mm (#10) a Clay < 0.005 mm Medium Sand < 2.00 mm and > 0.425 mm (#40) Colloids < 0.001 mm Method: B Procedure for obtaining Specimen: Moist Maximum Particle Size #10 Coarse Sand 0.0% Fine Sand 72.6% Gravel 0.0% Medium Sand 0.7% Silt & Clay 26.7% Liquid Limit ND Plastic Limit ND Plastic Index ND Maximum Dry Density ND Bulk Gravity (C127) N/A % Absorption N/A Optimum Moisture ND Natural Moisture 20.9% Notes/Deviations/References: ND=Not Determined. Mal Krajan, ET Laboratory Manager 4/25/2020 Technical Responsibility Signature Position Date This report shall not be reproduced, except in full, without the written approval of S&ME, Inc. S&ME, Inc. - Corporate 3201 Spring Forest Road P-3 SS-1 (0-2ft) Grainsize Raleigh, NC. 27616 Page 1 of I Form No TR-D6913-GR-01 SIEVE ANALYSIS OF SOIL Revision No. 1 Revision Date: 9/5/17 I I Single sieve set ASTM D6913 S&ME, Inc.. Raleigh, 3201 Spring Fore t Road. Raleigh, NC 2761 Project #: 1305-19-108 Record Date: 4/20/2020 Project Name: Hammocks Beach State Park Lab Report #: 1 Client Name: CLH Design Date Received: 4/16/2020 Received By: Lab Sampled by. S&ME Date Sampled: 4/14/2020 Location: Site -Borehole Boring #: P-9 Sample #: SS-2 Log/Sample Id. 154 Type: SS Elev/Depth (ft): 2-4 Sample Description: Tan SAND with Silt 3" 2" 1.5" 1" 3/4" 3,18" #4 #10 #20 #40 #60 #100 #140 #200 11 Cobbles < 300 mm (12") and > 75 mm (Y) Fine Sand < 0.42S mm and > 0.075 mm Gravel < 75 mm and n 4.75 mm (#4) Silt < 0.07S and > 0.005 mm Coarse Sand < 4.75 mm and >2.00 mm (#10) Clay < 0.005 mm Mediu ' < 2 00 mm and - 0,425 mm (#40) i Colloids i < 0.001 miry metnoa: 1:5 Procedure for obtaining Specimen: Moist Maximum Particle Size #4 Coarse Sand 0.1% Fine Sand 87.0% Gravel 0.0% Medium Sand 3.5% Silt & Clay 9.4% Liquid Limit ND Plastic Limit ND Plastic Index ND Maximum Dry Density ND Bulk Gravity (C127) N/A % Absorption N/A Optimum Moisture ND Natural Moisture 19.3% Notes/Deviations/References: ND=Not Determined. Mai Krajan. ET Laboratory Manager 4/25/2020 Technical Responsibility Signature Position Date This report shall not be reproduced, except in full without the written approval of S&ME, Inc. S&ME, Inc. Corporate 3201 Spring Forest Road P-9 SS-2 (2-4f1) Grainsize Raleigh, 1VC. 27616 Page I of I Form No. TR-D698-2 MOISTURE - DENSITY REPORT .� Revision No.: 1 _ Revision Date: 07/25/17 Quality Assurance S&ME, Inc. Raleigh 3201 Spring Forest Road, Raleigh, NC 27616 S&ME Project #: 1305-19-108 Report Date: 4/24/2020 Project Name: Hammocks Beach State Park Test Date(s): 4/23 - 4/24/20 Client Name: Client Address: CLH Design 400 Regency Forest Dr, Suite 120, Cary, NC 27518 Boring #: P-4 Sample #: Bulk 1 Sample Date: 4/14/2020 Location: Site Borehole Offset: N/A Depth (ft): 0-3 Sample Description: Tan Silty SAND Maximum Dry Density 106.6 PCF. Optimum Moisture Content 14.0% ASTM D 698 - - Method A Naaalaaaaalaa_� MMMMMMMM a!laaaa��aaaaaaaa!laaa!!a#4 a!laaaaaaa!lasaai�aaalaa!#70 �aaaaalaalaaaaala��aaaaaaa �!a!!a!!!!a!!aa!!!■■!!!!!a �aaaaaaaaaaaaaaaaaaaaaaaa ,aa!!laaa!!alaaaa!!!a!a!!a a!!al�aalaaaaaaa!!laaaa!! El ' l !!!! % Passing 100.0% ND #40 ND ., ND #200 ND Oversize Fraction Bulk Gravity % Oversize ,. .. Moisture -Density Curve Displayed: Fine Fraction Ux c.orrectea Tor uversize rracuon kH�) i M u'+i 10) u Sieve Size used to separate the Oversize Fraction: #4 Sieve 0 3/8 inch Sieve ❑ 3/4 inch Sieve ❑ Mechanical Rammer ❑ Manual Rammer 0 Moist Preparation ❑ Dry Preparation IXI References/Comments/Deviations: ND=Not Determined. ASTM D 2216: Laboratory Determination of Water (Moisture) Content of Soil and Rock by Mass ASTM D 698: Laboratory Compaction Characteristics of Soil Using Standard Effort Mal Krajan, ET Laboratory Manager 4/24/2020 Technical Responsibility Signature Position Date This report shall not be reproduced, except in full, without the written approval of S&ME, Inc. S&ME,Inc. - Corporate 3201 Spring Forest Road P-4 Bulk I (0-aft) Proctor Raleigh, NC. 27616 Page I of / Form No. TR-D698-2 MOISTURE - DENSITY REPORT A=KWT Revision No.: 1 Revision Date: 07/25/17 Quality Assurance S&ME, Inc. Raleigh: 3201 Spring Forest Road, Raleigh, NC 27616 S&ME Project # 1305-19-108 Report Date: 4/24/2020 Project Name: Hammocks Beach State Park Test Date(s): 4/23 - 4/24/20 Client Name: Client Address: CLH Design 400 Regency Forest Dr, Suite 120, Cary, NC 27518 Boring #: P-8 Sample #: Bulk 2 Sample Date: 4/14/2020 Location: Site Borehole Offset: N/A Depth (ft): 0-3 Sample Description: Tan Siltv SAND Maximum Dry Density 105.9 PCF. Optimum Moisture Content 13.3% 120.0 115.0 110.0 U a 5A 105.0 V A Q il 100.0 95.0 90.0 Moisture -Density Relations of Soil and Soil -Aggregate Mixtures 0.0 5.0 Ann 11C n 20.0 25.0 Moisture Content (%) Soii Properties Natural Moisture 13.8% Content Assumed Specific 2 650 Gravity Liquid Limit ND Plastic Limit ND Plastic Index ND % Passing 3/4" 100.0% 3/8" 100.0% #4 100.0% #10 ND #40 ND #60 N D #200 N D Oversize Fraction Bulk Gravity • Moisture • Oversize MDD Opt: MC moisture-uensity curve uispiayea: Fine Fraction 0 Corrected for Oversize Fraction (ASTM D 4718) ❑ Sieve Size used to separate the Oversize Fraction: #4 Sieve ❑x 3/8 inch Sieve ❑ 3/4 inch Sieve ❑ Mechanical Rammer ❑ Manual Rammer ® Moist Preparation ❑ Dry Preparation Ell References/Comments/Deviations: ND=Not Determined. ASTM D 2216: Laboratory Determination of Water (Moisture) Content of Soil and Rock by Mass ASTM D 698: Laboratory Compaction Characteristics of Soil Using Standard Effort Ce�•a, Mal Krajan. ET - ` ' Laborat.ory a r 4/24/2020 Technical Responsibility Signature Position Date This report shall not be reproduced, except in full, without the written approval of S&M& Inc. S&ME,Inc. - Corporate 3201 Spring Forest Road P-8 Bulk 2 (0-3f1) Proctor Raleigh, NC. 27616 Page I of I Form No. TR-D1 883-Tl 93-3 CBR (CALIFORNIA BEARING RATIO) ffm �w Revision No. 2 OF LABORATORY COMPACTED SOIL Lj Revision Date: 08/11/17 ! r S �7r ASTM D 7883 S&ME, Inc. Raleigh: 3201 Spring Forest Roaa, Raleigh, NC 27616 Project #: 1305-19-108 Report Date: 4/29/2020 Project Name: Hammocks Beach State Park Test Date(s) 4/23 - 4/29/20 Client Name: CLH Design Client Address: 400 Regency Forest Dr, Suite 120, Cary, NC 27518 Boring #: P-8 Sample #: Bulk 2 Sample Date: 4/14/2020 Location: Site Borehole Offset: N/A Depth (ft): 0-3 Sample Description: Tan Silty SAND AASHTO T99 Method Maximum Dry Density 105 g PCF Optimum Moisture Content 13 3% Compaction Test performed on grading complying with CBR spec % Retained on the 3/4" sieve 0 0% Uncorrected CBR Values Corrected CBR Values �S OME l i rumTff MIMI .. SoakingBefore .. ..(Blows -Com Initial Dry Density (PCF) ..• CompactedMoisture Content of the ..soaking) .. •• �• Soak Time: 96 hrs. Surcharge Weight 20.0 Surcharge Wt. per sq. Ft. 101.9 Liquid Limit ND Plastic Index ND Notes/Deviations/References: ND=Not Determined. Test specimen compacted to 98% at optimum moisture. Mal Krajan. ET r Laboratory Manager 4/29/2020 Technical Responsibility Signature Position Date This report shall not be reproduced, except in full without the written approval of S&ME, Inc. S&ME, Inc. - Corporate 320/ Spring Forest Road P-8 Balk 2 (0-aft) CBR Raleigh, NC. 27616 Page I of I Is Page 1 of 4 1 k Doc ID: 0120aslaO004 Tvpe: CRP .Recorded: 04/30/2015 at 02:07:29 PM Fee Mkt: $13,960.00 Pape 1 of 4 Revenue Tax: $13,924.00 Onslow Countv NC Rebecca L. Pollard Rep. of Deods eK4294 P(3277-280 NORTH CAROLINA SPECYAL WARRANTY DEED The attorney preparing this instrument has made no record search or title examination as to the property herein described, unless the same is shown by his written and signed certificate. Excise Tax: S13.924.00 Parcel identifier No. Pact of 1320-33 Verified by County on the_ day of , 2D By: — Mail/Box to: Pollock & Pollock, Attorneys at Law, P.A., PO Dmwer999, Burgaw, NC 28425 This instrument was prepared by: Pollock & Pollock, Attorneys at Law, P.A. Brief description for the Index: THIS DEED made this 211 day of April, 2015, by and between GRANTOR Harriett Hurst Turner and husband, Jarvis Turner; and, John Henry Hurst, Unmarried State of North Carolina 1321 Mail Service Center Raleigh, NC 27699-1321 Enter in appropriate block for each party: name, address, and, if appropriate, character of entity, e.g. corporation or partnership. This property is or _ is not the primary residence of the Grantor. The designation Grantor and Grantee as used herein shall include said parties, their heirs, successors, and assigns, and shall include singular, plural, masculine, feminine or neuter as required by context. WITNESSETH, that the Grantor, for a valuable consideration paid by the Grantee, the receipt ofwhich is hereby acknowledged, has and by these presents does grant, bargain, sell and convey unto the Grantee in fee simple, all that certain lot or parcel of land situated in the City of, Swansboro Township, Onslow, County, North Carolina and more particularly described as follows: First Tract -Parcel No. Part of 1320-33 Being all that Tract "A":199.37 acres, Includes Lease Area as shown on a map entitled Composite Plat for. HarrieftHurst Turner & John Henry Hurst (owners), dated 27 February 2015, recorded 3 March 2015 in Map Book 69, pages 184 and 184A of the Onslow, County Registry. Second Tract Parcel No. Part of 1320-33 NC Bar Association Form No. 6 ® 1977, 2002 Printed by Agreement with the NC Bar Association —1991 - Chicago Title insurance Company AUG 2 4 2020 BY Book: 4294 Page, 1977-Current: 277 Seq: 1 Book: 4294 Page: 277 Page 1 of 4 Page 2 of 4 Being all that Tract "C":10.00 acres as shown on a map entitled Composite Plat for: Harriett Hurst Turner & John Henry Hurst (owners), dated 27 February 2015, recorded 3 March 2015 in Map Book 69, pages 184 and 184A of the Onslow County Registry. Third Tract -Parcel No. Part of 1320-33 Being all of that Tract 4 as shown on a map entitled -Realignment Map-N.C.S.R.1551, dated 19 November 1994, Revised 27 February 1995, Revised 17 March 1995, recorded 17 March 1995 in Map Book 32, page 44 of the Onslow County Registry. The property hereinabove described was acquired by Grantor by instrument recorded in Book page A map showing the above described property is recorded in Map Book , Page . TO HAVE AND TO HOLD the aforesaid lot or parcel of land and all privileges and appurtenances thereto belonging to the Grantee in fee simple. And the Grantor covenants with the Grantee, that Grantor has done frothing to impair such title as Grantor received, and Grantor will warrant and defend the title against the lawful claims of all persons claiming by, under or through Grantor, other than the following exceptions: BY:. — Title: By: _ Title: BY — Title: IN WITNESS WHEREOF, the Grantor has duly executed the foreg g aq of the34W andyear t above written. Ate' (SEAL) (EntityName) Harriett Hurst Turner Arvis 41.,t u ` (SEAL) arn (SE ) n Henry urst (SEAL) SEAL -STAMP State of North Carolina— County of , 0. that Notary lic afthe and eaapaes44gpItt Hurst Turner and Jarvis Turner personally appeared before me this day and acknowledged due �P : ••' Guyon ofyth;�oregoing instrument for the purposes therein expressed. Witness my hand and Notarial stamp 0 T q 9�640(1 day of April, 2015. = 1e1y Cdiarg ission Expires: U� Y► �1 `� �� F� t )s�cc,a�c Sat XI-1 Notary Public gq�T01V CO UNl� `a NC Bar Association Form No. 6 ® 1977, 2002 Printed by Agreement with the NC Bar Association — 1991 - Chicago Title Insurance Company Book: 4294 Page, 1977-Current: 277 Seq: 2 Book: 4294 Page: 277 Page 2 of 4 Page 3 of 4 /mate ofNorth Carolina —County of OJ—� "y% Y v"-' n-.0,13WI the undersigned Notary Public of the County and State aforesaid, certify that a r' O Tq `� ary Hurst personally appeared before me this day and acknowledged the due execution of_thq�foregoing _ 9t ',rent far the purposes therein expressed. W itness m hand and Notarial stamp or sea! thisaNY day of p -0 :Apn2015. n 2� "•. 1 t itfy o is 'ou Expires: �l i � C� `� �h NotaPy Public '%�� L�fld ys� NC Bar Association Form No. 6 0 1977, 2002 Printed by Agreement with the NC Bar Association — 1981 - Chicago Title Insurance Company Book: 4294 Page, 1977-Current: 277 Seq: 3 Book: 4294 Page: 277 Page 3 of 4 From: 5818 4-27-15, 12:42pm p. 1 of 1 9191091410Z596035 - go 4 of Tax Certification Form (Check One Box) ❑✓ This certifies that there are no delinquent ad valorem taxes, or other taxes which the Onslow County Tax Collector is charged with collecting, that are a lien on: Parcel Identification Number: PART OF 1320-33 This is not a certification that this Onslow County Parcel Identification Number matches the deed description. No certification required, as attorney statement that any delinquent taxes will be paid from closing proceeds is included on first page of deed. omnw.tr..mw.ssco, Valeda B Coxes, 04/27/2015 o.42msa2•:voenm Tax Collections Staff Signature Date 234 NW Corridor Blvd • Jacksonville, North Carolina • 28540 - Phone: (910) 989-2200 - Fax (910( 999-5818.OnslowCountyNC.gov/tax Book: 4294 Page, 1977-Current: 277 5eq: 4 Book: 4294 Page: 277 Page 4 of 4