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20190975 Ver 1_PCN Form Submission_20190723
DR 02*10n of Water R"Ourc" Pre -Construction Notification (PCN) Form September 29, 2018 Ver 3 Initial Review Has this project met the requirements for acceptance into the review process?* r Yes r No Is this project a public transportation project?* r Yes r No Clarx3e only if needed. BIMS # Assigned 20190975 Is a payment required for this project?* r No payment required r Fee received r Fee needed - send electronic notification Select Project Reviewer* Chad Turlington:eads\ccturlington Information for Initial Review 1a. Name of project: Cargill Proposed N -S Roadway & Truck Queue Lot 1a. Who is the Primary Contact?* Cory Darnell 1 b. Primary Contact Email:* cory.darnell@terracon.com Date Submitted 7/23/2019 Nearest Body of Water Unnamed tributary to Locks Creek Basin Cape Fear Water Classification C Site Coordinates Latitude: 35.089725 A. Processing Information County (or Counties) where the project is located: Cumberland Is this project a public transportation project?* r Yes r No Longitude: -78.845454 1a. Type(s) of approval sought from the Corps: V Section 404 Permit (wetlands, streams and waters, Clean Water Act) F Section 10 Permit (navigable venters, tidal waters, Rivers and Harbors Act) 1 b. What type(s) of permit(s) do you wish to seek authorization? P Nationwide Permit (NWP) F- Regional General Permit (RGP) r- Standard (IP) Version# * 1 Reviewing Office* Fayetteville Regional Office - (910) 433-3300 1c. Primary Contact Phone:* (984)202-4065 1c. Has the NWP or GP number been verified by the Corps? r Yes r No Nationwide Permit (NWP) Number: NWP Numbers (for multiple NWPS): 1d. Type(s) of approval sought from the DWR: P 401 Water Quality Certification - Regular F Non -404 Jurisdictional General Permit F Individual Permit 39 - Commercial/Institutional Developments 1e. Is this notification solelyfor the record because written approval is not required? For the record only for DWR 401 Certification: For the record only for Corps Permit: F 401 Water Quality Certification - Express F Riparian Buffer Authorization 1f. Is this an after -the -fact permit application?* r Yes r No 1g. Is payment into a mitigation bank or in -lieu fee program proposed for mitigation of impacts? r Yes r No 19. Is payment into a mitigation bank or in -lieu fee program proposed for mitigation of impacts? r Yes r No Acceptance Letter Attachment 1h. Is the project located in any of NC's twenty coastal counties? r Yes r No 1j. Is the project located in a designated trout watershed? r Yes r No B. Applicant Information 1d. Who is applying for the permit? Q Owner r Applicant (other than owner) 1e. Is there an Agent/Consultant for this project? C Yes r No 2. Owner Information 2a. Name(s) on recorded deed: Cargill Inc. 2b. Deed book and page no.: Book: 0138 Page: 0097 2c. Responsible party: 2d. Address Street Address PO Box 5626 Address Line 2 City Minneapolis Postal / Zip Code 55440 2e. Telephone Number: (952)984-0082 2g. Email Address:* andy—seifert@cargill.com C. Project Information and Prior Project History 1. Project Information State / Rwince / Fiejim Minnesota Country United States 2f. Fax Number: r Yes r No rYes rNo 1b. Subdivision name: (d appropriate) 1c. Nearest municipality/town: Fayetteville, NC 2. Project Identification 2a. Property Identification Number: 2b. Property size: 0448-68-0915 59.66 2c. Project Address Street Address 1579 Underwood Road Address Line 2 City State / Ravine / fiaglon Fayetteville North Carolina Ristal / Zip Cade Country Cumberland 3. Surface Waters 3a. Name of the nearest body of water to proposed project:* Unnamed tributary to Locks Creek 3b. Water Resources Classification of nearest receiving water:* C 3c. What river basin(s) is your project located in?* Cape Fear 3d. Please provide the 12 -digit HUC in which the project is located. 03030004 4. Project Description and History 4a. Describe the existing conditions on the site and the general land use in the vicinity of the project at the time of this application:* Project area consists of an approximately 40.96 acre parent parcel. The project area is developed with a Cargill office/maintenance building and a paved parking lot. Remaining portions of the project area consist of unpaved parking/storage areas and agricultural land. Remaining portions of the parent parcel consist of a Cargill plant. Land use in the vicinity of the parent parcel consists of agricultural, residential, cleared, and wooded land. 4b. Have Corps permits or DWR certifications been obtained for this project (including all prior phases) in the past?* r Yes G No r Unknown 4d. Attach an 8 1/2 X11 excerpt from the most recent version of the USGS topographic map indicating the location of the project site. (for DWR) Topo.pdf 4.06MB 4e. Attach an 8 1/2 X11 excerpt from the most recent version of the published County NRCS Soil Survey map depicting the project site. (for DWR) Figure 4 - Soil Map.pdf 1.44MB 4f. list the total estimated acreage of all existing wetlands on the property: Approximately 2 acres 4g. List the total estimated linear feet of all existing streams on the property: N/A 4h. Explain the purpose of the proposed project:* Improve overall flow of traffic through the Cargill facility located north of Underwood Road, alleviating traffic congestion on nearby public roads and improving safety for pedestrian ingress/egress to and from the facility. 41. Describe the overall project in detail, including indirect impacts and the type of equipment to be used:* Project will involve construction of paved entrance drives, a paved truck lot, two gravel lots, a restroom structure, a probe operator booth, and two temporary sediment basins. Equipment will include excavators, backhoes, bulldozers, skid -steers, and other typical grading and paving equipment. 4j. Please upload project drawings for the proposed project. Site Plan.pdf 16.39MB 5. Jurisdictional Determinations 5a. Have the wetlands or streams been delineated on the propertyor proposed impact areas?* r Yes r No r Unknown Comments: 5b. If the Corps made a jurisdictional determination, what type of determination was made?* r Preliminary r Approved r Not Verified r Unknown r WA Corps AID Number: SAW -201-02030 5c. If 5a is yes, who delineated the jurisdictional areas? Name (if known): Unknown Agency/Consultant Company: Southeastern Soil & Environmental Associates, Inc. Other: 5d. List the dates of the Corp jurisdiction determination or State determination if a determination was made by the Corps or DWR AJD issued for the site on 3/4/11, see attached Jurisdictional Determination. No signifcant change in site conditions since time of original delineation. NCDEQ made a site visit in December 2019 to evaluate stream origin of nearby stream. See attached regulatory correspondence for further details. 5d1. Jurisdictional determination upload JD.pdf 4.17MB 6. Future Project Plans 6a. Is this a phased project?* r Yes F No Are any other NWP(s), regional general permit(s), or individual permits(s) used, or intended to be used, to authorize any part of the proposed project or related activity? D. Proposed Impacts Inventory 1. Impacts Summary 1a. Where are the impacts associated with your project? (check all that apply): F Wetlands r Streams -tributaries F Buffers R Open Waters F Pond Construction 4. Open Water Impacts 4a. Site # 4a1. Impact Reason 4b. Impact type 4c. Name of waterbody 4d. Activity type 4e. Waterbodytype 4f. Impact area 01 Positive drainage T Feature A (agricultural ditch) Dredging Ditch 0.13 02 03 Re -alignment Temporary sediment basin P T Feature A (agricultural ditch) Feature A (agricultural ditch) Excavation Other Ditch Ditch 0.10 0.14 04 Positive drainage T Feature A (agricultural ditch) Dredging Ditch 0.03 4g. Total temporary open water Impacts: 4g. Total permanent open water impacts: 0.30 0.10 4g. Total open water impacts: 0.40 4h. Comments: Impacts 1 & 4 correspond to dredging the bottom of the ditch channel to ensure positive drainage. Impact 2 corresponds to a re -alignment of the ditch channel in order to leave room for the proposed probe operator booth and grader's trailer. Impact 3 corresponds to a temporary sediment basin; ditch channel to be restored to original condition following the completion of construction activities. E. Impact Justification and Mitigation 1. Avoidance and Minimization 1a. Specifically describe measures taken to avoid or minimize the proposed impacts in designing the project: Site layout was designed to avoid wetlands identified at the site. The area of disturbance necessary to improve the site has been reduced to the minimal extent possible in order to satisfy the purpose of the project. Proposed agricultural ditch realignment been engineered to minimize fill in open water areas. Lots have been sized based on the need for up to 80 trucks to stage at the site as determined by historical and projected uses of the site. 1b. Specifically describe measures taken to avoid or minimize the proposed impacts through construction techniques: Slopes will be stabilized immediately following the completion of grading. The temporary sediment basins areas will be restored to their original conditions following the completion of construction activities. A head -wall will be installed within the ditch to control erosion. 2. Compensatory Mitigation for Impacts to Waters of the U.S. or Waters of the State 2a. Does the project require Compensatory Mitigation for impacts to Waters of the U.S. or Waters of the State? r Yes F No 2b. If this project DOES NOT require Compensatory Mitigation, explain why: USACE did not require compensatory mitigation. F. Stormwater Management and Diffuse Flow Plan (required by DWR) 1. Diffuse Flow Plan 1a. Does the project include or is it adjacent to protected riparian buffers identified within one of the NC Riparian Buffer Protection Rules? r Yes r No If no, explain why: The site plan includes two temporary stormwater BMPs located outside of the riparian buffer to treat stormwater before it is discharged. No stormwater is discharged directly into streams, riparian buffers, or wetlands. 2. Stormwater Management Plan 2a. Is this a NCDOT project subject to compliance with NCDOT's Individual NPDES permit NCS000250?* r Yes r No 2b. Does this project meet the requirements for low density projects as defined in 15A NCAC 02H .1003(2)? r Yes r No Comments: As the project has a built upon area for this project is below 24 % (including existing built upon area). the project can be developed under the low destiny option which does not require permanent stormwater controls. G. Supplementary Information 1. Environmental Documentation 1a. Does the project involve an expenditure of public (federal/state/local) funds or the use of public (federal/state) land?* r Yes r No 2. Violations (DWR Requirement) 2a. Is the site in violation of DWR Water Quality Certification Rules (15A NCAC 2H .0500), Isolated Wetland Rules (15A NCAC 2H .1300), or DWR Surface Water or Wetland Standards or Riparian Buffer Rules (15A NCAC 2B.0200)?* r Yes r No 3. Cumulative Impacts (DWR Requirement) 3a. Will this project result in additional development, which could impact nearby downstream water quality?* r Yes r No 3b. If you answered "no," provide a short narrative description. 4. Sewage Disposal (DWR Requirement) 4a. Is sewage disposal required by DWR for this project?* r Yes r Nor IIA 5. Endangered Species and Designated Critical Habitat (Corps Requirement) 5a. Will this project occur in or near an area with federally protected species or habitat?* r Yes r No 5b. Have you checked with the USFWS concerning Endangered Species Act impacts?* r Yes r No 5c. If yes, indicate the USFWS Field Office you have contacted. Raleigh 5d. Is another Federal agency involved?* r Yes r No r Unknown 5e. Is this a DOT project located within Division's 1-8? C Yes r No 5f. Will you cut any trees in order to conduct the work in waters of the U.S.? r Yes r No 5g. Does this project involve bridge maintenance or removal? r Yes r• No 5h. Does this project involve the construction/installation of a wind turbine(s)?* r Yes r No 5i. Does this project involve (1) blasting, and/or (2) other percussive activities that will be conducted by machines, such as jackhammers, mechanized pile drivers, etc.? r Yes r No 5j. What data sources did you use to determine whether your site would impact Endangered Species or Designated Critical Habitat? NCHP (Element Occurrence Dataset), USFWS (IPAC Report) Consultation Documentation Upload IPAC. pdf 5.1 MB Species determinations.pdf 125.8KB 6. Essential Fish Habitat (Corps Requirement) 6a. Will this project occur in or near an area designated as an Essential Fish Habitat?* r Yes r No 6b. What data sources did you use to determine whether your site would impact an Essential Fish Habitat?* NOAA Fisheries Essential Fish Habitat Mapper 7. Historic or Prehistoric Cultural Resources (Corps Requirement) 7a. Will this project occur in or near an area that the state, federal or tribal governments have designated as having historic or cultural preservation status?* r Yes r No 7b. What data sources did you use to determine whether your site would impact historic or archeological resources?* National Register of Historic Places & NCHPO mappers. Nearest feature is "Frank Talbot House" (HPO site ID: CD0899). Feature is located approximately 450 feet northwest from project limits of disturbance. 7c. Historic or Prehistoric Information Upload 8. Flood Zone Designation (Corps Requirement) 8a. Will this project occur in a FEMA -designated 100 -year floodplain?* r Yes r No 8b. If yes, explain how project meets FEMA requirements: A portion of the 100 -year floodplain is located approximately 30 feet east of the project limits of disturbance, however, no structures, impervious surfaces, or grading will occur within the 100 -year floodplain. 8c. What source(s) did you use to make the floodplain determination?* FEMA map panel 3720044800J Miscellaneous Comments Miscellaneous attachments not previously requested. Cargill Fayetteville PCN Tomas Submittal.pdf Signature R By checking the box and signing below, I certify that: 28.24MB • I have given true, accurate, and complete information on this form; • I agree that submission of this PCN form is a "transaction" subject to Chapter 66, Article 40 of the NC General Statutes (the "Uniform Electronic Transactions Act'); • I agree to conduct this transaction by electronic means pursuant to Chapter 66, Article 40 of the NC General Statutes (the "Uniform Electronic Transactions Act'); • I understand that an electronic signature has the same legal effect and can be enforced in the same way as a written signature; AND • I intend to electronically sign and submit the PCN form. Full Name: Cory Darnell Signature ril 6Art4 Date 7/23/2019 Raleigh, NC 27604 Phone: 919-873-2211 Fax: 919-873-9555 EXHIBIT NO. Date: Drawn By: Checked By: Copyright:© 2013 National Geographic Society, i-cubed Soil Survey MapProject No. 4 Legend Approximate Site Boun dary Cargill North-South Roadway and Truck Queue Lot1579 Underwood RoadFayetteville, Cumberland County, North Carolina 0 1,000 2,000500Feet Source: USDA-NRCS Soil SurveyCumberland and Hoke Counties MRW 70187501 TGW 7/22/2019±2401 Brentwood Road, Suite 107 Raleigh, NC 27604 Phone: 919-873-2211 Fax: 919-873-9555 EXHIBIT NO. Date: Drawn By: Checked By: Copyright:© 2013 National Geographic Society, i-cubed Topographic MapProject No. 2 Legend Approximate Site Bou ndary Cargill North-South Roadway and Truck Queue Lot1579 Underwood RoadFayetteville, Cumberland County, North Carolina 0 2,000 4,0001,000 Feet Source: USGS Topographic MapEnfield - 1961 and Darlington - 1974 1 inch = 2,000 ft MRW 70187501 TGW 5/21/2019±2401 Brentwood Road, Suite 107 Irerracrin USACE/NCDWR Agent Authorization Form Property/Site: L cE r / 1� pro OU_>��-t� �V -� oao� U) Address of Site.- Parcel ite: Parcel Identification Number (PIN) 0IfL�2 -G_-0Cf/I Property Owner/Project Owner Information: Name: A N b Address: 1--J-4O I W WAzAfA Telephone Number: I �2 • f Fax Number: N r A E-mail Address: Oyllo(!/_ Se.ifer- G ctrrq i Co M Property Owner/Project Owner Certification: I, the undersigned, do authorize Terracon Consultants to act on my behalf and take all actions necessary for the processing, issuance, and acceptance of this permit or certification and any and all standard and special conditions attached. Property Owner/Project Owner Signature: Date: 3 / I, / 4A;r- I ©�,. I hereby certify the above information submitted in this application is true and accurate to the best of our knowledge. Authorized Signature: Date: 7� ���% Terracon Consultants Inc. 2401 Brentwood Road, Suite 107, Raleigh, NC 28208-3608 P:919-873-2211 F:919-873-9555 lerracon.com Southeastern Soil & Environmental Associates, Inc. P.O. Bar 6821 F%V"we. NO 26917 PhWAWFM (61 q 622-4540 E-1 eareOsau6 1p1.(ga March 22, 2011 (revtaed) Mr. Brad Rude Project 1snglnea Card Grain & Oilseeds 1754 River Road Fayetteville, N.0 28312 Re: Detailed wetland investigation and delineation. Portion of Gilbert Smith Property (PIN 0"9-6"14-), River Road, Cumberland County, North Caroline Dear Mr. Rude, A site investigation and wetland delinoatum has bean conducted for the above refrrenced property. The purpose of the investigation was to deiar®e the adkence and extern of areas that exhibit the characteristics orjuriOctivnal wetlands andlar streams under Section 404 oftbe Clean Wats' Act. All wetlant iaVesm determinations and delineations were made in accordance with the 1987 US Army Corps of Engineers Wedand Delineation Manual. We have malved coaeusreace from the ❑SACD6 (see R"Kbd� The property boundaries w walked and several traverses conducted auris the interior of the subject property. Arm of wetlands and streams were idea i5ed on the property. The boundaries were dahneated on the ground by Ping fiWinB or Pin ffigs (pink Sb) along the perimeter and munbaing the flags oonsen bvdy as annotated on the GPS crap (rat a survey: ± I meter accurate) - There are two areas ofwedands toted on the nap (Et, C). There is ahro one stream/waters noted on the map (A). The area considered streatdwaters represents the bottom of a manmade ditch (cd id% wedald hydrology) that providw a hydrologic connection between wetlaodslwaters (off sire). As we previously discussed, mitigation (or fee in lien of) would be rogmad to impact any ofthese areas, Stream ids can be as much as 5339.00 per linear foot (there is approximately 1,300 Emu feet of Wdim in area "A"} Wetlands mitigation is typiMUY at a 2:1 ratio and mars 560,900.001am Cm'h etre inc;x=ntsX None ofthese figures SONAP E EVALUATION • SOIL PKYS1CAL AfNALYSN6 •LAW USEWOMWS" PLANSNO OnDUNOWATEa OPARAGEa10UNDNO• SWFACMUW& WACe WASTE TFWATLUENr MTEM& EVALUATION 6 DESIGN mode owRdting or permit fees. OWiously, it would be appropriate and PossNY required Ry USACOE m NCDWQ] to avoid or minunim arty impacts tO wetlwKwwaters Any proposed impacts will _ph_ appropriate permits from USACOE and NC Division of Water Quality. SS£A appreciates the opporhsnity to serve you ut this �. Pkase fed free to call with 4ueq�om Mike Eaker SOS Prpidem 7W � Inc. F.G. dM- 9321 WetlandMlaters Delineation - Gilbert Smith Property (Revised) ` Cumberland C.jounty, NC ©_ ® w _ r. a. rrer•1 Ii�N Can,Ye 3200 X 1191fID,1 NAD 1983 [Cents] i n --� ���a i ussuy F..e WTriff&e_ SOFL?SITE EVh MTIC •SOIL F!n'scA4 RNA &s - LAKD 1JSVWE PNIGIIX PLANNINO G0.pMMATER ORAWAGEMOUNGth41 • SU"ACF1 VMRFACE WASTE TREATMENT SYSTEMS, EVALORTJOk OL DESIGN U.S. ARMY CORPS OF ENGINEERS WILMINGTON DISTRICT Aako Id. 201002!30 C—ry. C.mberfawd U.S.13 S. Quad: Vada NOTIFICATION OF JURISDICTIONAL DETERMINATION Property OwnerlAgent: Gilbert Smith Fanlh, LLC Address: Atm: M. G. Smb3 2027 Rbrer Road DiriUmd9e_ Noah Carolina =11 Tclepbone No.: "04&3-M1 Fm"descnpdon: SIR (Km) M Nearest Town PavelMllk Natoma Waterway Qru Far RiverBnin C=peremr, USGS 11UC 9,301,10M Coord'ema N 33.0 M W.7&84%51 Lem,ion descriptloo The monerty 1s kated rwrtheaq.f the imeneeihn cf tforlerwood Road .rid River Road io Fa dt Ilk N dh t]trallaa <PI NN 0116 G8-04L4T. 'fL k. area ieelndes L+aulb.an va.l �5 acres DT land. ludisate Whieb of the Fallowing AIDDIV: A. Preliminary Determination _ BasMaa prcliminery inforration, there, maybe wetleMs on rhe aboredescribed property. We snnngIy suggnt )nu tWw misprapeny dspeewd to dnermine Nenxtem MDepartment ofthe Army (DA) jauhwirxion. Tobe considered Poml, s jurudktional deternieation muse be wrifred by the Corps. This prelbninary daenrdnuion is not an appalahk action under dre Re"Ismry Program Adminlarrtiw Appeal isn cess( Reference 33 CFR Part 331}. S. Approved Determination _ There are Navigable Waters of the Unwed States within the above do crIbcd property subject w the permit mMutrements or Sterman IOaftha Rivas acrd FEatbors Aa and Section 4W oftle Cieen tamer Ad. Unless ti— is—h-p in the hie row our pu6lislred regulatirms, this dekrmirmtion may be relied upon for a period em to exceed fix years from the dale of this naificaaien. R 11 a are waters oflhe U.& inel ding wetlands no the above dewribed project mea skim to the permit requirements of Section 404 of the Clean Wooer Act (CWAi{33 USC 11344} Unless there wadmage in the law or our published mw0kiom, this determination may be relied upon for a period not to"wd five yeasts from the date ofthis nmif cion. _ Wesvanoy suggest you Lave the w Uonds on your property delineated. Duemthesireofyourproperlyandtursur is xm worklrgd, the Corps may not be able to accomphak this walmod delineation in a timely asters. hint a marc timely delinearion, you may wish I. obtain.—Inuit. To be considered final. any ddincaaion must be veno d by the Corps. X The waters of rite U.S. Including we iannd on your project area have bcea delineated and ter del{neNion has Leen verified by the Corps. We aauogly suggest you have tha delineation surveyed. Upon completion, this surrey should be reviewedand vrrifird by the Carps. Once wrlRcd, this sarvey will powide an Rewrote depiction Mall meas subjm to CWA jurisdiction no your properly which, provided there Is ao dmnga in We row or our publlsited o gulaions, may be relied upon Ibr a period not to mmeed five yews. The wesknds have bean delinaoed and surveyed and are accurately depicted on dw plat signed by the Caps Regulatory official identified below on . Unless there is a chanya in the law or our published rcgulatkrns Nis detemnwtion may be relied upon for n period era m exceed five years from the dm ofthis norifieatim. _ Tlwne are ensu water, ofthe U.S.. to bwlude writao , prcu'N as raw above deembed property which arc -N.1 to the pertltreyuaernwnts or5xtion 404 ofthe Clan Watts Am (33 USC 1341). Unk- there iso drags In the Ise or aur published reguktiosu, chis daermioeaw may, be relied upon fora period not to exceed five years from the dna of this notireatlon. The property is located in one ofthe 20 Coand Cotton. subject to regulation miler die Coasted Am Marmgemem Act (CAMA} You shwld woad ria Division ofCwsal Management in Wihmngton, NC at (910) 7947215 to dctannine Obek requirenwnla NOTIFICATION OF ADMINISTRATIVE. APPEAL OPTIONS AND PROOMS AND REQUEST FOR APPEAL Applicant: F:urt 5nith Fa mih. LL.0 File Number: 20 Dole; Q3/03.2011 Attached is: Sec_S_celinn below• INITIAL. PROFFERED PL•RMII' Standard Permit "Letter of m2ission A _ PHOITERED PERMIT Standard Permit ar Letter of imion 11 PERMIT DIiNIAL �• % APPROVEDJURISDICTIONAL DT•,TERMINATION lj PRELIMINARY JURISDICTIONAL. DETERMINATION j? SECTION I - The following identifies your righLe and options regarding an administrative appeal of the above decision. Additional information may be found at b!!p://www,usnesrmy.mil/CECWffaste s/rcgmawrialsmE or Corps regulations at 33 CFR Part 331. _ A: INITIAL PROFFERED PERMIT: You may accept or object to the permit. ACCEPT: Ifyou nsoaned a Standard Permit, yvu may sign the permit document and Ildum it to dr district engineer far final author Mion. If you nccivcd a Letter of Permission (LAP), you may acesgu ma LOP and your work is amhari—L Your bipatare on the standard Permit or a!o ptanee ofthe IAP meant that you aotept the permit in its entirely, and wniw all rights to appal the perm, including its terms and cond0iora, aM approwdjurisdictianal delermioatiom associated with 1h pit. OEIJhc.•T: If)ou abject to tiro permit (Siandard or LOP) because ofoertain retina and conditions dterain• you may nrptest that the Petro@ be modif' daccandintly. You must complete Section ti of this farm and noun the lona w die dories enginasr. Your objeerima must Ix received by the disvin engineer within 60 days ofthe date oftha takes, oryou will forPoh your right to appeal the pnmh in the Future. Upon receipt ofyour kner, the district engineer will evalume your objections and may: tit) modif • the Permit to address all ofyour coaccma, (b) modify the perm It to address some ofyour objectiom. or (c) not mndi fy the permil having duermined that dneperma should be issued w previously wrinen. ARer evehsang }aur ohjeclims. lit.• district engineer will seM you a proffered permit f }our rnroroidention, as indicated in Section D below. $: PROEFEREI) PERMI"I": You may accept ar appeal [lx permit ACCITT: Ifyou utceived a Standard Permit, you may sign dse pmmit document end return it to tbe4imip emghrsrr fw final awharintion. Ifyou rxeised a Letter ofPermission (IAP)• you may accept the LOP and your work is audh-rimd. Yswr signaturew tine Standard Permit oramepwxc of the LOP means then you—pi thepcsnit in Imentimy. and waimc all riots to appeal the permit. including is terms end cond'nionx sad aprowedjlrisdielional det rm0edmsess taw with the permit. APPEAL: Ifyou choose w decline the proffered permh (Slerdard w LOP) bepuse of oertein temss and coedltions il—in. you may appeal the dcelined permit under the corps of Engineers Adminiwasiw Appeal Process by oompleting Section II of this form and sending Me Foca to the division mmineer. This Tamm must be received by the divWm "Sineer within 60 dms of the date of thisnotice. C: PEP Mfr DENIAL: Ym may appeal the denial Of* Permit ander the Corps of Waters AdminissmFivc Appal Ponca, hY mmpkdng Section II of dna f and srnding die Tomtit the divisim engineer" This Form must br recrivad by the diviaim engm— within 60 drys of the dart of this notice. D: APPROVED JURISDICTIONAL. DETERMINATION: You may accept or appeal the approved JD or provide new information. ACCEPT: You do not need to notify the Corps to accept an approsed JD. Failure to notify the Corps wilhin 60 days of flu date of chisnotice, means thal you accept the appovM JD in in entirety, end waive all rights mappeal the approvod Jt). APPEAL: V you disagree with the approved JD,ym may appeal the approved JD tinder dse Corps ofEagineera Administntivc Appel Process by plating Salim II of this farm and sending the f to the division aglncer. Thisform mush Ix- meived by the division englneer within 60 drys of the date of this na rice. E: PRELIMINARY JURISDICTIONAL. DETERMINATION: You do not need to respond to she Corps regarding the preliminary JD. The Preliminary JD is not appealable. If you wish, yrou may request an approved JD (which may be appeal[d), by contacting the Corps district for fvnher instruction. Also you may provide new information for further consideration by the Corps to reevaluate the JD. Placement of dredged or fill material within...tm ofdee US ands F wCtl.nds.vithmd. Depermreni ofdw Army permit may canstgtme a violation oeSasion 301 9flhe Clean Water Aa I3311SC 6 tai ly. If you have any questions mgartling this de inmion and/ dsc Corps mgul. yprogr peau cont c[Cmld Amuhkr at 910.7St4170. C. Basis For determination Ddemimtfoa wits Intoed 21 review of aerial nhol m nbv. 11363..Dih ad Udar sates and from uln—tk.s male dttrime thr dre vW Wrtteads mat criteria set Jamb in the Carpe 1997 &Ihtadna munmal and the Acholic and Gulf Coan11 Plait Reeion Sltankscol. Streams wart ideotifled ntilimlms erdioary Sieh water mark u kicudded In the fluid mad—tdbuurie. of the C.- Fear III -- D. Remarks L Aueation USDA Ptugram Pasficipantd This delinmtioWdgetminatlon has been conducted to identify the limits ofCorpg' Ckan Water Aa jrrisdklion for the pwliculm site idemiRed in this roquest Thcdcliorslioddclerminotion may nut be valid for the wetlandco ornuian provisionsofdtc Food Scarily Act of Kisi. Ifyouor ymr tenartarc USDA Pvcgmm participmus. a■ ficipatrpertkipaion in USDA programs, you should reepeet a otttiFed wetland detenninati.n from the kcal M. .1 -the Nrtuml Rrsoweee Conw+ adon Servim pna to vaning work. F. Altpeala lafotmaTloa (lltls laformatbm apptks only toapproved JurNdkebmaldeternlrtalimre as Indlpted le 8 above) This conespoMence oomtcom an appnvad jurisdictional droomination for the above described site. Ifyou object m this dm miomim ynu my mqucatanudminis tion appml undm Craps regd.eom at 33 CFR psi 331. FSrclowd ymr will find a Notification ofAppeai Process (NAP) fan shoe and request forappeai (RFA) farm. If you request mappeal this ddermina6m you must 6abmil ae plmed RFA foam to dm follnving.ddes>: DistrkY Engixcr, Wilmington RegulatorDivision Attu: Crystal Anoahlm. Prajea Mag-. W ilmit" ReSuetory Fietd Office 69 Darlington Ave Wilmltg North Cwlina 2&03 In order f mn RFA to be accepted by dee Carps, the Caps aunt daennine that it is eonnpkt that it meets the criteria f appeal under 33 CFR put 331.5. mit that it Inn been received by the District Office within 60 days of dr date of the NAP. Should you decide to .bmit an RFA fmta R must be received at the above address by s a6li 1. ••It u not neeessuy to submit an RFA Form to the Di9rict Office ifyou do not object gthe deteminadoo in this .wmWond—.-. Craps Regulatory Official; Dere AVIN610113 Espbuioo Date 0310dp,$l¢ The Wilmington District i committed to pmvidingdre highest kvel of suppxt W the public. Ta hNp us ensure we continue to dk ao. phase canpku the Cddumter Satisfstion Survey located u our website at teem:toeY��rwo.usece.anm•.milsunc�.lmnl. to dwmplc c the survey online. Copyf>nnishd; c ,. _ aoxnelw7ec rbwr4311 Alli 5/21/2019 IPaC IPaC: Species determinations U.S. Fish & Wildlife Service Regulatory review / Endangered species / Species determinations Species determinations For listed species! not covered by determination keys, an impact analysis should be performed to reach a conclusion about how this project will impact the species. These conclusions will result in determinations for each species, which will be used in consultation with the U.S. Fish and Wildlife Service. Birds Red -cockaded Woodpecker None Picoides borealis Reptiles American Alligator None Alligator mississippiensis Clams Atlantic Pigtoe None Fusconaia masoni Insects Saint Francis' Satyr Butterfly None Neonympha mitchellii francisd Flowering Plants American Chaffseed None Schwalbea americana Michaux's Sumac None Rhus michauxii https:Hecos.fws.gov/ipac/project/X04OLNE3VFDFRMATDGQJRZSSJU/speciesDeterminations 112 5/21/2019 IPaC: Species determinations Pondberry None Lindera melissifolia Rough -leaved Loosestrife None Lysimachia asperulaefolia Critical habitats THERE ARE NO CRITICAL HABITATS AT THIS LOCATION. Species listed under the Endangered Species Act are threatened or endangered; IPaC also shows species that are candidates, or proposed, for listing. See the listing status page for more information. https:Hecos.fws.gov/ipac/project/X040LNE3VFDFRMATDGQJRZSSJU/speciesDeterminations 2/2 5/21/2019 IPaC: Explore Location IPaC U.S. Fish & Wildlife Service WaC resource list This report is an automatically generated list of species and other resources such as critical habitat (collectively referred to as trust resources) under the U.S. Fish and Wildlife Service's (USFWS) jurisdiction that are known or expected to be on or near the project area referenced below. The list may also include trust resources that occur outside of the project area, but that could potentially be directly or indirectly affected by activities in the project area. However, determining the likelihood and extent of effects a project may have on trust resources typically requires gathering additional site-specific (e.g., vegetation/species surveys) and project -specific (e.g., magnitude and timing of proposed activities) information. y Below is a summary of the project information you provided and contact information for the USFWS office(s) with jurisdiction in the defined project area. Please read the introduction to each section that follows (Endangered Species, Migratory Birds, USFWS Facilities, and NWI Wetlands) for additional information applicable to the trust resources addressed in that section. Location Cumberland County, North Carolina Local office Raleigh Ecological Services Field Office (919) 856-4520 (919) 856-4556 MAILING ADDRESS Post Office Box 33726 Raleigh, NC 27636-3726 PHYSICAL ADDRESS 551 Pylon Drive, Suite F G�NJ https:Hecos.fws.gov/ipac/location/XQ40LNE3VFDFRMATDGQJRZSSJU/resources 1/11 5/21/2019 Raleigh, NC 27606-1487 IPaC: Explore Location 01 P Ik A-'Ov https://ecos.fws.gov/ipac/location/XQ40LNE3VFDFRMATDGQJRZSSJU/resources 2/11 5/21/2019 IPaC: Explore Location Endangered species This resource list is for informational purposes only and does not constitute an analysis of project level impacts. The primary information used to generate this list is the known or expected range of each species. Additional areas of influence (AOI) for species are also considered. An AOI includes areas outside of the species range if the species could be indirectly affected by activities in that area (e.g., placing a dam upstream of a fish population, even if that fish does not occur at the dam site, may indirectly impact the species by reducing or eliminating water flow downstream). Because species can move, and site conditions can change, the species on this list are not guaranteed to be found on or near the project area. To fully determine any potential effects to species, additional site-specific and project -specific information is often required. Section 7 of the Endangered Species Act requires Federal agencies to "request of the Secretary information whether any species which is listed or proposed to be listed may be present in the area of such proposed action" for any project that is conducted, permitted, funded, or licensed by any Federal agency. A letter from the local office and a species list which fulfills this requirement can only be obtained by requesting an official species list from either the Regulatory Review section in IPaC (see directions below) or from the local field office directly. For project evaluations that require USFWS concurrence/review, please return to the IPaC website and request an official species list by doing the following: 1. Draw the project location and click CONTINUE. 2. Click DEFINE PROJECT. 3. Log in (if directed to do so).'� 4. Provide a name and description for your project. 5. Click REQUEST SPECIES LIST. Listed species! and their critical habitats are managed by the Ecological Services Program of the U.S. Fish and Wildlife Service (USFWS) and the fisheries division of the National Oceanic and Atmospheric Administration (NOAA Fisheries). Species and critical habitats under the sole responsibility of NOAA Fisheries are not shown on this list. Please contact NOAA Fisheries for species under their jurisdiction. 1. Species listed under the Endangered Species Act are threatened or endangered; IPaC also shows species that are candidates, or proposed, for listing. See the listing status page for more information. 2. NOAA Fisheries, also known as the National Marine Fisheries Service (NMFS), is an office of the National Oceanic and Atmospheric Administration within the Department of Commerce. The following species are potentially affected by activities in this location: Birds NAME STATUS https:Hecos.fws.gov/ipac/location/XQ40LNE3VFDFRMATDGQJRZSSJU/resources 3/11 5/21/2019 IPaC: Explore Location Red -cockaded Woodpecker Picoides borealis No critical habitat has been designated for this species. https://ecos.fws.gov/ecp/species/7614 Reptiles NAM E American Alligator Alligator mississippiensis No critical habitat has been designated for this species. https://ecos.fws.gov/ecp/species/776 Clams NAM E Atlantic Pigtoe Fusconaia masoni There is proposed critical habitat for this species. Your location is outside the critical habitat. https://ecos.fws.gov/ecp/species/5164 Endangered STATUS SAT STATUS ' . 6 Proposed Threatened Insects NAME _ _ STATUS Saint Francis' Satyr Butterfly Neonympha mitchellii francisci Endangered No critical habitat has been designated for this species. https://ecos.fws.gov/ecp/species/5419 Flowering Plants NAME STATUS PON American Chaffseed Schwalbea americana Endangered No critical habitat has been designated for this species. https://ecos.fws.gov/ecp/species/1286 Michaux's Sumac Rhus michauxii Endangered No critical habitat has been designated for this species. https://ecos.fws.gov/ecp/species/5217 Pondberry Lindera melissifolia Endangered No critical habitat has been designated for this species. https://ecos.fws.gov/ecp/species/1279 Rough -leaved Loosestrife Lysimachia asperulaefolia Endangered No critical habitat has been designated for this species. https://ecos.fws.gov/ecp/species/2747 https:Hecos.fws.gov/ipac/location/XQ4OLNE3VFDFRMATDGQJRZSSJU/resources 4/11 5/21/2019 Critical habitats IPaC: Explore Location Potential effects to critical habitat(s) in this location must be analyzed along with the endangered species themselves. THERE ARE NO CRITICAL HABITATS AT THIS LOCATION. Migratory birds Certain birds are protected under the Migratory Bird Treaty Actl and the Bald and Golden Eagle Protection Acts. y Any person or organization who plans or conducts activities that may result in impacts to migratory birds, eagles, and their habitats should follow appropriate regulations and consider implementing appropriate conservation measures, as described below. V"o 1. The Migratory Birds Treaty Act of 1918. 4<\ 2. The Bald and Golden Eagle Protection Act of 1940. Additional information can be found using the following links: • Birds of Conservation Concern http://www.fws.gov/birds/management/managed-species/ birds-of-conservation-concern.pip • Measures for avoiding and minimizing impacts to birds http://www.fws.gov/birds/managemen /project -assessment -tools -and -guidance/ conservation-measures. php • Nationwide conservation measures for birds http://www.fws.gov/migratorybirds/pdf/management/nationwidestandardconservationmeasures.pdf The birds listed below are birds of particular concern either because they occur on the USFWS Birds of Conservation Concern (BCC) list or warrant special attention in your project location. To learn more about the levels of concern for birds on your list and how this list is generated, see the FAQ below. This is not a list of every bird you may find in this location, nor a guarantee that every bird on this list will be found in your project area. To see exact locations of where birders and the general public have sighted birds in and around your project area, visit the E -bird data mapping tool (Tip: enter your location, desired date range and a species on your list). For projects that occur off the Atlantic Coast, additional maps and models detailing the relative occurrence and abundance of bird species on your list are available. Links to additional information about Atlantic Coast birds, and other important information about your migratory bird list, including how to properly interpret and use your migratory bird report, can be found below. For guidance on when to schedule activities or implement avoidance and minimization measures to reduce impacts to migratory birds on your list, click on the PROBABILITY OF PRESENCE SUMMARY at the top of your list to see when these birds are most likely to be present and breeding in your project area. NAM E https:Hecos.fws.gov/ipac/location/XQ40LNE3VFDFRMATDGQJRZSSJU/resources 5/11 5/21/2019 BREEDING SEASON (IF A .............................................................................. BREEDING SEASON IS INDICATED ............................................................................................................ FOR A BIRD ON YOUR LIST, THE ...................................................................................................... BIRD MAY BREED IN YOUR ..................................................................................... PROJECT AREA SOMETIME WITHIN .............................................................................................................. THE TIMEFRAME SPECIFIED, .......................................................................................... WHICH IS AVERY LIBERAL .................................................................................. ESTIMATE OF THE DATES INSIDE ........................................................................................................ WHICH THE BIRD BREEDS .................................................................................. ACROSS ITS ENTIRE RANGE. ........................................................................................ "BREEDS ELSEWHERE" INDICATES ............................................................................................................. THAT THE BIRD DOES NOT LIKELY ............................................................................................................ BREED IN YOUR PROJECTAREA.) ........................................................................................................ American Kestrel Falco sparverius paulus IPaC: Explore Location This is a Bird of Conservation Concern (BCC) only in particular Bird Conservation Regions (BCRs) in the continental USA Breeds Apr 1 to Aug 31 4 , ,�4 Eastern Whip -poor -will Antrostomus vociferus Breeds May 1 to Aug 20 This is a Bird of Conservation Concern (BCC) throughout its range in the continental USA and Alaska. Prairie Warbler Dendroica discolor , Breeds May 1 to jul 31 This is a Bird of Conservation Concern (BCC) throughout Its range in the continental USA and Alaska. Prothonotary Warbler Protonotaria citrea Breeds Apr 1 to Jul 31 This is a Bird of Conservation Concern (BCC) throughout its range in the continental USA and Alaska. Red-headed Woodpecker Melanerpes erythrocephalus Breeds May 10 to Sep 10 This is a Bird of Conservation Concern (BCC) throughout its range in the continental USA and Alaska. Wood Thrush Hylocichla mustelina Breeds May 10 to Aug 31 This is a Bird of Conservation Concern (BCC) throughout its range in the continental USA and Alaska. Probability of Presence Summary The graphs below provide our best understanding of when birds of concern are most likely to be present in your project area. This information can be used to tailor and schedule your project activities to avoid or minimize impacts to birds. Please make sure you read and understand the FAQ "Proper Interpretation and Use of Your Migratory Bird Report" before using or attempting to interpret this report. Probability of Presence (■) https:Hecos.fws.gov/ipac/location/XQ40LNE3VFDFRMATDGQJRZSSJU/resources 6/11 5/21/2019 IPaC: Explore Location Each green bar represents the bird's relative probability of presence in the 10km grid cell(s) your project overlaps during a particular week of the year. (A year is represented as 12 4 -week months.) A taller bar indicates a higher probability of species presence. The survey effort (see below) can be used to establish a level of confidence in the presence score. One can have higher confidence in the presence score if the corresponding survey effort is also high. How is the probability of presence score calculated? The calculation is done in three steps: 1. The probability of presence for each week is calculated as the number of survey events in the week where the species was detected divided by the total number of survey events for that week. For example, if in week 12 there were 20 survey events and the Spotted Towhee was found in 5 of them, the probability of presence of the Spotted Towhee in week 12 is 0.25. 2. To properly present the pattern of presence across the year, the relative probability of presence is calculated. This is the probability of presence divided by the maximum probability of presence across all weeks. For example, imagine the probability of presence in week 20 for the Spotted Towhee is 0.05, and that the probability of presence at week 12 (0.25) is the maximum of any week of the year. The relative probability of presence on week 12 is 0.25/0.25 = 1; at week 20 it is 0.05/0.25 = 0.2. A ire, '�% 3. The relative probability of presence calculated in the previous step undergoes a statistical conversion so that all possible values fall between 0 and 10, inclusive. This is the probability of presence score. To see a bar's probability of presence score, simply hover your mouse cursor over the bar. Breeding Season( ) Yellow bars denote a very liberal estimate of the time -frame inside which the bird breeds across its entire range. If there are no yellow bars shown for a bird, it does not breed in your project area. Survey Effort (1) Vertical black lines superimposed on probability of presence bars indicate the number of surveys performed for that species in the 10km grid cell(s) your project area overlaps. The number of surveys is expressed as a range, for example, 33 to 64 surveys. To see a bar's survey effort range, simply hover your mouse cursor over the bar. No Data (—) A week is marked as having no data if there were no survey events for that week. Survey Timeframe Surveys from only the last 10 years are used in order to ensure delivery of currently relevant information. The exception to this is areas off the Atlantic coast, where bird returns are based on all years of available data, since data in these areas is currently much more sparse. SPECIES American Kestrel BCC- BCR (This is a .............................................. Bird of Conservation Concern (BCC) only in ..................................................... particular Bird ........... Conservation Regions (BCRs) in the ............................... continental USA) ......................................... probability of presence breeding season I survey effort — no data JAN FEB MAR APR MAY JUN JUL AUG SEP OCT NOV DEC tit +1++ ++++ 11111111111111111111 .t.. a. . . ...a . . .t https:Hecos.fws.gov/ipac/location/XQ40LNE3VFDFRMATDGQJRZSSJU/resources 7/11 5/21/2019 IPaC: Explore Location Eastern Whip- ++++ ++++ ++++ ++++ �� I I ++++ ++-I I I I ++ ++++ ++++ ++++ ++++ poor -will BCC Rangewide (CON) (This isa Bird of Conservation ....................................... Concern (BCC) throughout its range in the continental ........................................... USA and Alaska.) Prairie Warbler F+++ ++++ +*++ 0+1+ IITI 1 1 1 1 1 1 11 ++'N ++I+ ++++ ++++ ++++ BCC Rangewide (CON) (This is a Bird of Conservation ....................................... Concern (BCC) throughout its range in the continental ........................................... USA and Alaska.) ......................................... Prothonotary ++++ ++++ ++++ I I IIII IIII IIII- .... ++++ ++++ ++++ ++ Warbler BCC Rangewide (CON) (This is a Bird ................................................ of Conservation Concern (BCC) .................................. throughout its range ................................................. in the continental USA and Alaska.) Red-headed III ++++ ++++ ++++ Woodpecker BCC Rangewide (CON) (This is a Bird ................................................ of Conservation ......................... ....... Concern (BCC) throughout its range .................................................. in the continental USA and Alaska.) ........................... r Wood Thrush9 BCC Rangewide IIII I I i i+ i i +s+ I I I I' I I I I I I I I I I+ -(-+++ -F+++ -F++-I- -i-+ I (CON) (This is a Bird of Conservation Concern (BCC) throughout its range 0 in the continental USA an' l d Alas' ) ka. ....................as.......) %� k 1 Tell me more about conservation measures I can implement to avoid or minimize impacts to migratory birds. Nationwide Conservation Measures describes measures that can help avoid and minimize impacts to all birds at any location year round. Implementation of these measures is particularly important when birds are most likely to occur in the project area. When birds may be breeding in the area, identifying the locations of any active nests and avoiding their destruction is a very helpful impact minimization measure. To see when birds are most likely to occur and be breeding in your project area, view the Probability of Presence Summary. Additional measures and/or permits may be advisable depending on the type of activity you are conducting and the type of infrastructure or bird species present on your project site. What does IPaC use to generate the migratory birds potentially occurring in my specified location? The Migratory Bird Resource List is comprised of USFWS Birds of Conservation Concern (BCC) and other species that may warrant special attention in your project location. The migratory bird list generated for your project is derived from data provided by the Avian Knowledge Network .(AKN). The AKN data is based on a growing collection of survey, banding, and citizen science datasets and is queried and filtered to return a list of those birds reported as occurring in the 10km grid cell(s) which your project https:Hecos.fws.gov/ipac/location/XQ40LNE3VFDFRMATDGQJRZSSJU/resources 8/11 5/21/2019 IPaC: Explore Location intersects, and that have been identified as warranting special attention because they are a BCC species in that area, an eagle (Eagle Act requirements may apply), or a species that has a particular vulnerability to offshore activities or development. Again, the Migratory Bird Resource list includes only a subset of birds that may occur in your project area. It is not representative of all birds that may occur in your project area. To get a list of all birds potentially present in your project area, please visit the AKN Phenology Tool. What does IPaC use to generate the probability of presence graphs for the migratory birds potentially occurring in my specified location? The probability of presence graphs associated with your migratory bird list are based on data provided by the Avian Knowledge Network (AKN). This data is derived from a growing collection of survey, banding, and citizen science datasets . Probability of presence data is continuously being updated as new and better information becomes available. To learn more about how the probability of presence graphs are produced and how to interpret them, g6the Probability of Presence Summary and then click on the "Tell me about these graphs" link. 1� How do I know if a bird is breeding, wintering, migrating or present year-round in my project area? To see what part of a particular bird's range your project area falls within (i.e. breeding, wintering, migrating or year-round), you may refer to the following resources: The Cornell Lab of Ornithology All About Birds Bird Guide, or (if you are unsuccessful in locating the bird of interest there), the Cornell Lab of Ornithology Neotropical Birds guide. If a bird on your migratory bird species list has a breeding season associated with it, if that bird does occur in your project area, there may be nests present at some point within the timeframe specified. If "Breeds elsewhere" is indicated, then the bird likely does not breed in your project area. What are the levels of concern for migratory birds? ) \ 14W Migratory birds delivered through IPaC fall into the following distinct categories of concern: 1. "BCC Rangewide" birds are Birds of Conservation Concern (BCC) that are of concern throughout their range anywhere within the USA (including Hawaii, the Pacific Islands, Puerto Rico, and the Virgin Islands); 2. "BCC - BCR" birds are BCCs that are of concern only in particular Bird Conservation Regions (BCRs) in the continental USA; and 3. "Non -BCC - Vulnerable" birds are not BCC species in your project area, but appear on your list either because of the Eagle Act requirements (for eagles) or (for non -eagles) potential susceptibilities in offshore areas from certain types of development or activities (e.g. offshore energy development or longline fishing). Although it is important to try to avoid and minimize impacts to all birds, efforts should be made, in particular, to avoid and minimize impacts to the birds on this list, especially eagles and BCC species of rangewide concern. For more information on conservation measures you can implement to help avoid and minimize migratory bird impacts and requirements for eagles, please see the FAQs for these topics. Details about birds that are potentially affected by offshore projects For additional details about the relative occurrence and abundance of both individual bird species and groups of bird species within your project area off the Atlantic Coast, please visit the Northeast Ocean Data Portal. The Portal also offers data and information about other taxa besides birds that may be helpful to you in your project review. Alternately, you may download the bird model results files underlying the portal maps through the NOAA NCCOS Integrative Statistical Modeling and Predictive Mapping of Marine Bird Distributions and Abundance on the Atlantic Outer Continental Shelf project webpage. https:Hecos.fws.gov/ipac/location/XQ40LNE3VFDFRMATDGQJRZSSJU/resources 9/11 5/21/2019 IPaC: Explore Location Bird tracking data can also provide additional details about occurrence and habitat use throughout the year, including migration. Models relying on survey data may not include this information. For additional information on marine bird tracking data, see the Diving Bird Study and the nanotag studies or contact Caleb Spiegel or Pam Loring. What if I have eagles on my list? If your project has the potential to disturb or kill eagles, you may need to obtain a permit to avoid violating the Eagle Act should such impacts occur. Proper Interpretation and Use of Your Migratory Bird Report The migratory bird list generated is not a list of all birds in your project area, only a subset of birds of priority concern. To learn more about how your list is generated, and see options for identifying what other birds may be in your project area, please see the FAQ "What does IPaC use to generate the migratory birds potentially occurring in my specified location". Please be aware this report provides the "probability of presence" of birds within the 10 km grid cell(s) that overlap your project; not your exact project footprint. On the graphs provided, please also look carefully at the survey effort (indicated by the black vertical bar) and for the existence of the "no data" indicator (a red horizontal bar). A high survey effort is the key component. If the survey effort is high, then the probability of presence score can be viewed as more dependable. In contrast, a low survey effort bar or no data bar means a lack of data and, therefore, a lack of certainty about presence of the species. This list is not perfect; it is simply a starting point for identifying what birds of concern have the potential to be in your project area, when they might be there, and if they might be breeding (which means nests might be present). The list helps you know what to look for to confirm presence, and helps guide you in knowing when to implement conservation measures to avoid or minimize potential impacts from your project activities, should presence be confirmed. To learn more about conservation measures, visit the FAQ "Tell me about conservation measures I can implement to avoid or minimize impacts to migratory birds" at the bottom of your migratory bird trust resources page. Facilities e 0�. National Wildlife Refuge lands Any activity proposed on lands managed by the National Wildlife Refuge system must undergo a 'Compatibility Determination' conducted by the Refuge. Please contact the individual Refuges to discuss any questions or concerns. THERE ARE NO REFUGE LANDS AT THIS LOCATION. Fish hatcheries THERE ARE NO FISH HATCHERIES AT THIS LOCATION. Wetlands in the National Wetlands Inventory https:Hecos.fws.gov/ipac/location/XQ40LNE3VFDFRMATDGQJRZSSJU/resources 10/11 5/21/2019 IPaC: Explore Location Impacts to NWI wetlands and other aquatic habitats may be subject to regulation under Section 404 of the Clean Water Act, or other State/Federal statutes. For more information please contact the Regulatory Program of the local U.S. Army Corps of Engineers District. Please note that the NWI data being shown may be out of date. We are currently working to update our NWI data set. We recommend you verify these results with a site visit to determine the actual extent of wetlands on site. This location overlaps the following wetlands: RIVERINE R2UBHx R5UBH A full description for each wetland code can be found at the National Wetlands Inventory website Data limitations The Service's objective of mapping wetlands and deepwater habitats is to produce reconnaissance level information on the location, type and size of these resources. The maps are prepared from the analysis of high altitude imagery. Wetlands are identified based on vegetation, visible hydrology and geography. A margin of error is inherent in the use of imagery; thus, detailed on -the -ground inspection of any particular site may result in revision of the wetland boundaries or classification established through image analysis. The accuracy of image interpretation depends on the quality of the imagery, the experience of the image analysts, the amount and quality of the collateral data and the amount of ground truth verification work conducted. Metadata should be consulted to determine the date of the source imagery used and any mapping problems. Wetlands or other mapped features may have changed since the date of the imagery or field work. There may be occasional differences in polygon boundaries or classifications between the information depicted on the map and the actual conditions on site. Data exclusions Certain wetland habitats are excluded from the National mapping program because of the limitations of aerial imagery as the primary data source used to detect wetlands. These habitats include seagrasses or submerged aquatic vegetation that are found in the intertidal and subtidal zones of estuaries and nearshore coastal waters. Some deepwater reef communities (coral or tuberficid worm reefs) have also been excluded from the inventory. These habitats, because of their depth, go undetected by aerial imagery. Data precautions Federal, state, and local regulatory agencies with jurisdiction over wetlands may define and describe wetlands in a different manner than that used in this inventory. There is no attempt, in either the design or products of this inventory, to define the limits of proprietary jurisdiction of any Federal, state, or local government or to establish the geographical scope of the regulatory programs of government agencies. Persons intending to engage in activities involving modifications within or adjacent to wetland areas should seek the advice of appropriate federal, state, or local agencies concerning specified agency regulatory programs and proprietary jurisdictions that may affect such activities. https:Hecos.fws.gov/ipac/location/XQ40LNE3VFDFRMATDGQJRZSSJU/resources 11/11 SITE CONSTRUCTION PLANS FOR: CARGILL NORTH -SOUTH ROADWAY AND TRUCK QUEUE LOT OWNER CARGILL, INC FAYETTEVI LLE PLANT 1579 UNDERWOOD ROAD FAYETTEVILLE, NC 28312 PROJECT CONTACT: ANDY SEIFERT ANDY_SEIFERT@CARGILL.COM SHEET INDEX 1 COVER SHEET 2 OVERALL PLAN 3 WETLAND IMPACT MAP 4 PLAN / PROFILE N -S ROADWAY STA 100+00 TO STA 114+00 5 PLAN / PROFILE N -S ROADWAY STA 114+00 TO 118+04 UTILITY PLAN FOR NEW RESTROOM 6 PLAN / PROFILE TRUCK QUEUE DRIVE STA 200+00 TO STA 214+04 7 GRADING PLAN - NORTHERN PORTION 8 GRADING PLAN - SOUTHERN PORTION 9 EROSION CONTROL PLAN 10 EROSION CONTROL NOTES 11 ROADWAY SECTIONS / TRUCK QUEUE TYPICAL DIMENSIONS / PAVEMENT DESIGN 12 NCDOT STANDARD DRAWINGS 13 NCDOT STANDARD DRAWINGS 14 CONSTRUCTION DETAILS 15 CONSTRUCTION DETAILS North �arvlina www.nc8l�.ykg� 1579 UNDERWOOD ROAD FAYETTEVILLE, NORTH CAROLINA Q� a ° 99 ROAD Q > �0 W V H U V�P� PEPPERCHASE Q� r1 GS+� Car ill W���R° vNpER W U W W 5 v m � i� LOCATION MAP Z 0 SCALE: 1" = 1,000' APRIL 2, 2019 J THOMAS ENGINEERING, INC. CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 Sanford, North Carolina 27330 (919) 777-6010 phone www.jthomasengineering.com license no. C-3389 LEGEND OF ABBREVIATIONS BC BACK OF CURB LP LIGHT POLE OR LOW POINT CB CATCH BASIN N/F NOW OR FORMERLY CO CLEANOUT P. E. PERMANENT EASEMENT CPP CORRUGATED PLASTIC PIPE PVC POLYVINYL CHLORIDE PIPE CMP CORRUGATED METAL PIPE PP POWER POLE C & G CURB & GUTTER RCP REINFORCED CONCRETE PIPE DI DROP INLET RRX RAILROAD CROSSING DIP DUCTILE IRON PIPE R / W RIGHT OF WAY EG EDGE OF GRAVEL SS OR SAN SANITARY SEWER EP EDGE OF PAVEMENT SSMH SANITARY SEWER MANHOLE EB ELECTRICAL BOX TC TOP OF CURB EV ELECTRICAL VAULT T.C.E. TEMPORARY CONSTRUCTION EASEMENT EL ELEVATION TMH TELECOMMUNICATION MANHOLE ECM EXISTING CONCRETE MONUMENT TF TRANSFORMER EIP EXISTING IRON PIN TP TELEPHONE PEDESTAL EPK EXISTING PK NAIL TS TOP OF SIDEWALK FO FIBER OPTIC TSP TRAFFIC SIGNAL POLE FOM FIBER OPTIC MARKER TW TOP OF WALL FOB FIBER OPTIC BOX UC UNDERGROUND COMMUNICATIONS FH FIRE HYDRANT VB VALVE BOX GUY GUY WIRE WM WATER METER HP HIGH POINT WV WATER VALVE INV INVERT WCR WHEELCHAIR RAMP JB JUNCTION BOX (STORM) YI YARD INLET IPS IRON PIN SET LEGEND OF SYMBOLS AND LINES PROPERTY CORNER UTILITY POLE LIGHT POLE TELEPHONE PEDESTAL GATE VALVE WATER METER FIRE HYDRANT SEWER MANHOLE SEWER CLEANOUT CATCH BASIN YARD INLET/ DROP INLET STORM JUNCTION BOX / MH HANDICAP SPOT ELEVATION SIGN ALIGNMENT CHANGE PVI DELTA O 0 e ®WM • 0 x 100.00 0 SIGN O A A NOTE: EXISTING FEATURES ARE SHOWN SHADED. RIGHT OF WAY PROPERTY LINE (ADJACENT) BUILDING SETBACK LINE CENTER LINE LIMIT OF DISTURBANCE UNDERGROUND ELECTRIC LINE OVERHEAD ELECTRIC LINE SANITARY SEWER (GRAVITY) SANITARY SEWER (FORCEMAIN) STORM DRAIN PIPE WATER LINE GAS LINE COMMUNICATIONS LINE FIBER OPTIC LINE FENCE LINE TREE LINE DRAINAGE FLOW CURB AND GUTTER CURB AND GUTTER (SPILL) CONCRETE PAVEMENT ASPHALT PAVEMENT GRAVELSURFACE AGENCY REVIEW ONLY project no. 18-010 UE OHE SAN FM GAS FO ir NOTES 1. THIS PROJECT IS FOR CONSTRUCTION OF A NEW ENTRANCE ROADWAY I \ \ (NORTH -SOUTH ROADWAY) INTO THE CARGILL FAYETTEVILL PLANT AND A NEW TRUCK QUEUE PAVED LOT. THE N -S ROADWAY WILL HAVE CONNECTION TO \ OILSEED ROAD (SR 2663) AND WILL REQUIRE A DRIVEWAY PERMIT FROM NCDOT. CONTRACTOR TO COORDINATE PLANNED PLANT EQUIPMENT, SUCH AS PROBING \ I STATION, WITH THE CONSTRUCTION OF THIS PROJECT. 2• EXISTING 'BASE' INFORMATION SHOWN ON THESE CONSTRUCTION PLANS IS NORTH I N/F DERIVED FROM SURVEY INFORMATION PROVIDED BY CARGILL. THIS 'BASE' JOHN B SMITH, JR, I \ INFORMATION SHOWN REPRESENTS A COLLABORATION OF SURVEYS FROM CURTIS B & SU ELLEN S CARTER VARIOUS DATES. SURVEYS ARE ON NAD 83 AND NAVD 88 DATUMS. FOR CLARITY, \ I TRUSTEES \ NOT ALL SURVEY INFORMATION PROVIDED BY CARGILL IS SHOWN ON THESE 0448-67-8942 PLANS. THE CONTRACTOR IS URGED TO REVIEW ALL AVAILABLE SURVEY DATA x PROVIDED BY CARGILL PRIOR TO BEGINNING WORK. NO FIELD SURVEY HAS BEEN f CONDUCTED BY J THOMAS ENGINEERING FOR THE PREPARATION OF THESE I\ CONSTRUCTION PLANS. — 3. PROPOSED LIMIT OF DISTURBANCE IS GREATER THAN ONE ACRE. A NCDEQ \ 3 CU \ 1 \ EROSION CONTROL PERMIT IS REQUIRED PRIOR TO BEGINNING LAND x STER AVE x f \ DISTURBANCE. SR 1723 — _ �� \ o — 6 0' R O 1 \ \ 4. JURISDICTIONAL WATERS TO BE IMPACTED BY THIS PROJECT. A US ARMY CORPS W CD X t OF ENGINEERS 404 PERMIT AND NCDEQ 401 CERTIFICATION REQUIRED PRIOR TO I O ANY IMPACTS TO THESE WATERS. — T o 5. DEMOLITIONED ITEMS TO BE DISPOSED IN ACCORDANCE WITH LOCAL I REQUIREMENTS. \ \ 6. CONTRACTOR SHALL NOT REMOVE EXISTING TREES / LANDSCAPING UNLESS A O CONFLICT WITH NEW CONSTRUCTION AND APPROVED BY THE OWNER. m ---- O \ 7. OWNER RESPONSIBLE FOR OBTAINING TEMPORARY CONSTRUCTION EASEMENT O f (OR AGREEMENT) FROM ADJACENT PROPERTY OWNER(S) FOR ANY WORK THAT IN/F i /-------- \\ MAY BE REQUIRED ON PRIVATE / PUBLIC PROPERTY(S). JOHN B SMITH, JR, / \\ O 8. UNDERGROUND UTILITIES SHOWN ON THESE PLANS ARE APPROXIMATE. CURTIS B & SUELLEN S CARTER x \ ADDITIONAL UTILITIES MAY BE PRESENT WITHIN THE WORK AREA. CONTRACTOR I TRUSTEES I \ TO LOCATE ALL UTILITIES PRIOR TO BEGINNING WORK. I 0448-67-8942 II 9. CONTRACTOR TO CONTACT POWER COMPANY WHEN EXCAVATING WITHIN 15' OF THEIR POWER POLES. ° HARMON /L KIVETT — \ \ 10. CONTRACTOR TO REVIEW SITE ACCESS, MATERIAL STORAGE, AND STAGING 0448-68-8507 �~�� 1� \ \ AREAS WITH OWNER PRIOR TO BEGINNING WORK SO TO MINIMIZE INTERFERENCE WITH PLANT OPERATIONS. 0 \ \ 11. CONTRACTOR TO VERIFY QUANTITIES SHOWN ON THESE PLANS WITH ACTUAL FIELD CONDITIONS. NOTIFY THE ENGINEER OF ANY DISCREPANCIES FOUND. 12. SITE LIGHTING DESIGN BY OTHERS. y \ _f — J _ _ _ _ ` \ 13. STRUCTURAL ENGINEERING FOR ANY PROPOSED STRUCTURES BY OTHERS. 00 �S 14. CONTRACTOR SHALL SEED AND MULCH ALL DISTURBED AREAS (EXCEPT AREAS —— SPECIFIED TO BE PLANTED WITH SOD) UPON COMPLETION OF CONSTRUCTION. //~^f EXISTING \ SPECIES SHALL BE SIMILAR TO EXISTING GRASS ON-SITE. DUMPSTER �` • �f 15. POURED IN PLACE CONCRETE SHALL HAVE MINIMUM COMPRESSIVE STRENGTH OF / I W I ` —I_ CONNECT TO EXISTING 4,000 PSI, UNLESS SPECIFIED OTHERWISE. LLJI� `�� `�\/� \ I ( UNDERWOOD ROAD / _ ��� i / `/ —y,` Jr_ �Jl �O� _�I (PRIVATE) \ 16. PAVEMENT MARKINGS ARE OWNER OPTION. OOo f \ J - \ TRUCK SCALE / moo < O\ ama STA 118+04 115+00 --- 1 \ C/L EX UNDERWOOD RD / SEE DETAIL B-10 ON SHEET 10 - _ -- I / FOR ROADWAY TYPICAL SECTION J/ AT THIS LOCATIONING Y EXIST _ a MOVED) EXISTING PLANT \ \ / GRAVEL EXISTING \ o LOT EMPLOYEE PARKING STA 106+00 = �� STA 200+00 iI X / — SEE DETAIL A-10 ON SHEET 10 A-10 FOR ROADWAY TYPICAL SECTION \ \ AT THIS LOCATION + X NEW DRIVEWAY TO X r x� x x EMPLOYEE PARKING _ 10000 PLANT EXIT LANE ^ ^ ^ '� x x x LANDSCAPE ISLAND MEAL TRUCK LOT a / + \ CONNECT TO EXISTING �` � �, �` X x x (20 SPACES) EXISTING OFFICE MAINTENANCE O OILSEED ROAD �► PLANT ENTRANCE LANE �► ^ eeeee`' \ (NCDOT) I MEAL TRUCK LANE _ 0 � xx xX x x Xx xx X BUILDING x t BEAN TRUCK LOT (60 SPACES) � BEAN TRUCK LANE -----_-- D-10 \ xxxx \ \ \ \ � >` � r r � � NEW RESTROOM x� x� x x �x tX X X�� (BY OTHERS) xX 5 A-10 \\ ❑ STA 214+03 - � �".: C/L EX UNDERWOOD RD 210+ \\ > C4a y y Y y v PROBE ISLAND —11o.� Y � 20500 V v I I ---+-- --I --- � �► � � \ x\\ --------_- — I TRUCK QUEUE DRIVE �► \ - i - -�- y -_-- D-10 �� - CONNECTTOEXISTING \ SEE DETAIL E-10 ON SHEET 10 FOR �� __ ----- UNDERWOOD ROAD \ TYPICAL DIMENSIONS OF TRUCK --- ----- I \ (PRIVATE) QUEUE SPACES AND DRIVE AISLE I I \ I GRAVEL LOT I SEE DETAIL D-10 ON PROBE OPERATOR BOOTH C-10 JURISDICTIONAL WATERS (BY OTHERS) SHEET 10 FOR ROADWAY L I -- J TYPICAL SECTION AT \ cl o EXISTING DRIVEWAY TURNOUT SEE DETAIL C-10 ON SHEET 10 --- THIS LOCATION ° p�000 (TO BE REMOVED) FOR ROADWAY TYPICAL SECTION k \ — o-< 3 "os \ AT THIS LOCATION GRADER'S TRAILER (BY OTHERS)00 \ \ \ . Q Y x� • box .� CARGILL INCORPORATED \ a oo ¢o 0448-68-0915 1 \ EXISTING PLANT W I \ I °, �\ ° LSC_ I --Aa I �, 1 X00 � 1 o A\ N/F x GILBERT SMITH FAMILY, LLC 0448-68-0414 0 o X� I � x X X o o �I -- 10' FUTURE ROAD R/W_.__.__. __._--- - - --- a " - -- x x X� - -X X x X X X --- - - X TO MIDDLE ROAD / X _—._--- _.X -- --- X X X X X X —� — — — — — — — — — — — — — — — BUILT UPON AREA SUMMARY PROPERTY SF AC 2,651,500 60.87 JURISDICTIONAL WATERS LOCATED ON THE PROPERTY 115,000 2.64 EXISTING B.U.A. 871,170 20.00 PROJECT AREA (PROPERTY MINUS JD WATERS AND EX. B.U.A.) (CALCULATION PER 15A NCAC 02H .1003(1)(b)) 1,665,330 38.23 PROPOSED B.U.A. 385,870 8.86 % B.U.A. (PROPOSED B.U.A. DIVIDED BY PROJECT AREA) 23.2% 100 0 50 100 200 SCALE: 1" = 100' J THOMAS ENGINEERING, INC. CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 Sanford, North Carolina 27330 (919)777-6010 phone www.jthomasengineering.com license no. C-3389 PROFESSIONAL ENGINEER'S SEAL 0 J a W Z 3 W J 0 a � V V o� Z z J W Q J p J0 a Z LV Z W Jw _ U) H Q % ZJ V o �0 LU Q V W LV O � > � ap O LL z � J O w N 1 V 0 z REVISIONS AGENCY REVIEW ONLY Scale: Drawn by: SEE SCALE BAR JRT Sheet: Designed by: IRT Reviewed by: 2 of 15 1 R Project Number: Date: 18-010 02 APR 2019 rn 0 N N DITCH 'A' m (SEE GRADING PLAN) I ROCK OUTLET PROTECTION (NCDOT STD DWG 876.02) (ni CONC. HEADWALL o (NCDOT STD DWG 838.01) + STA 115+87, 52' L INV EL OUT = 85.5 w a LU N U,) a S08° 00'37"E U 8" 393.63' 1STORM 1 (PPER 0 115+00 d +00 --- - C/L --- A N-5 ROADW '-n — LU Z � J U m G I II II II II II I I I 110 105 100 95 .N 85 75 70 Ln N N 1 1 �a I ROCK OUTLET i PROTECTION I o� (NCDOT STD DWG 876.02) J �z C. HEADWALL / (NCDOT STD DWG 838.01 — 0, STA 117+04,-42' L INV EL OUT = 85.5---/,-- SHOULDER 5.5 ,SHOULDER `_ \ +00 - 18" S RM TRUCK SCALEEP I'llo — SHOULDER ISIDE DITCH o NOTES 1. SEE SHEETS 7 AND 8 FOR MORE INFORMATION ON GRADING. 2. PAVEMENT MARKINGS SHOWN ON THESE PLANS ARE OWNER OPTION. I CONNECTION TO UNDERWOOD ROAD (PRIVATE) STA: 117+90.1 OFFSET: 0.0' L STOP BAR AND no STOP SIGN 0 s 5 VERTICAL SCALE: 1" = 5- 0 50 0 25 50 100 HORIZONTAL SCALE: 1" = 50' CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 CONC. HEADWALL 27330 Q (NCDOT STD DWG 838.01) R1 STA 117+04, 26' R INV EL IN = 85.9 GG PROFESSIONAL ENGINEER'S SEAL � O REMOVE EXISTING Q DRIVEWAY REMOVE EXISTING X �O 18" DRAINAGE PIPE AND RIP RAP \n Q LOW W Z LOW POINT EL= 88.40' PVI STA: 117+30.00 PVI EL= 88.10' K= 41.56 100.00' VC O o a °C + \U L � O V V ,--1 PROPOSED CENTERLINE GRADE EXISTING GROUND m Qc~n oc Z� �w � JW 5 VERTICAL SCALE: 1" = 5- 0 50 0 25 50 100 HORIZONTAL SCALE: 1" = 50' 114+00 115+00 116+00 117+00 110 105 100 95 90 85 WATER MAIN 80 75 70 118+00 118+50 'JNINNtld `JNINatld � V �wNavd � V Nw, 0 o w Nw, O o 4 w w w NN www ° CONNECT TO EXISTING DOMESTIC SERVICE (2" PVC) ° SAWCUT AND REPAIR CONCRETE WITH APPROPRIATE FITTING SIDEWALK AS REQUIRED ., CROSS EXISTING 8" FIRE PROTECTION LINE e EXISTING OFFICE / MAINTENANCE BUILDING EX. CO INV EL = 86.6 EXTEND EXISTING SANITARY a gPN EXTEND EXISTING SEWER SERVICE (4" PVC) o DOMESTIC WATER SERVICE — J (1" PE TUBING) NEW CLEANOUT — INV EL = 87.0 RELOCATE EXISTING UTILITIES WHERE CONFLICTS WITH NEW ° CONSTRUCTION ° SPN q.° SAN J. — 1 03 W ❑w 1 1 NEW RESTROOM O� (12' X 24') (FIFE 91.5) W W (BY OTHERS) �- W 212+00 21 211+00 TRUCK QUEUE DRIVE 0+ �. UTILITY PLAN FOR NEW RESTROOM 30 0 15 30 60 SCALE: 1" = 30' J THOMAS ENGINEERING, INC. CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 Sanford, North Carolina 27330 (919) 777-6010 phone www.jthomasengineering.com license no. C-3389 PROFESSIONAL ENGINEER'S SEAL O POINT STA: 117+32.31 a LOW W Z LOW POINT EL= 88.40' PVI STA: 117+30.00 PVI EL= 88.10' K= 41.56 100.00' VC O o a °C + o Q � O V V ,--1 PROPOSED CENTERLINE GRADE EXISTING GROUND 3 ~= Qc~n oc Z� �w � JW U) oa �° EXISTING 16" (APPROXIMAT SIDE DITCH (R) a0 J Z Z~W W Q J J - SIDE DITCH (R) L = 110' L = 130' D=1' SS = 6:1 SIDE DITCH (R) LINER: GRASS L = 60' D = 1' YI 01 NCDOT STD DWG 840.04 SS = 6:1 5+39;34' RT LINER: GRASS THROAT EL = 88.0 INV OUT EL = 86.0 SIDE DITCH (R) L = 115' 100 LF - 18" RCP @ 0.5% (YI 01 - OUTLET) D = 1' SS = 6:1 CONC. HEADWALL LINER: GRASS EXISTING GROUND PROPOSED CENTERLINE GRADE SS = 6:1 LINER: GRASS A68 LF - 18" RCP (CLASS IV) STA 117+04 @ 0.6% oC z�LL (� �O aQQ co 00 CD 06 CD co co M W C 00 C � o� rr n co 00 600O0 aD � r. ,M W CD � rn 00 CD � 0 W O0 � 0 0o 114+00 115+00 116+00 117+00 110 105 100 95 90 85 WATER MAIN 80 75 70 118+00 118+50 'JNINNtld `JNINatld � V �wNavd � V Nw, 0 o w Nw, O o 4 w w w NN www ° CONNECT TO EXISTING DOMESTIC SERVICE (2" PVC) ° SAWCUT AND REPAIR CONCRETE WITH APPROPRIATE FITTING SIDEWALK AS REQUIRED ., CROSS EXISTING 8" FIRE PROTECTION LINE e EXISTING OFFICE / MAINTENANCE BUILDING EX. CO INV EL = 86.6 EXTEND EXISTING SANITARY a gPN EXTEND EXISTING SEWER SERVICE (4" PVC) o DOMESTIC WATER SERVICE — J (1" PE TUBING) NEW CLEANOUT — INV EL = 87.0 RELOCATE EXISTING UTILITIES WHERE CONFLICTS WITH NEW ° CONSTRUCTION ° SPN q.° SAN J. — 1 03 W ❑w 1 1 NEW RESTROOM O� (12' X 24') (FIFE 91.5) W W (BY OTHERS) �- W 212+00 21 211+00 TRUCK QUEUE DRIVE 0+ �. UTILITY PLAN FOR NEW RESTROOM 30 0 15 30 60 SCALE: 1" = 30' J THOMAS ENGINEERING, INC. CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 Sanford, North Carolina 27330 (919) 777-6010 phone www.jthomasengineering.com license no. C-3389 PROFESSIONAL ENGINEER'S SEAL O J a W Z W J O o a °C + o Q � O V V ,--1 0� 3 ~= Qc~n oc Z� �w � JW U) LU J o _JO a0 J Z Z~W W Q J J � o z Q >~ a + \�O oC z�LL (� �O aQQ Z LL 2 Q < Q H W (n Z) V oC O Z REVISIONS AGENCY REVIEW ONLY Scale: Drawn by: SEE SCALE BAR JRT Sheet: Designed by: IRT 5 15 Reviewed by: 1 R of Project Number: Date: 18-010 02 APR 2019 N -S ROADWAY SEE SHEETS 4 AND 5 ROADWAY INTERSECTION STA 106+00 = STA 200+00 I EX. EMP OY E A KI G \ \ I ' 09ko° "RO X xI Z z koo ;- � II Q z .0l oda w z a x 'n +0° / ^ ^ ^ ^ xX o 0 o O X ,( < 4 106 p0 O X X X X �. f ro _ ^ X �. X Q \ ^ ^ X^ XX X XX f i< x < EXISTING < < < LOADING/UNLOADING LL ,le" < � � � PAD �' • � � � 2ook9g,2 x > X EXISTING OBUIL I G FICE MAINTENANCE „ . DI 03 °: 4000\ S72° 40' 44 W PC 5' P x x X X %< v 98.21' N ^ x �` X X X X X CONNECT NEW SIDEWALK x x X TO EXISTING SIDEWALK - — o X `< YI 02 DRAINAGE FLOW 00x (SEE GRADING PLAN) END CONCRETE GUTTER 0 AT EXISTING SIDEWALK X X X X X X X O� X >. X X .� ti N X X %< X �< `< TAPER TOP OFC &G w d X o X 18" STORM n NEW RESTROOM (SEE GRADING PLAN) z N. �� (BY OTHERS) - CONNECTION TO TAPER TOP OFC&G/ �- Qsrs x N U) > SIDEWALK % 6 CONCRETE SIpEWALK w UNDERWOOD ROAD (PRIVATE) ?x ~a % y 2 - 6" 'SPILL' C & G ;n 214+0 3 > � y > Y y 1076.74' 2230 - TRENCH DRAIN �'� 211+00 C/L �� 213+00 X i 212+00 ; STA: 213+90.2 y Y Y y v `� v 209+00 SEE NOTE #3 210 0 a X OFFSET: 0.0' i Y v 207+00 208+00 - - - - - - - __ -( i --� �� 20:1 EP TAPE w 206+00 �� EP a STOP BAR AND 205+00 - - - - ` EP TAPER � STOP SIGN SHOULDER 203+Op 20+ 00 C/L i �,� + TRUCK QUEUE RIVE _ _ _ _ _ _ _ CONCRETE ISLAND _ f - - 8:1 EP TAPER - �� 5' \ - - - - - - - - - - (FOR PROBE I STA: 211+87.8 STA: 213+05.1 �� \ PC STA: 200+98.21 � � EP _ � O PT STA: 203+26.73 � _ SHOULDER - - - - - - OFFSET: 15.0' R R=175.00' O ------ - --- I L = 228.52' __-_______----- II y — STA: 207+27.8 STA: 210+27.8 OFFSET: 15.0' R \ ', T = 133.84' OFFSET: 10.0' R OFFSET: 35.0' R I = 74° 49' 10 --- TA. 209+27.8 I STA: 21317.0' _ OFFSET: 35.0' R I PROBE OPERATOR OFFSET: 17.0' R —� -� I \ BOOTH (BY OTHERS _7> 7> GRADER'S TRAILER WATERS (BY OTHERS) ) 3- JURISDICTIONA� I �\\_--_-----� � DRAINAGE FLOW L - 0 18" STORM (SEE GRADING PLAN) DITCH 'B' (SEE GRADING PLAN) CONC. HEADWALL (NCDOT STD DWG 838.01) STA 210+18, 99' R \ INV EL OUT = 85.5 110 105 100 0V1 85 :1 75 C C C NOTES 1. SEE SHEETS 7 AND 8 FOR MORE INFORMATION ON GRADING. 2. PAVEMENT MARKINGS SHOWN ON THESE PLANS ARE OWNER OPTION. 3. SEE DETAIL D-14 FOR TRENCH DRAIN. GRATE TO BE NEENAH TYPE R -4999 -CX, TYPE 'C' GRATE, OR EQUAL. SLOPE INVERT OF CONCRETE TROUGH @ 2% TOWARD OUTLET PIPE. 5 VERTICAL SCALE: 1" = 5' NORTH 0 50 0 25 50 100 HORIZONTAL SCALE: 1" = 50' 1� NM V M� 00 0 nf� 0 ON V �O NO O 000 O O 0 �CD Nit• r �� nN r r 0M NM r N N N O N V OCO N X00 M �O M O M ff, CIO M �N l Mr" 00 l 00 It� O W Q O N O O O O O O O OO 0 O O O M O 600 Oc O 0 O OO O00 0 0 0O 00 O0 0 Cn 0 O ON O OO 00 O O O C5 0) 00 O 00 O 00) O 200+00 201+00 202+00 203+00 204+00 205+00 206+00 207+00 208+00 209+00 210+00 211+00 212+00 213+00 110 105 100 95 85 :1 75 70 N C)) 214+00 J THOMAS ENGINEERING, INC. CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 Sanford, North Carolina 27330 (919) 777-6010 phone www.jthomasengineering.com license no. C-3389 PROFESSIONAL ENGINEER'S SEAL O J W Q O W O N a < V V 3 O ~ J LU 0 Jp a0 _J+ J Z LL 0 WZ Q J N J� i2Q LU Q � � zw V o �o J> QLUV Ill Q 0 _ LL J LU LU D p W a N m ' � U V ~ O Z REVISIONS AGENCY REVIEW ONLY Scale: Drawn by: SEE SCALE BAR JRT Sheet: Designed by: IRT 6 15 Reviewed by: 1 R of Project Number: Date: 18-010 02 APR 2019 i C-) 1 U� \ I lr l �1 i �Q o a 85 �w a \ r a —qqq 6ft�k�is � 1 J THOMAS ENGINEERING, INC. z \ CIVIL ENGINEERING & PLANNING aQ �w w< �Q 143 Charlotte Avenue, Suite 104 Sanford, North Carolina 27330 (919) 777-6010 phone www.jthomasengineering.com / license no. C-3389 109-11 1 ID � 94 108+00 ' 400V X X x 93 106+00 93 ^ ^ ^ ^ X X x x x 6 92 >. �` X X X � X c+ X x X x X •< `� 91.5 0 0- 90 90 x x x x x x \ X X X X •� � _ x \ \ \ \moo? N oo oo it � o 0 95.3 111+00 No HP a 95 / i PROFESSIONAL ENGINEER'S SEAL 1 n ^ x x O < 94 W Q 3 x W J ^ z x x O O X W I -I Q � 9 V V O 3 2 x x ZH z x \ x x x J p a0 = J Z uw Z Q J > oc x x Q > ~ z x ,� x W Z SEE SHEET 8 FOR CONTINUATION Q W OF GRADING PLAN TO THE SOUTH 90 O Q i2 x z J 0 i - O , m ,i > x y v v y v v i u 206+00 207 U 205+00 _ _ _ li ----------- O 203+00 204+00 — 0 90.0 g0 LP _ Z 88 87 86 ----------- REVISIONS 87 R _ DITCH EXCAVATE EXISTING JURISDICTIONAL DITCH FOR BW = 5' IMPROVED SITE DRAINAGE AND STABLE SIDE SS = 4:1 SLOPES (USACE AND NCDEQ PERMIT REQUIRED) LINER: PER WETLAND RESTORATION PLAN 90 AGENCY REVIEW ONLY NORTH Scale: Drawn by: SEE SCALE BAR JRT Sheet: Designed by: IRT Reviewed by: 40 0 20 40 80 7 of 15 1 R Project Number: Date: SCALE: 1" = 40' 18-010 02 APR 2019 SIDE DITCH (SEE SHEET 4) 00� � CO o N 6, 92 91 90 89 11 1110 88 CO 89 0 9ti 104+00 O 0 EPo 102+00 103+00 ~ D 89.2 LP 9z \ 0 9 0 82N 9 88. EP 0)XB7.s 0� 00 I$9 90.2 0 I G 8j 88 REMOVE EXISTING ROADWAY STUBOUT I I RESTORE ROADSIDE SHOULDER AND SIDE DITCH nJL N m 1 I I 0 � I I I I \ r a —qqq 6ft�k�is � 1 J THOMAS ENGINEERING, INC. z \ CIVIL ENGINEERING & PLANNING aQ �w w< �Q 143 Charlotte Avenue, Suite 104 Sanford, North Carolina 27330 (919) 777-6010 phone www.jthomasengineering.com / license no. C-3389 109-11 1 ID � 94 108+00 ' 400V X X x 93 106+00 93 ^ ^ ^ ^ X X x x x 6 92 >. �` X X X � X c+ X x X x X •< `� 91.5 0 0- 90 90 x x x x x x \ X X X X •� � _ x \ \ \ \moo? N oo oo it � o 0 95.3 111+00 No HP a 95 / i PROFESSIONAL ENGINEER'S SEAL 1 n ^ x x O < 94 W Q 3 x W J ^ z x x O O X W I -I Q � 9 V V O 3 2 x x ZH z x \ x x x J p a0 = J Z uw Z Q J > oc x x Q > ~ z x ,� x W Z SEE SHEET 8 FOR CONTINUATION Q W OF GRADING PLAN TO THE SOUTH 90 O Q i2 x z J 0 i - O , m ,i > x y v v y v v i u 206+00 207 U 205+00 _ _ _ li ----------- O 203+00 204+00 — 0 90.0 g0 LP _ Z 88 87 86 ----------- REVISIONS 87 R _ DITCH EXCAVATE EXISTING JURISDICTIONAL DITCH FOR BW = 5' IMPROVED SITE DRAINAGE AND STABLE SIDE SS = 4:1 SLOPES (USACE AND NCDEQ PERMIT REQUIRED) LINER: PER WETLAND RESTORATION PLAN 90 AGENCY REVIEW ONLY NORTH Scale: Drawn by: SEE SCALE BAR JRT Sheet: Designed by: IRT Reviewed by: 40 0 20 40 80 7 of 15 1 R Project Number: Date: SCALE: 1" = 40' 18-010 02 APR 2019 x l KUS I EES \\a. I I 0 48-67-8942 N /F A MO L KIVETT 0448- 8 BATCO TRI BUTARY . J���) ♦ LOCWS CREEK - I - • O m• I 'I ^ � / / Iry ` ♦ I� \ TEMPORARY SILT CHECK • _ (NCDOT STD DWG 1633.01) x � � \ - � m• m I ■ � 0g _. rc NOTES TEMPORARY SKIMMER BASIN 02 ■ DA=5AC ■ ■ m _ • m 1. THIS PLAN SHOWS THE TEMPORARY EROSION CONTROL MEASURES TO BE pp i ■ ■ ■ 1 ` \ INSTALLED AND MAINTAINED DURING CONSTRUCTION. r \ ^ \ \� `� �6� I _� - J s9 ■ ■ ■=x�x- 1 ■ I O 2. LIMIT OF DISTURBANCE = 20.5 AC +/-. NCDEQ EROSION CONTROL PERMIT I - �- ti i ■ ■ • x� ■ I s�� I\_ r \ REQUIRED. /r �� x mx a U ■�•� -� �'■ • ` P Z �, 3. SEE SHEET 10 FOR THE CONSTRUCTION SEQUENCE, MAINTENANCE PLAN, OCA p AND SPECIFICATIONS. I _ ♦ 6s \ $ I �m�' 4. OFF-SITE BORROW / WASTE SITES MUST COMPLY WITH NCDEQ RULES AND TEMPORARY' REGULATIONS FOR LAND DISTURBANCE. CONSTRUCTION � � TD � o° 000°on ,_I ♦ ✓ TD 01 o : ,,;;: \ ENTRANCE 5. CONTRACTOR MAY NEED TO FIELD ADJUST PROPOSED SEDIMENT BASIN Ar ELEVATIONS TO FIT ACTUAL FIELD CONDITIONS. ♦/° 7D 01 �/ / _ _ 9, - - - _ - _ _ _ - - \ \ 6. CONTRACTOR TO KEEP ALL CONSTRUCTION/STORAGE OPERATIONS WITHIN • LIMIT OF DISTURBANCE. 93 - `w _� - - / / \ - _ ♦ ♦ 94 89 ■ �_ 9 7. JURISDICTIONAL STREAMS AND WETLANDS HAVE BEEN IDENTIFIED BY THE 66 / \ - ♦ / 9° _ ■ es -e9 ■ �_ • OWNER AS BEING WITHIN THE LIMITS OF DISTURBANCE. PERMITS FOR THE i ■ m PROPOSED IMPACTS TO THESE FEATURES MUST BE OBTAINED PRIOR TO 1 TEMPORARY ♦ ♦� 3 ■ ■ ■ ■ ■ ■ •♦ n DISTURBANCE. ♦ a / 90PIPE INLET PROTECTION / /// i 95 M 06 ■ i SILT FENCE ♦ I NCDOT STD DWG 1635.02)♦ o (TY�) ♦ • � 0 S. CUT/FILL SLOPES FOR TEMPORARY MEASURES SHALL BE 2:1 MAXIMUM. LIMITOF-DISTURBANCE♦ • x TEMP. BOX INLET PROTECTION (20.5 AC) ♦ • x� CTION o - - ♦ ��' � � � 0 9. NO FILL IS ALLOWED IN THE 100 -YEAR FLOODPLAIN UNLESS A FLOODPLAIN -- - - ♦ ♦ - x� x \�\ �h ( C TISI D D G 1632.03) x DEVELOPMENT PERMIT IS OBTAINED FROM CUMBERLAND COUNTY. ♦ 94 I _ \ 10. THIS PROPERTY IS LOCATED IN THE CAPE FEAR RIVER BASIN. SITE DRAINS ♦ ♦ ♦x = n m �- " _ TO TRIBUTARY CAPE FEAR, A CLASS WSIV WATERS AND TO TRIBUTARY $ $ • ♦ ♦ •� - ^ �� Q _ P x LOCKS CREEK, A CLASS 'C' WATERS. • • ■m • ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ x�x� '� < < --- m m . 11. THE MAJORITY SOIL TYPES (ACCORDING TO THE NRCS MAP) ON THE SITE 9 9�, 93 �� � s ARE: . 90 ---------------- x x p 0 0 - - 9 53% Ro (ROANOKE AND WARNE SOILS) x X X X O TEMP. 33% AaA (ALTAVISTA FINE SANDY LOAM) a X x � ♦ � � XX Xx \ 1 -- BOX IN ET = m ".�.. 13% WmB (WICKHAM FINE SANDY LOAM) < '� I PROTECTI N ° (NCDOT STD DWG 1632.0) 7 12. ROLLED EROSION CONTROL PRODUCT (RECP) SHALL BE NORTH AMERICAN x° o X X ■ TEMP. BOX INLET X PROTECTION 92 92 of', . = GREEN (N.A.G.) OR EQUAL AND INSTALLED PER MANUFACTURER'S � I ■ !! .. . °o°o° 0 90 x�` x� Xx X XX XX X X r ■ (NCDOT STD DWG 1632.03) / ,,`„ RECOMMENDATIONS OR NCDOT STANDARD DRAWING 1631.01. DITCH °° oa ° e, `c LINERS SHALL BE N.A.G. S7513N, OR EQUAL. 00 _ X �` ■ •©�p0 " ■ / 91 13. THE DISTURBED CHANNEL AREA IN THE LOCATION OF TEMPORARY SEDIMENT f ----- - ,�- x x X X x Xx \� I,, ■ ---------- x ■ 'A"-- 1 I \ BASIN 01 (SURFACE WATER IMPACT AREA #3) WILL BE RESTORED AT THE x� X X Xx X.� X x x X X w 91 • ■ ■ ■ ■ ■ ■ ■ _ \ END OF PROJECT CONSTRUCTION. IINA I 1 - _ MATGR I \ X X 91X TEMPORARY i��� ����� �� ----- --- ------------------ a9 --------F__ -- --- --- CONSTRUCTION B, �� � �- 88 � ENTRA*CE' --- ----------- - ------ F • m m �6 ♦ g9 _.__ - 87 8g g1 00 0000000I m °°°°°°°° ♦ • • IUN�L•WATERS I m I • ♦ 00000000 °O ♦ • ■ x., ■..... ■ ■ ■ ■. ■ m �- ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ • 98 9 ♦ • TEMPORARY ■ °°°O°°°°o° ♦ • 88 8� 866 ♦ • CONSTRUCTION ■ ♦ ♦ TEMPORARY CONCRETE • • • • Bs ■ • ♦ • WASHOUT AREA • • . ♦ ENTRANCE ■ • • -- ' ��.,;/�-_ -MIT OF DISTURBANCE 6s ■ • (20.5 AC) • \ EROSION CONTROL LEGEND m I/ 1 ■ • ■ ■ ¢ \ d ____ TOE OF BERM ■ ■ � ¢ �� TOP OF BERM � CARGILL INCORPORATE02 n� 0TEMP. SKIMMER BASIN �� 4 4I� - - 1 I Q " 1 ■ II 11 ■ 1 \ �\ SKIMMER WIER BAFFLE � • -- 16 " ■ cn � � a O\ I O TEMP. SILT FENCE m � ■ m o, ■ x Ik � m ■ : 1 \ < TEMP. SILT FENCE OUTLET � m i m TEMPORARY SEDIMENT BASIN 01 ■ ■ x TEMP. BOX INLET PROTECTION N /F DA = 20 AC ■ � � � � 11 GILBERT SMITH FAMILY, LLC \ s , TEMP. DIVERSION DITCH TDA 0448-68-0414 o P m m om m ■ GUTTER GUARD • TEMPORARY SILT FENCE (TYP) x x ♦ O LIMIT OF DISTURBANCE ■ ■ ■ ■ ■ ■ •� • �, ♦ ♦ TEMP. SILT CHECK P PIPE OUTLET ■ INV OUT EL = 84.5 ■ I' x ♦ o TEMP. COIR FIBER WATTLE ofi ♦ • TEMPORARY SILT CHECK ■ ♦ �x �x RECP / DITCH LINER / MATTING (NCDOT STD DWG ......_ 1634.0 - --- 1) x x ■ x x X x x ROCK LINER PROTECTION -- -_ 15'RC - -- x x x -� x x TEMP. CONSTRUCTION ENTRANCE / - ®------- m m m lL l bS - - - - --._-- -- - _ s �M b 09 �3A1 - x • x - -- - - - - - - - - - - - - ------------- 6 ----__---- - _ - - _ TEMP. PIPE INLET PROTECTION da.s -- - -- --- - - - TRIBUTARY --- .- - _ 06 ------ - CAPE FEAR TEMPORARY DIVERSION SCHEDULE DIVERSION DRAINAGE 10 - YEAR BOTTOM WIDTH DEPTH LENGTH SIDE SLOPE AVE. SHEAR NO. AREA (AC) FLOW (CFS) BW (FT) D (FT) (FT) Z SLOPE (%) (LB/FT-2) LINER 01 3.0 9 0 1.0 470 4 1 0.6 N.A.G. S75BN 02 0.8 2.5 0 1.0 360 4 0.5 0.2 N.A.G. S75BN :1 1 41 :1 160 •1 J THOMAS ENGINEERING, INC. CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 TEMPORARY SKIMMER BASIN SCHEDULE TEMPORARY SEDIMENT BASIN SCHEDULE (919) 777-6010 phone www.jthomasengineering.com DRAINAGE 10 YEAR S.A. S.A. DRAINAGE 10 YEAR S.A. S.A. AVE DIMS. @ TOP VOLUME VOLUME BASIN BOTTOM / TOP OF TOP OF RISER E. SPILLWAY TOP OF BERM OUTLET RISER OUTLET BARREL E. SPILLWAY SKIMMER PIPE ORIFICE SKIMMER NAME AREA FLOW REQUIRED PROVIDED OF STORAGE REQUIRED PROVIDED DEPTH BARREL INV. ELEV STORAGE ELEV ELEV ELEV PIPE SIZE PIPE SIZE WIDTH SIZE DIAMETER DEWATERING TIME (AC) (CFS) (SF) (SF) (FT) (CF) (CF) (FT) (FT) (FT) (FT) (FT) (FT) (IN) (IN) (FT) (IN) (IN) (DAYS) BASIN 01 20 50 21,750 24,500 110 X 230 25,200 45,400 2.0 85.0 87.0 88.0 89.0 91.0 42 30 20 4 3 4 TEMPORARY DIVERSION SCHEDULE DIVERSION DRAINAGE 10 - YEAR BOTTOM WIDTH DEPTH LENGTH SIDE SLOPE AVE. SHEAR NO. AREA (AC) FLOW (CFS) BW (FT) D (FT) (FT) Z SLOPE (%) (LB/FT-2) LINER 01 3.0 9 0 1.0 470 4 1 0.6 N.A.G. S75BN 02 0.8 2.5 0 1.0 360 4 0.5 0.2 N.A.G. S75BN :1 1 41 :1 160 •1 J THOMAS ENGINEERING, INC. CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 TEMPORARY SKIMMER BASIN SCHEDULE 27330 (919) 777-6010 phone www.jthomasengineering.com DRAINAGE 10 YEAR S.A. S.A. DIMS. @ BASIN DIMS.@ TOP OF VOLUME VOLUME BASIN BOTTOM TOP OF TOP OF BERM ORIFICE BASIN NAME AREA FLOW REQUIRED PROVIDED BOTTOM STORAGE REQUIRED PROVIDED DEPTH ELEV STORAGE ELEV WEIR ELEV ELEV WEIR LENGTH SKIMMER PIPE DIAMETER DRAWDOWN (AC) (CFS) (SF) (SF) (FT) (FT) (CF) (CF) (FT) (FT) (FT) (FT) (FT) (FT) SIZE (IN) (IN) TIME (DAYS) BASIN 01 5.0 16 5,200 5,500 42 X 102 50 X 110 9,000 9,800 2.0 85.0 87.0 87.5 89.0 20 2 1Y" 4 TEMPORARY DIVERSION SCHEDULE DIVERSION DRAINAGE 10 - YEAR BOTTOM WIDTH DEPTH LENGTH SIDE SLOPE AVE. SHEAR NO. AREA (AC) FLOW (CFS) BW (FT) D (FT) (FT) Z SLOPE (%) (LB/FT-2) LINER 01 3.0 9 0 1.0 470 4 1 0.6 N.A.G. S75BN 02 0.8 2.5 0 1.0 360 4 0.5 0.2 N.A.G. S75BN :1 1 41 :1 160 •1 J THOMAS ENGINEERING, INC. CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 Sanford, North Carolina 27330 (919) 777-6010 phone www.jthomasengineering.com license no. C-3389 PROFESSIONAL ENGINEER'S SEAL O J a W Z W J O a � U U D �2 z Q oC Z J J a ao 0 J Z Z oC W � Q > ~O LU Q � U z �D V o �O 0-4 Q LU U � U) O Q � O LL Z 0� w = a � J D � O w N m 1 U oC O Z REVISIONS AGENCY REVIEW ONLY Scale: Drawn by: SEE SCALE BAR JRT Sheet: Designed by: IRT 9 15 Reviewed by: 1 R of Project Number: Date: 18-010 02 APR 2019 Q) CONSTRUCTION SEOUENCE 1. PROJECT NARRATIVE: THESE PLANS ARE FOR THE CONSTRUCTION OF A NEW ROADWAY (NORTH -SOUTH ROADWAY) AND TRUCK QUEUE LOT ON THE CARGILL PROPERTY. 2. NOTIFICATION OF LAND RESOURCES SEDIMENT AND EROSION CONTROL SELF INSPECTION PROGRAM: THE SEDIMENT POLLUTION CONTROL ACT WAS AMENDED IN 2006 TO REQUIRE THAT PERSONS RESPONSIBLE FOR LAND DISTURBING ACTIVITIES INSPECT A PROJECT AFTER EACH PHASE OF THE PROJECT TO MAKE SURE THAT THE APPROVED EROSION AND SEDIMENT CONTROL PLAN IS BEING FOLLOWED. RULES DETAILING THE DOCUMENTATION OF THESE INSPECTIONS TOOK EFFECT OCTOBER 1, 2010. THE SELF INSPECTION PROGRAM IS SEPARATE FROM THE WEEKLY SELF MONITORING PROGRAM OF THE NPDES STORMWATER PERMIT FOR CONSTRUCTION ACTIVITIES. THE FOCUS OF THE SELF INSPECTION REPORT IS THE INSTALLATION AND MAINTENANCE OF EROSION AND SEDIMENTATION CONTROL MEASURES ACCORDING TO THE APPROVED PLAN. THE INSPECTIONS MUST BE CONDUCTED AFTER EACH PHASE OF THE PROJECT, AND CONTINUED UNTIL PERMANENT GROUND COVER IS ESTABLISHED IN ACCORDANCE WITH NCGS 113A 54.1 AND 15A NCAC 4B.0131. THE SELF INSPECTION REPORT FORM IS AVAILABLE AS AN EXCEL SPREADSHEET FORM HTTP://WWW.DLR.ENR.STATE.NC.US/PAGES/SEDIMENTATION_NEW.HTML. IF YOU HAVE ANY QUESTIONS OR CANNOT ACCESS THE FORM, PLEASE CONTACT NCDEQ AT 919-791-4200. 3. KEEP NCDEQ LAND DISTURBANCE PERMIT AT SITE. 4. JURISDICTIONAL WATERS HAVE BEEN IDENTIFIED AND LOCATED ON THE PROPERTY BY THE OWNER. THE MAPPED LOCATION OF THESE JURISDICTIONAL WATERS, PROVIDED BY THE OWNER, ARE SHOWN ON THE PLANS. SOME OF THE JURISDICTIONAL WATERS WILL BE IMPACTED AS A RESULT OF THIS PROJECT. THOSE IMPACTS WILL BE PERMITTED THROUGH THE USACE AND NCDEQ. PHASE 1 5. CONTACT THE FAYETTEVILLE REGIONAL OFFICE OF NCDENQ LAND QUALITY (910-433-3300) PRIOR TO BEGINNING ANY WORK ON THIS PROJECT. 6. STAKE THE LOCATION OF THE JURISDICTIONAL WATERS/WETLANDS WITHIN 100 FEET OF THE PROJECT LIMITS OF DISTURBANCE. ONLY IMPACTS PERMITTED UNDER USACE 404 PERMIT AND NCDEQ 401 CERTIFICATION WILL BE ALLOWED. CONTRACTOR TO REVIEW THE PROVISIONS IN THOSE PERMITS CAREFULLY FOR BEGINNING WORK. CLEAR AND GRADE ONLY IN AREAS WHERE EROSION CONTROL MEASURES WILL BE INSTALLED. 7. INSTALL THE TEMPORARY CONSTRUCTION ENTRANCES AS SHOWN ON THE EROSION CONTROL PLAN. 8. INSTALL TEMPORARY SILT FENCE ALONG LOWER SIDES OF LIMIT OF DISTURBANCE AS SHOWN ON EROSION CONTROL PLAN. 9. INSTALL THE TWO (2) TEMPORARY SILT CHECKS IN THE TWO DRAINAGEWAYS AT THE EDGE OF THE LIMIT OF DISTURBANCE AS SHOWN ON THE EROSION CONTROL PLAN. 10. CONSTRUCT SEDIMENT BASINS 01 AND SKIMMER BASIN 02. STABILIZE BASIN WITH ROCK PROTECTION OR LINERS WHERE CALLED FOR ON THE PLAN AND TEMPORARY / PERMANENT SEEDING (PER SCHEDULE) ON REMAINING BASIN SLOPES. INSTALL ROCK OUTLET PROTECTION BELOW PIPE OUTLETS. 11. INSTALL TEMPORARY DIVERSIONS 01 - 02. THESE DIVERSIONS WILL CONVEY ON-SITE RUNOFF TO THE SKIMMER BASINS. STABILIZE WITH LINER AS SPECIFIED ON EROSION CONTROL PLAN IMMEDIATELY UPON INSTALLATION OF THESE DIVERSIONS. 12. REMOVE TOPSOIL WITHIN LIMITS OF DISTURBANCE AND STOCKPILE IN AREA(S) SHOWN ON THE PLAN. 13. ROUGH GRADE SITE. UNDERCUT IS LIKELY. UNDERCUT AND FILL MATERIAL BROUGHT TO THE SITE MAY BE STOCKPILED IN THE AREA(S) SHOWN ON THE PLAN. BORROW / DISPOSAL SITES MUST COMPLY WITH NCEQ LQS REQUIREMENTS. 14. PERFORM SOILS TEST TO DETERMINE THE SOIL AMENDMENTS AND RATES THAT WILL BE REQUIRED FOR SEEDING. 15. INSTALL STORM DRAINAGE SYSTEM, INCLUDING PIPES AND DITCHES. INSTALL THE ROCK OUTLET PROTECTION AT THE DOWNSTREAM OF EACH PIPE. IMMEDIATELY INSTALL TEMPORARY INLET PROTECTION AROUND EACH BOX AND PIPE INLET UPON COMPLETION AND IMMEDIATELY INSTALL DITCH MATTING AS SHOWN ON THE EROSION CONTROL PLAN. 16. FINE GRADE SITE. 17. INSTALL STONE BASE COURSE FOR ASPHALT AND CONCRETE PAVEMENT. 18. INSTALL CONCRETE PAVEMENT IN LOCATIONS AS SPECIFIED ON PLANS OR BY OWNER. INSTALL AT TEMPORARY CONCRETE WASHOUT AREA PER THE EROSION CONTROL PLAN. 18. INSTALL PAVEMENT INTERMEDIATE COURSE. 19. INSTALL ASB SHOULDERS. 20. INSTALL GRAVEL AREAS. 21. FINE GRADE AREAS OUTSIDE OF THE PAVED AREAS AND RE -SPREAD TOPSOIL. IMMEDIATELY SEED DISTURBED AREAS NOT RECEIVING PAVEMENT OR OTHER LANDSCAPE COVER. SEED PER THE SEEDING SCHEDULE (PERMANENT OR TEMPORARY) PROVIDED ON THIS SHEET. NOTE: PERMANENT GROUND COVER IS REQUIRED PER THE SCHEDULE UNDER 'TEMPORARY SEEDING' AND 'PERMANENT SEEDING' ON THIS SHEET. 22. CLEAN CONCRETE WASHOUT AREA AND REMOVE. 23. REMOVE TEMPORARY DIVERSIONS, AND SKIMMER / SEDIMENT BASINS. PUMP STANDING WATER OUT OF SKIMMER BASINS AS REQUIRED. PUMP EFFLUENT SHALL BE DISCHARGED TO FILTER BAG. 24. GRADE ACCORDING TO THE PROPOSED CONTOURS (SEE GRADING PLAN ON SHEETS 7 AND 8) IN THE AREAS WHERE THE EROSION CONTROL MEASURES HAVE BEEN REMOVED. IMMEDIATELY STABILIZE THE OTHER DISTURBED AREAS WHERE THE EROSION CONTROL MEASURES WERE REMOVED PER THE PERMANENT SEEDING SCHEDULE PROVIDED ON THIS SHEET. 25. RESTORE JURISDICTIONAL WATERS (DITCH) PER WETLAND RESTORATION PLAN. 26. INSTALL PAVEMENT SURFACE COURSE. 27. CALL FOR INSPECTION FROM NCDEQ LAND QUALITY AFTER COMPLETION OF PHASE 1. PHASE 2 28. ONCE ACCEPTABLE TO NCDQ LQS, REMOVE THE TWO (2) TEMPORARY SILT CHECKS AT THE DOWNSTREAM OF EACH DRAINAGEWAY. 29. REMOVE THE REMAINING SILT FENCE ALONG THE DOWNSTREAM PERIMETER OF THE SITE. 30. REMOVE THE INLET PROTECTION AROUND BOX AND PIPE INLETS. PROVIDE PERMANENT GROUND COVER IN THESE AREAS. 31. PROVIDE PERMANENT SEEDING, IF TEMPORARY SEEDING WAS DONE IN PHASE 1. ENSURE A GOOD THICK STAND OF GRASS COVER. MAINTENANCE PLAN THE SITE GRADING CONTRACTOR IS RESPONSIBLE FOR MAINTAINING EROSION CONTROL DEVICES THROUGHOUT THE PROJECT DURATION. ALL EROSION AND SEDIMENT CONTROL DEVICES SHALL BE CHECKED FOR STABILITY AND OPERATION FOLLOWING EVERY RUNOFF -PRODUCING RAINFALL OR RAINFALL > 0.5 INCHES IN 24 HOURS BUT IN NO CASE LESS THAN ONCE EVERY 7 CALENDAR DAYS. ANY NEEDED REPAIRS SHALL BE MADE IMMEDIATELY TO MAINTAIN ALL DEVICES AS DESIGNED. RECORDS OF INSPECTIONS FOR PREVIOUS 30 DAYS SHALL REMAIN ON SITE AND AVAILABLE FOR AGENCY INSPECTORS DURING NORMAL WORKING HOURS. SKIMMER BASINS: SEE SHEET 15 BAFFLES: SEE SHEET 15 ROLLED EROSION CONTROL PRODUCTS (RECP): SEE SHEET 15 SEDIMENT FILTER BAG: PER MANUFACTURER'S RECOMMENDED SCHEDULE. SILT FENCE: 1. SEDIMENT SHALL BE REMOVED FROM BEHIND THE SEDIMENT FENCE WHEN IT BECOMES ABOUT 0.5 FT DEEP AT THE FENCE. THE FENCE SHALL BE REPAIRED AS REQUIRED TO MAINTAIN A SUFFICIENT BARRIER. 2. SHOULD THE FABRIC OF A SEDIMENT FENCE COLLAPSE, DECOMPOSE, TEAR, OR BECOME INEFFECTIVE, REPLACE IT PROMPTLY. 3. AFTER ALL AREAS HAVE BEEN PERMANENTLY STABILIZED, REMOVE ALL FENCING MATERIALS AND UNSTABLE SEDIMENT. GRADE AREA TO GRADING PLAN OR BLEND WITH ADJACENT GRADES. STABILIZE AREA. SILT FENCE OUTLET: 1. CLEAR THE HARDWARE CLOTH OF ANY DEBRIS OR OTHER OBJECTS TO PROVIDE ADEQUATE FLOW FOR SUBSEQUENT RAINS. BE CAREFUL NOT TO DAMAGE OR UNDERCUT THE HARDWARE CLOTH. 2. REPLACE STONE AS NEEDED. TEMPORARY INLET PROTECTION: 1. CLEAR THE MESH WIRE OF ANY DEBRIS OR OTHER OBJECTS TO PROVIDE ADEQUATE FLOW FOR SUBSEQUENT RAINS. BE CAREFUL NOT TO DAMAGE OR UNDERCUT THE WIRE MESH. 2. REPLACE STONE AS NEEDED. CHECK DAM WITH WEIR: 1. CLEAN OUT SEDIMENT, STRAW, LIMBS, OR OTHER DEBRIS THAT COULD CLOG THE CHECK DAM. 2. ANTICIPATE SUBMERGENCE AND DEPOSITION ABOVE THE CHECK DAM FROM EROSION FROM HIGH FLOWS AROUND THE EDGES OF THE DAM. CORRECT ALL DAMAGE IMMEDIATELY. 3. REMOVE SEDIMENT ACCUMULATED BEHIND THE DAM AS NEEDED TO: PREVENT DAMAGE TO CHANNEL VEGETATION, ALLOW THE CHANNEL TO DRAIN THROUGH THE CHECK DAM, AND PREVENT LARGE FLOWS FROM CARRYING SEDIMENT OVER THE DAM. ADD STONES TO THE DAM AS NEEDED TO MAINTAIN THE DESIGN DIMENSIONS. CONSTRUCTION ENTRANCE: 1. MAINTAIN GRAVEL PAD IN A CONDITION TO PREVENT MUD OR SEDIMENT FROM LEAVING CONSTRUCTION SITE. THIS MAY REQUIRE PERIODIC TOP DRESSING WITH 2 -INCH STONE. 2. IMMEDIATELY REMOVE ALL MATERIALS SPILLED, WASHED, OR TRACKED ONTO PUBLIC ROADWAYS. TEMPORARY DIVERSIONS: 1. IMMEDIATELY REMOVE EXCESS SEDIMENT FROM FLOW AREA AND REPAIR DIVERSION RIDGE. 2. CAREFULLY CHECK OUTLETS AND MAKE TIMELY REPAIRS AS NEEDED. 3. AFTER ALL AREAS HAVE BEEN STABILIZED REMOVE THE RIDGE AND THE CHANNEL AND GRADE ACCORDING TO GRADING PLAN OR BLEND WITH ADJACENT GRADES. STABILIZE AREA. RIP RAP LINED DITCHES/CHANNELS/OUTLETS: 1. PAY CLOSE ATTENTION TO INLET AND OUTLET SECTIONS WHERE CONCENTRATED FLOW ENTERS. 2. INSPECT FOR INDICATIONS OF DISPLACED ROCK, SCOUR HOLES, OR BANK FAILURES. MAKE REPAIRS IMMEDIATELY. 3. MAINTAIN VEGETATION ADJACENT TO THE ROCK LINING INA HEALTHY, VIGOROUS CONDITION TO PROTECT THE AREA FROM EROSION AND SCOUR. GRASS LINED DITCHES/CHANNELS/SWALES: 1. DURING GRASS ESTABLISHMENT PERIOD, INSPECT AFTER EVERY RAINFALL. 2. AFTER GRASS HAS ESTABLISHED, INSPECT PERIODICALLY AND AFTER HEAVY RAINFALL. IMMEDIATELY MAKE REPAIRS. 3. PAY CLOSE ATTENTION TO INLET AND OUTLET SECTIONS WHERE CONCENTRATED FLOW ENTERS. 4. GRASS SHOULD BE MAINTAINED INA HEALTHY VIGOROUS CONDITION AT ALL TIMES, SINCE IT IS THE PRIMARY EROSION PROTECTION. BUILDING WASTES HANDLING: 1. NO PAINT OR LIQUID WASTES TO BE DISCHARGED INTO STREAMS OR STORM DRAINS. 2. DEDICATED AREAS FOR DEMOLITION, CONSTRUCTION, AND OTHER WASTES SHALL BE LOCATED 50' FROM STORM DRAINS UNLESS NO REASONABLE ALTERNATIVES EXIST. 3. EARTHERN MATERIAL STOCKPILES SHALL BE LOCATED 50' FROM STREAMS UNLESS NO REASONABLE ALTERNATIVES EXIST. 4. CONCRETE MATERIALS AND WASHOUT AREAS MUST BE CONTROLLED SO THERE IS NO DISCHARGE TO SURFACE WATERS, WETLANDS, OR BUFFERS. SEE PLAN FOR LOCATION OF CONCRETE WASHOUT AREA. TEMPORARY SEEDING PROVIDE TEMPORARY SEEDING TO ALL DENUDED AREAS THAT WILL NOT BE BROUGHT TO FINAL GRADE WITHIN THE FOLLOWING SCHEDULE: PERMANENT DITCHES--> IMMEDIATELY SLOPES 4:1 AND STEEPER --> 7 DAYS ALL OTHER AREAS --> 14 DAYS PERFORM SOIL TESTING AFTER ROUGH GRADING IS COMPLETE OF THE TOPSOIL THAT WILL BE SPREAD OVER THE AREAS TO BE SEEDED. IF SOILS BECOME COMPACTED DURING GRADING, LOOSEN THEM TO A DEPTH OF 6-8 INCHES. SEEDBED PREPARATION: LIME: APPLY LIME ACCORDING TO SOIL TEST RECOMMENDATIONS. IF THE SOIL PH IS NOT KNOWN, APPLY AT A RATE OF 1 TO 1 1/Z TONS PER ACRE ON COARSE-TEXTURED SOILS AND 2-3 TONS PER ACRE OF FINE -TEXTURED SOILS. APPLY LIME UNIFORMLY AND INCORPORATE INTO THE TOP 4-6 INCHES OF SOIL. SOILS WITH PH HIGHER THAN 6 DO NOT NEED LIME. FERTILIZER: FERTILIZE ACCORDING TO SOIL TEST RECOMMENDATIONS WITH A MINIMUM APPLICATION OF 4,000 LBS / ACRE. IF A HYDRAULIC SEEDER IS USED, DO NOT MIX SEED AND FERTILIZER MORE THAN 30 MINUTES BEFORE APPLICATION. SURFACE ROUGHENING: IF AREAS TO BE SEEDED BECOME HARDENED, SEALED, OR CRUSTED, LOOSEN IT JUST PRIOR TO SEEDING BY DISKING, RAKING, HARROWING OR OTHER SUITABLE METHODS. GROOVE OR FURROW SLOPES STEEPER THAN 3:1 ON THE CONTOUR BEFORE SEEDING. PLANT SELECTION: SELECT THE APPROPRIATE SPECIES BASED ON THE PLANTING SEASON. SEEDING: APPLY SEED WITH A BROADCAST SEEDER, DRILL, CULTIPACKER SEEDER, OR HYDROSEEDER. USE SEEDING RATES GIVEN IN TABLES. BROADCAST SEEDING AND HYDROSEEDING IS ACCEPTABLE ON STEEP SLOPES WHERE EQUIPMENT CANNOT BE DRIVEN. HAND BROADCASTING IS NOT RECOMMENDED. SMALL GRAINS SHOULD BE PLANTED NO MORE THAN ONE INCH DEEP AND GRASSES AND LEGUMES ON MORE THAN %2 INCH. BROADCAST SEED MUST BE COVERED BY RAKING OR CHAIN DRAGGING, AND THEN LIGHTLY FIRMED WITH A ROLLER OR CULTIPACKER. HYDROSEEDED MIXTURES SHOULD NOT INCLUDE A WOOD FIBER MULCH. MULCHING: MULCHING IS REQUIRED UNDER THE FOLLOWING CONDITIONS: • SEEDING IN FALL (WOOD FIBER MULCHES NOT ACCEPTABLE) • SLOPES STEEPER THAN 3:1 • EXCESSIVELY HOT OR DRY WEATHER • ADVERSE SOILS (SHALLOW, ROCKY, OR HIGH IN CLAY OR SAND) • AREAS RECEIVING CONCENTRATED FLOW. FOR CONCENTRATED FLOW AREAS (DITCHES, CHANNELS, SWALES, ETC.) ANCHOR MULCH WITH NETTING AND LIQUID ASPHALT AT A RATE OF 0.10 GALLON PER SQUARE YARD (10 GAL / 1000 SQ FT). MAINTENANCE: CONTRACTOR TO MONITOR GRASS ESTABLISHMENT. PROMPTLY RESEEED AREAS WHERE A HEALTHY, DENSE GROWTH DOES NOT ESTABLISH. CONTRACTOR MAY NEED TO PROVIDE NETTING OR TEMPORARY LINERS TO AREAS WHERE GRASS CANNOT BE ESTABLISHED DUE TO EROSION. PERMANENT SEEDING PROVIDE PERMANENT SEEDING TO ALL DENUDED AREAS THAT WILL NOT BE COVERED BY PAVING, BUILDINGS, OR OTHER LANDSCAPING. AREAS RECEIVING PERMANENT VEGETATION MUST BE STABILIZED WITHIN THE FOLLOWING TIMEFRAMES AFTER FINAL GRADE IS REACHED, UNLESS TEMPORARY STABILIZATION IS APPLIED. PERMANENT DITCHES --> IMMEDIATELY SLOPES 4:1 AND STEEPER --> 7 DAYS ALL OTHER AREAS --> 14 DAYS PERFORM SOIL TESTING OF THE TOPSOIL THAT WILL BE USED FOR THE SEEDBED TO DETERMINE THE SOIL AMENDMENTS REQUIRED. COMPLETE GRADING BEFORE PREPARING SEEDBEDS. IF SOILS BECOME COMPACTED DURING GRADING, LOOSEN THEM TO A DEPTH OF 6-8 INCHES. SEEDBED REQUIREMENTS: THE SOIL SHOULD MEET THE FOLLOWING MINIMUM CRITERIA FOR VEGETATION ESTABLISHMENT: • ENOUGH FINE-GRAINED (SILT AND CLAY) MATERIAL TO MAINTAIN ADEQUATE MOISTURE AND NUTRIENT SUPPLY (AVAILABLE WATER CAPACITY OF AT LEAST 0.05 INCHES OF WATER TO 1 INCH OF SOIL • SUFFICIENT PORE SPACE TO PERMIT ROOT PENETRATION. • SUFFICIENT DEPTH OF SOIL TO PROVIDE AN ADEQUATE ROOT ZONE. THE DEPTH OF ROCK OR IMPERMEABLE LAYERS SUCH AS HARDPANS SHOULD BE 12 INCHES OR MORE, EXCEPT ON SLOPES STEEPER THAN 2:1 WHERE THE ADDITION OF SOIL IS NOT FEASIBLE. • A FAVORABLE PH RANGE FOR PLANT GROWTH, USUALLY 6.0-6.5. • NO LARGE ROOTS, BRANCHES, STONES, LARGE CLODS OF EARTH, AND TRASH. CLODS AND STONES MAY BE LEFT ON SLOPES STEEPER THAN 3:1 IF THEY ARE TO BE HYDROSEEDED. IF THE ABOVE CRITERIA CANNOT BE MET, SPECIAL SOIL CONDITIONERS OR TOPSOIL MAY BE APPLIED. SEEDBED PREPARATION: LIME: APPLY LIME ACCORDING TO SOIL TEST RECOMMENDATIONS. WHERE SOIL TESTS ARE NOT AVAILABLE, APPLY GROUND LIMESTONE AT A RATE OF 3,500 LBS / ACRE. FERTILIZER: FERTILIZE ACCORDING TO SOIL TEST RECOMMENDATIONS. WHERE SOIL TESTS ARE NOT AVAILABLE, APPLY 10-10-10 FERTILIZER AT A RATE OF 1,000 LBS / ACRE. SURFACE ROUGHENING: IF AREAS TO BE SEEDED BECOME HARDENED, SEALED, OR CRUSTED, LOOSEN IT JUST PRIOR TO SEEDING BY DISKING, RAKING, HARROWING OR OTHER SUITABLE METHODS. GROOVE OR FURROW SLOPES STEEPER THAN 3:1 ON THE CONTOUR BEFORE SEEDING. PLANT SELECTION: SEE RECOMMENDED SEEDING MIXTURE ON THE TABLE SHOWN ON THIS SHEET. CONTRACTOR TO CONSULT THE SEED SUPPLIER FOR THIS PROJECT TO DETERMINE IF THE RECOMMENDED SEEDING MIXTURE AND SOIL AMENDMENTS SPECIFIED BY THIS PLAN IS APPROPRIATE. THE FINAL SEEDING MIXTURE SELECTED SHALL BE APPROPRIATE BASED ON THE PLANTING SEASON, SOIL TYPE, SLOPES, AND LAND USES. CONSULT WITH ENGINEER IF THE SEED SUPPLIER RECOMMENDS A MIXTURE THAT IS DIFFERENT THAN THAT SPECIFIED ON THIS PLAN. SEEDING: USE CERTIFIED SEED (INSPECTED BY THE NORTH CAROLINA CROP IMPROVEMENT ASSOCIATION). APPLY SEED WITH A BROADCAST SEEDER, DRILL, CULTIPACKER SEEDER, OR HYDROSEEDER ON A FIRM, FRIABLE SEEDBED. USE SEEDING RATES GIVEN IN TABLES. WHEN USING A DRILL OR CULTIPACKER SEEDER, SMALL GRAINS SHOULD BE PLANTED NO MORE THAN ONE INCH DEEP AND GRASSES AND LEGUMES ON MORE THAN 1/2 INCH. WHEN BROADCAST SEEDING, SUBDIVIDE AREA INTO WORKABLE SECTIONS AND DETERMINE THE AMOUNT OF SEED NEEDED FOR EACH SECTION. APPLY ONE-HALF THE SEED WHILE MOVING BACK AND FORTH ACROSS THE AREA AND APPLY THE REMAINING SEED IN THE SAME MANNER BUT AT RIGHT ANGLES TO THE FIRST PASS. COVER SEED BY RAKING OR CHAIN DRAGGING, AND THEN LIGHTLY FIRM WITH A ROLLER OR CULTIPACKER. MULCH AREAS IMMEDIATELY AFTER SEEDING WITH SMALL GRAIN STRAW AT A RATE OF 4,000 LBS / ACRE. ANCHOR MULCH WITH NETTING OR LIQUID ASPHALT AT A RATE OF 400 GAL / ACRE. ROLLED EROSION CONTROL MATTING: PROVIDE ROLLED EROSION CONTROL MATTING ON SLOPES 2:1 OR STEEPER AND GRASS LINED SWALES / DITCHES / CHANNELS AFTER SEEDING IS COMPLETE. USE MULCH FOR ALL OTHER AREAS SEEDED. HYDROSEEDING: NO HYDROSEEDING FOR THIS PROJECT. MAINTENANCE: IRRIGATE DURING DRY PERIODS OR TO SPEED DEVELOPMENT OF FULL COVER. IF STAND IS INADEQUATE, RE -SEED WHERE BARE SPOTS OR THIN COVER EXISTS. RE-EVALUATE SEED TYPE CHOICE AND QUANTITIES OF LIME AND FERTILIZER. CONSIDER SEEDING TEMPORARY, ANNUAL SPECIES IF THE TIME OF YEAR IS NOT APPROPRIATE FOR PERMANENT SEEDING. Table 6.10b Temporary Seeding Recommendations for Summer Seeding mixture species Rate (Iblacre) German millet 40 In the Piedment and Mountains, a small -stemmed Sudangrass may be substituted at a rate of 50 lb/acre. Seeding dates Mountains -May 15 - Aug. 15 Piedmont -May 1 -Aug. 15 Coastal Plain -Apr. 15 - Aug. 15 Soil amendments Follow recommendations of soil tests or apply 4,000lb/acre ground agricultural limestone and 750 Iblacre 10-10-10 fertilizer. Mulch Apply 4.000Iblacre straw. Anchor straw by tacking with asphalt, netting, Maintenance Refertilize if growth is not fully adequate. Reseed, refertilize and mulch immediately following erosion or other damage. Table 6.10c Seeding mixture SEEDING RATE Temporary Seeding Species Rate (Iblacre) 200 LBS / ACRE Recommendations for Fail Rye (grain) 120 40 LBS / ACRE SEPTEMBER - MARCH Seeding dates 200 LBS / ACRE MARCH - SEPTEMBER Mountains --Aug. 15 . Dec. 15 25 LBS / ACRE MARCH - SEPTEMBER Coastal Plain and Piedmont --Aug. 15 - Dec. 30 PROFESSIONAL ENGINEER'S SEAL Soil amendments Follow soil tests or apply .4,000blacre ground agricultural limestone O and 1,000 Iblacre 10-10-10 fertilizer. J Mulch a Apply 4,000 Iblacre straw. Anchor straw by tacking with asphalt, netting, Z Maintenance W Repair and refertilize damaged areas immediately. Topdress with 50 Iblacre of nitrogen in March. If it is necessary to extent temporary 0 cover beyond June 15, overseed with 50 Iblacre Kobe (Piedmont and Coastal Plain) or Korean (Mountains) lespedeza in late February or early March. V Table 6.10a Temporary Seeding Recommendations for Late Winter and Early Spring Seeding mixture Species Rate (Iblacre) Rye (grain) 120 Annual lespedeza (Kobe in Piedmont and Coastal Plain, Korean in Mountains) 50 Omit annual lespedeza when duration of temporary cover is not to extend beyond June. Seeding dates Mounta#ns---Above 2500 feet: Feb. 15 - May 15 Below 2500 feet: Feb. 1- May 1 Piedmont -Jan. 1 - May 1 Coastal Plain -Dec. 1 -Apr. 15 Soil amendments Follow recommendations of soil tests or apply 4,000 Iblacre ground agricultural limestone and 750 Iblacre 10-10-10 fertilizer. Mulch Apply 4,000 Iblacre straw. Anchor straw by tacking with asphalt, netting, Maintenance Refertilize if growth is not fully adequate. Reseed, refertilize and mulch immediately following erosion or other damage. RECOMMENDED PERMANENT SEEDING MIXTURE SEED TYPE SEEDING RATE SEEDING SEASON TALL FESCUE (BLEND) 200 LBS / ACRE SEPTEMBER - MARCH RYE GRAIN 40 LBS / ACRE SEPTEMBER - MARCH TALL FESCUE (BLEND) 200 LBS / ACRE MARCH - SEPTEMBER BERMUDAGRASS 25 LBS / ACRE MARCH - SEPTEMBER J THOMAS ENGINEERING, INC. CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 Sanford, North Carolina 27330 (919) 777-6010 phone www.jthomasengineering.com license no. C-3389 PROFESSIONAL ENGINEER'S SEAL O J a W 3 Z W J 0 a V V cry 3 w Z O � Q � z J Q J0 a IJ Z Z O Q J oC Z z W U V o �0 0 Q LUV � 1.� Q O 2 U. Z J W � O W N 1 ca � V O Z REVISIONS AGENCY REVIEW ONLY Scale: Drawn by: NTS JRT Sheet: Designed by: IRT 10 15 Reviewed by: IRT of Project Number: Date: 18-010 02 APR 2019 ii VARIES 6:1 Mn U VARIES 8' VARIE==MAX) CIVIL ENGINEERING NCDOT ASB GRADATION SPEC Sieve Percent Passing 104 100 1::211 I SOD / LANDSCAPING 35-74 www.jthomasengineering.com 15' 2.5' 25' PROFESSIONAL ENGINEER'S SEAL PLANT EXIT LANE LANDSCAPED ISLAND 1 /FT 1/411/ 1/4 ��-� 1. ItA � — — z O SHOULDER PROFILE GRADE a (NCDOT ASB, 10" THICK 2'-6" 'SPILL' C & G 'SPILL' ROADWAY 2'-6" C & G (SEE DETAIL F-11 AND G-11 FOR PAVEMENT DESIGN) J DITCH, IF SPECIFIED Q1 (SEE GRADING PLAN) VARIES 6:1 na, .'. U 90' 2.5' 15' PLANT ENTRANCE LANE A-11 ROADWAY TYPICAL SECTION SCALE: 1" = 5' VARIES i 8' i 30' 8' VARIES, SEE GRADING PLAN J PRIES, 1 6..i MAXi i SHOULDER (NCDOT ASB, 10" THICK) – DITCH, IF SPECIFIED (SEE GRADING PLAN) TRUCK QUEUE SPACE I EX. BUILDING it NORTHBOUND LANE 1/4"/FT SOUTHBOUND LANE 1/4"/FT PROFILE GRADE ROADWAY (SEE DETAIL F-11 AND G-11 FOR PAVEMENT DESIGN) SHOULDER (NCDOT ASB, 10" THICK) B-11 ROADWAY TYPICAL SECTION 1"=5' U 3' 20' SOUTHB UND LANE EX. CONCRETE SIDEWALK 10' 10' HALF LANE HALF LANE VARIES - SEE GRADING PLAN VARIES - SEE GRADING PLAN (1/8"/FT M 1 8" 8' 1 FT VARIES, SEE GRADING PLAN ') (/ �FT MIN.) 17FT VARIES, SEE GRADING PLAN (10:1 MAX) 7 PROFILE GRADE SHOULDER NCDOT ASB GRADATION SPEC (8" STONE) Sieve Percent Passim 7.7,,,.,,,O (SEE DETAIL F-11 AND G-11 FOR PAVEMENT DESIGN) 1 1/2" 100 112" 55-95 #4 35 -74 F&-711 ROADWAY TYPICAL SECTION 1"=5' U I VARIES, 37' MIN. 32,5' VARIES, SEE GRADING PLAN (6:1 MAX) 6' 1/4"/FT LANDSCAPED CONCRETE SIDEWALK 2'-6" 'SPILL' C & G NORTHBOUND LANE 1/4"/FT VARIES NCDOT ASB GRADATION SPEC Sieve Percent Passing 1 1:`2" 100 1 '2" 55-95 ;A 35-74 SOUTHBOUND LANE 1/4"/FT -- PROFILE GRADE ROADWAY (SEE DETAIL F-11 AND G-11 FOR PAVEMENT DESIGN) D-11 ROADWAY TYPICAL SECTION 1"=5' >a EX. DITCH VARIES PROBE STATION TAPER 15' MEAL TRUCK LANE 1/4"/FT -► ROADWAY (SEE DETAIL F-11 AND G-11 FOR PAVEMENT DESIGN) J EXCAVATE EX. DITCH FOR IMPROVED 10" DRAINAGE AND STABLE SIDESLOPES 8' 1 "/FT VARIES 6MA, 6 1j SHOULDER (NCDOT ASB, 10" THICK) DITCH, IF SPECIFIED NCDOT ASB GRADATION SPEC (SEE GRADING PLAN) Sieve Percent Passim 1 1/2" 100 1/2" 55-95 #4 35-74 6" 15' BEAN TRUCK LANE SHOULDER (NCDOT ASB, 10" THICK) 8' V VARIES, SEE GRADING PLAN 1 FT in 18' MEN E-11 TRUCK QUEUE DIMENSIONS 1"=20' 3.: 1 10" PORTLAND CEMENT CONCRETE (4,000 PSI COMPRESSIVE, 650 PSI FLEX) 6" NCDOT CABC, TYPE I OR II HIGH STRENGTH GEOTEXTILE FABRIC (MIRAFI HP 270, OR EQUAL) (SEE NOTE 3) SUBGRADE (98% MIN. STANDARD PROCTOR, WITHIN V BELOW TOP OF SUBGRADE ELEVATION) (95% MIN. STANDARD PROCTOR, GREATER THAN 1' BELOW TOP OF SUBGRADE ELEVATION) NOTES: 1. CONTRACTOR TO SUBMIT A PLAN SHOWING TYPE AND LOCATION OF JOINTS TO OWNER FOR APPROVAL. 2. SEAL JOINTS WITH A MONOELASTIC MATERIAL. 3. USE GEOTEXTILE FABRIC WHERE SPECIFIED IN FIELD BY OWNER'S GEOTECHNICAL CONSULTANT. 4. SEE OWNER'S GEOTECHNICAL REPORT FOR MORE INFORMATION ON CONSTRUCTION SPECIFICATIONS. FF-1-11CONCRETE PAVEMENT NTS 2" ASPHALT SURFACE COURSE, NCDOT TYPE S12.5C 3.5" ASPHALT INTERMEDIATE COURSE, NCDOT TYPE 119.00 12" CABC, NCDOT TYPE I OR II HIGH STRENGTH GEOTEXTILE FABRIC (MIRAFI HP 270, OR EQUAL) (SEE NOTE 1) SUBGRADE (98% MIN. STANDARD PROCTOR, WITHIN 1' BELOW TOP OF SUBGRADE ELEVATION) (95% MIN. STANDARD PROCTOR, GREATER THAN 1' BELOW TOP OF SUBGRADE ELEVATION) NOTES: 1. USE GEOTEXTILE FABRIC WHERE SPECIFIED IN FIELD BY OWNER'S GEOTECHNICAL CONSULTANT. 2. SEE OWNER'S GEOTECHNICAL REPORT FOR MORE INFORMATION ON CONSTRUCTION SPECIFICATIONS. G-11 L ASPHALT PAVEMENT NTS J THOMAS VARIE==MAX) CIVIL ENGINEERING NCDOT ASB GRADATION SPEC Sieve Percent Passing 104 100 1::211 55 -95 04 35-74 18' MEN E-11 TRUCK QUEUE DIMENSIONS 1"=20' 3.: 1 10" PORTLAND CEMENT CONCRETE (4,000 PSI COMPRESSIVE, 650 PSI FLEX) 6" NCDOT CABC, TYPE I OR II HIGH STRENGTH GEOTEXTILE FABRIC (MIRAFI HP 270, OR EQUAL) (SEE NOTE 3) SUBGRADE (98% MIN. STANDARD PROCTOR, WITHIN V BELOW TOP OF SUBGRADE ELEVATION) (95% MIN. STANDARD PROCTOR, GREATER THAN 1' BELOW TOP OF SUBGRADE ELEVATION) NOTES: 1. CONTRACTOR TO SUBMIT A PLAN SHOWING TYPE AND LOCATION OF JOINTS TO OWNER FOR APPROVAL. 2. SEAL JOINTS WITH A MONOELASTIC MATERIAL. 3. USE GEOTEXTILE FABRIC WHERE SPECIFIED IN FIELD BY OWNER'S GEOTECHNICAL CONSULTANT. 4. SEE OWNER'S GEOTECHNICAL REPORT FOR MORE INFORMATION ON CONSTRUCTION SPECIFICATIONS. FF-1-11CONCRETE PAVEMENT NTS 2" ASPHALT SURFACE COURSE, NCDOT TYPE S12.5C 3.5" ASPHALT INTERMEDIATE COURSE, NCDOT TYPE 119.00 12" CABC, NCDOT TYPE I OR II HIGH STRENGTH GEOTEXTILE FABRIC (MIRAFI HP 270, OR EQUAL) (SEE NOTE 1) SUBGRADE (98% MIN. STANDARD PROCTOR, WITHIN 1' BELOW TOP OF SUBGRADE ELEVATION) (95% MIN. STANDARD PROCTOR, GREATER THAN 1' BELOW TOP OF SUBGRADE ELEVATION) NOTES: 1. USE GEOTEXTILE FABRIC WHERE SPECIFIED IN FIELD BY OWNER'S GEOTECHNICAL CONSULTANT. 2. SEE OWNER'S GEOTECHNICAL REPORT FOR MORE INFORMATION ON CONSTRUCTION SPECIFICATIONS. G-11 L ASPHALT PAVEMENT NTS J THOMAS ENGINEERING, INC. CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 Sanford, North Carolina 27330 (919) 777-6010 phone www.jthomasengineering.com license no. C-3389 PROFESSIONAL ENGINEER'S SEAL � z O 0 J a W Z LV J W 2: Q1 --4a o Q J U U U 3 I --I Z� J p a 0 V ,_ i J Z u, WZ wD Z LU Q W DU 2:V o �O �> a Wv �a O LLZ M = a z J O ~ O W N ca ui U Q � O � Z Q O REVISIONS AGENCY REVIEW ONLY Scale: Drawn by: SEE DETAIL JRT Sheet: Designed by: IRT 11 15 Reviewed by: IRT of Project Number: Date: 18-010 02 APR 2019 TDP OF PILL TOP OF FILL TOP OF FILL to FLEXIBLE PIPE py vy vy �Y FY d Reund Gorr'anted Aluminum Pipe d d 4 H X LL -"I Q 5 U 2.2j3. x corru®axion +• 2 2J3 x 1g corruaation P W J11 U W J~ U GENERAL NOTE$:. rr W J 0] G p1H0 LINE pgLM LINE OIOmO LITE N L'1 H C7 $LOPE A$ fiMDLCRTEQ ON PLAN$ "-' iH 4 V' pOLo2 Diameter Minimum cover Maximum HDiaht of Cover [feetf Diameter Minimum cover Maximum Height of Cover [featl 00,,=2 B 00122 CHAMFER ALL CORNERS 1 OR HAVE A RADIUS OF 1". p0 == - - - - RL D� SELL END OF PIPE f� [� -s„s.+9r• - - - - -- "+Q r,a rte. - - W d LL= SnChBS (inches (GD) 18 14 12 10 8 (inches)1nche9 ((3e] 16 14 42 fa 8 Wa LL= TO FACE � WALL ! UJ III rr rP Hr W¢ LL= Fc� 40 12 Ila 204 256 12 2 123 55 al$ 267 344 FCO 4 D H 4CO. PLACE 2 #8 Y BARS IN THE TOP OF ALL ENDWALL FOR PIPE CULVERTS 42 HCT C3 CO. ' w COMPACT AFTER ' COMPACT AFTER d F- F,I 15 12 182 284 15 12 S8 123 174 224 275 `C F S H x i" Z'-' N rR F = F PFPE T6 PLACED ' - • - Y .- PIPE [9 PLACED �_ _ 16 72 135 7e9 239 78 12 E1 102 Ilea 787 22e 09F - AND OVER WITH A MINIMUM OF 3 COVER AND A LENGTH OF i6 LESS THAN w UI , N F 0 w R C1> 1$3 1, +a PuCe�iENieDF - T L� ' FLA�CIgp"iopF Q -in '�4 21 12 t 15 146 204 zt 12 6$ B7 t rs 164 ta5 0 0 f f a o ENDWALL LENGTH . o o 0, FILL _ aEOTEXTILE FILL Z ,,� 24 12 100 128 178 24 12 60 76 106 139 177 Z ,.., I R Z ,.,, Z ,.., [.0.16 MIX. F } SO 12 TB 900 142 27 12 B-7 EiS 12$ 151 F } ^ f r 3 ,� GONG• Q r } r } •-Tp- .-r > 1 PIPE #4 -SARA af-' CONSTRUCT BOTTOM SLAB WITH FORMS. Hti I.D-IO Mix. J ... ;. • , CL 30 12 $5 83 117 152 $D 92 $Q 85 111 1a8 W p f- LU ❑ W O I,D, 78 too. u�,c r„ r=,. d+r ++ r'"IFrILa r ,r+�;,�'_ ,E� EMTH W ❑ 42 i2 5S 70 f00 }SLI 780 S8 32 54 71 92 119 i I i O O Nor LESS Tww a" NOT ,�� THAN a• Ila" PER FOOT OF W - �� ❑ 46 72 48 e7 e7 Ilia 139 42 12 e0 7$ 96 ❑ s DO NOT INTERPRET WALL THICKNESS (T) SHOWN FOR THE THICKNESS D,D.. 3' NOIR MORE Tw°lxlw 12" RDpr G.D, . a' 64 I 54 77 "1 Ili 9D 12 52 BB 114 ACCEPTABLE BUT IS USED IN COMPUTING ENDWALL QUANTITIES.. NORMAL EARTH FOUNDATION AS oxRECTED er MOI. 80 12 .1 9D 111 54 12 a$ 50 74 ROCK FOUNDATION r a 72" UNSUITABLE MATERIAL FOUNDATION 66 Iz $1 taD sD 12 ez PLAN �� ��11 WHEN THE CONTRACTOR ELECTS TO USE A CONSTRUCTION JOINT AT THE BOTTOM PIPE IN TRENCH 72 12 74 01 $$ 12 61 a TDP OF FILL TOP OF FILL TOP 01 FILL 76 1z B1 72 12 41 FoorxMG--/ OF THE PIPE, PLACE BAR "X" DOWELS IN THE BASE AS SHOWN ON PLANS. = 84 12 69 x (IF CONST. JOINT IS USEOI DOWEL W SPACE BARS APPROXIMATELY ON 12" CENTERS UNLESS OTHERWISE DIRECTED W O O G Y Iy •• "'r' FORDI DIFFERENT CORRUGATIONS AND ARCH PIPES REFER TO If END ELEVATION BAR- XW BY THE ENGINEER. G N IN CC f 'T- CC ROADVMAY DESIGN MAMUAL OR MANUFACTURERS SPECIFICATION. U- (• O 2 �. U.I O Z LL J LL aJ LL LL WHEN THE CONTRACTOR ELECTS TO USE A CONSTRUCTION JOINT AT THE BOTTOM W W w H W w CD J REFER TO THE FOLLOWING FOR PIPE SPECIFICATIONS J DDIIELS IN EmpBALL WITH REINFORCED CONCRETE PIPE 2 OF THE PIPE AND POUR THE BASE SEPARATELY LEAVE THE POUR ROUGH. i J ORDUMD LINE HPHOIArD LiIE H H W PA ❑ PA ❑ mix. o.P MSN. 0.0 -�,� NTN. O.O- YIN- O -o- YIN. O�D. MIH- 0-D CSF AASHTO M36 I I PIPE 83NBLE PIPE DOUBLE PIPE p1 CLASS"B" .� q1 UNDMND LFXE TYPE z F (• J USE CLASS ' B CONCRETE. O v H - CAMP - AASWO M294 1 0 Cg I i I I i 1 i I LOG. DIA. 15" 1$" 24" 90" 38" i2" 4S" 15" 18" 24" 30" 36" 42" bg" LL :L '� ■�../7 ,+' d HDPE (Minimum fill 2' for pipe diameter9 Z 72" and 5 8l1 AGE A$TY D FB49 4 eAAB r"7[" "1C" X. '%" ,"%" "7[•' Y.• "%" Y• •%• •I" •1[" "%" "7[" „%„ Y. „%" Y• 4 Com' er w E 1 PP a s 4 err 0= d + (Maximum, fill) 20' for pipe diameters 5 24" n F I I I I I I I W W _N r •.ter.-'-�, "t�HIPACP AFTER H••F ,,,, or AASHTO MSM r..t J W J W -PIPE IS PLACED ❑ d 17' for pipe diameter$. a 3G" antl 5 60" ❑ F - - _- G QTY. 2 2 3 3 4 4 5 2 2 S 3 4 4 5 ❑ J L- LU ❑ J IL IL aPRIQ1rD W CC W 2 - -� �_ -t -�- M QTY. 2 2 1 t P 2 2 2 2 g 2 Cc Q H" C[ H H W. -1. D, r6 MIN. PLACEMEMI OF d �. d ¢ M. d X07 LE88 Tw1X e" ',y_r _ r4 FILL t< , _ u+� ¢ O PVC - • {Minimum, fill) 2' for pipe Diameters Z 12" and 5 30" NOTES: FILL HEIGHTS SHOWN WERE CALCULATED USING d CS 3.D, Fe WLH. r r+ AS maETa rEo ❑ '-' ' (MaximemR fill] 30' for pipe diameters > 12" and t 3B" AASHTO LRFD BRIDGE DESIGN SPECIFICATIONS ❑ '-H POYEL. $ QTY. 2 2 3 3 4 4 5 2 2 G a 4 4 5 ❑ ❑ COMPACT AFTER 3.0 -Ie MIN. NOT LEB6 THAM 6" YIX.f OA,' (AIN. H0.0. BY ENOLNEE.4 F" F �' - ~ W L TTITAL LHB. $ $ Y4 14 99 SS 85 12 12 19 Ila 23 Y7 92 "� W "; W PLPE I$ PLACED Nor LESS THAN 6" 0.0..2 H -H Y d = M d = CD L Ps On TO 14" FER Farr OF 'N" F 1' MINIYUI. COVER FON ALL SIDE DRAIN PIPE F F J 'd' J V PLACEMENT OF BUT NOT LESS Tlw) 12" N ' FILL HEIGHT I8 MEASURED FROM THE TOP OF THE PIPE {� J DPTIONRIL. CONSTRUCTION JOINT Vj W m fn W m FILL NORMAL EARTH FOUNDATION ROCK FOUNDATION NPR NONE THAN 24 UNSUITABLE MATERIAL FOUNDATION PIPE ABOVE GROUND LL C) TO THE BOTTOM OF THE PAVEMENT STRUCTURE IM ACCORDANCE WITH THE STANDARD SPECIFICATIONS LL J c LL ELEVATION RIGID PIPE 3,. •S" BARS 6 11" CTS. 3" #a BAR - r o °P . 1 1 ' • DOWEL "C" A ' OPTIONAL NVkh LE SEE GENERAL NOTES s ' FOR PLACEMENT AND STEEL INFORMATION a" $'-0" HDDK 2132" RADIUS PLAN OF TOP SLAB „ " Y BARS D" "Y" OARS P 1114' CTS. D" BAR DIMENSIONS ARE OUT TO DUT"6" -p G 0,••' x m m ' t2 LITTI ! ' L'6'+ Ir 0',8" N rr INSET A ALAN OF BOTTOM BLAB CONCRETE BLOCK 7: CONSTRUCT SECTION "8" OF THE PROPOSED WALL S" THICK, AND SECTION "A" 12" THICK. NOTE 2: IF PROPOSED STRUCTURE EXCEEDS 12'-0" VERTICAL HEIGHT A DESIGN WILL BE REQUIRED FOR APPR=OVAL. NOTE 3: USE SINGLE EXCEPT DOUBLETMREISFEELING MAYS BEEU1ED' IN LIEU OF HOOK BARS IN BASE SLAG. GENERAL NOTES: OO HOT OPERATE HEAVY EOUTPMENT OVER ANY PIPE CULVERT UNTIL THE PIPE WLVFRT HAD T.D. •TNF MAXTYJM NOR;;oHRAL INBTOF DIAMETER DIMENSION, STEM PROPERLY M04ILLED AND OWNED WITH AT LEAST a DEET OF APPRW® MATERIAL. a d O O = RG? - ' (Minimum fill) 1' for Claus IV & CLASS V d O 0 -� NGLE PIP DOUBLE PIPE 2 2' for Close III 5 Claes II REFER TO THE FOLLOWING FOR PIPE SPECIFICATIONS 2 D.D. - THE MAXIMUM HORIZONTAL OUTSIDE DIAMETER DIMENSION. - - - - - SPRINOL1NE OF PIS r m34 r 3,_3" 1' 5" 2'-9" H • WE FILL NETS"' MEAMPED VERTICALLY ATM POINT BE I BACKFILL MATERIAL CLAW III OR CLASS II, t + (Maximum fill) 10' Claes SI pipe RCP - AA8H70 Y170 2'-2" 7'-S" 1.0 ALOHA THE PIPE FROM RHE TOP OF TIE PIPE TO THE TOP DELON 9PRINGLINE. W-7" 1'=10" 3'-2" 2G` - Class III e pip 4 1.0 OF THE EMI ANILENT AT THAT POINT. 1.3 30' - Class IV pipe 4'-2" 2'-1" 4'-0" 3" ® APPROVED SUIIABLE LOCAL MATERIAL ABOVE GPAINGLINE. 1.5 40' - Class V pipe 8 SD' - TNff CARE TO FULLY COMPACT HAUNCH ZONE OF PIPE RACCFILL. +G4•rs"'=' ANDTPnmeED EARTH MATERIAL 4% " NOTES: FILL HEIGHTS SHOO WERE CALCULATED USING (Far fills � 47M' 6 � SO' ALBS LRFD Direct F1AGign Method) 2.3 4'•3" 13'-8" LOOSELY PLACE? sELECT MATERIAL GADS [II 09 CLASS II, TYPE H t•' ' 85LECT MATIiRIAL CLA59 Y OR VL F09 FOUNDATION CONOITIONIIb ENCAPSULATE 36" AASHTO LRFD BRIDGE DESIGN SPECIFICATIONS 0" 3.4 FOR PIPE OECD Lra1. LEAVE 8ECPIM DIRELTLY BENEATH Pi PE WITH TYPE 2 GEDRIXTILE Aa DIRECTED aY THE ENGINEER. SHEET 2 OF 3 • FILL HEIGHT IS MEASURED FROM THE TOP OF THE PIPE SHEET OF SHEET 7 OF SHEET 3 OF ImICdPACTED AS PIPE SERTIN0, AND 11ACeFILL SILL t' MINIMUM COVER FOR ALL SIDE DRAIN PIPE 'SEE SHEET 3 ACCOLPLIEH COMPACTION. 30D . 0 1 TO THE BOTTOM OF THE PAVEMENT STRUCTURE 300.0 1 838.0 1 838.0 1 IN I�CORRIVIGE WITH THE STANDARD SPECIFICATIONS Y NOTES: USE CLASS "B" CONCRIETE WEwumom". Z Z Z Z 4 112"ALR. 4 4 GENERAL NOTES: ❑ PROCEDE ALL CATCH ERSTM OYER 8 e IN DEPTH 7OR STEP, 12" H H H Hto ON CE1IT'ER. USE STEPS M1ICH COMPLY WITH STD. aRM]Ne DOD.M• F � AF'1 •r ` F � 2" 11P.�P XGIJES GEIIEAAL ROTES: F Y Y Ma17M JOINTS 32" +!- 1'S" THICK, F Y OPTIONAL CONSTRUCTION - MONOLITHI0 POOR 2" KEYMAY, OH e4 RAR DO%CLS AT d F d F Y'-� Lmr CLASS "R" CONCRETE THRd10HOUT. d F ~� USE CLASS "8" CONCRETE THROUGHOUT, d F 12" CENTERS AS DIRECTS? BY THIS E"]West- 2W U Z Pr U HR1mrIDE ALL O11DP xNLL7S OYER 3'-s" [N DEPTH WITH SPEP$ s2" Z DC U USE FORMS FOR COIBTRUCTION OF THE BOTTOM BLAS. 2 2 U eaE PDflY6 FOR THE CONSTRUCTION OF THE BOTiOY BLAB. '-' 4 - " 4 0' ON CtWMA. USE STEPS WICH COMPLY WITH SILL- CRANING $40.88- iH 4 V' fy 4 0 IF REINFORCED OONORETE PIPE 18 SET IN BOTTOM DLAB OF SOX, ADD TO SLAB LL J N ~ 2 Y to =D LL -J, H -•H Z" I U- J H•H Z USE N4 BAR DOWELS AT 72" CENTERS, LL �H-•H 2 p 0 S ■ p 0 S I pPTIONA4 CONSTRUCTION NOHXILTTXTC POUR E" MI•gAY OR N BAR O0.11LER.6 A7 0 0 2 p 0-j 2 W (� X P Y AS BIHOaN ON sro. H0. a4D.OD. -• } ±� - 3"X14" THICK .. 12' cENrERa AS Oi,eCTPD BY THE EHIGFNEER.. _ X - DEDUCT FOR IPEIS} FROM TOTAL OU. MOS. OF BRICK NASWaI . _ W LL = ° 6 OUND OR SQUARE W LL = X X W d LL - - I - - - PROVIDE ALL CATCH ,ASIX$ OVER 3'•9" IN DEPTH WITH STEPS .6 W S LL = POR S` -D' IN XlIOHT OR LE98 LM! e" mDALLS AND BOTTOM BLAB. 9YEW F 4 F 4 UDE FORM FOR THE OOHDTRUGTION OF THE $DTTaM DL49. H 4 F (] 4 6'-0" TD 7P'-0" IN NEIr91T DBF 6" (FALLS NIP COTTON SLAB. PQUUBL d �' � UT HASHER U' f [D ON CENTER, USE STEPS MICH COMPLY WITH STD. ORAWI NO 840.68. � h - SF REINFUMCED D. NO, E PIPE I$ SET IX BOTfUM SMAS OF- BOx, APG Tp $LAB �• r d X , X OOMTITIE9 ACCORDINGLY. F ~ 2O W L1 F 21- 2 W I AS SNPNN ON $N. XD. 640. W. DO = F- W - _ ACBE BRIM OR CONCRETE THE SMOCK TIHICH COMPLIES WITH THE REOUIREYENTS F = LL Z w - - - CDII6TTMICT FITH P1 PE CAOM15 Y4TCNINO. LL J 2 - HEX NUT' '� F LL O J - - -- - - - - DO F LL OF SECTION 890 OF THE STANDARD SPED CF FCATIONS. F LL p R Ir H 12" Ot p'••' d COPI$TRrICT WITH PIPE GRAN$ WTGTMSH It H -r 0 L7 TA 72" O in I 0 0 fn f IF REINFORCED CONCRETE PIPE IS SET IN SOl°7OM SLAB OF BOX, ADD TO SLAB O in ]NBTALL 2" WEEPHOLES AB OIAECTED BY THE ENGINEER. Z w Z w I SEE STANDARD ORMIACI 840.2E FOR ATTACHMENT OF FRAIE9 AND GRATES NOT 9INMmr. Z x••R AS SHOWN ON STU. XO. 840,00, Z INSTALL STONE OWNS, OF A MINIMUM of 1 CIAIC FOOT OF NO. Tax STONE IN A r } r } INSTALL 2" 1MJEPHDLE8 A9 DIRECTED BY THE EIADINEEA- r } } 1-+ f -H H FOR 8'-0' IN HEIGHT OR LES8, USE S' SCULL. OVER SO" IN HEIGHT, USE m Pp1gU8 FARPoIC RAG OR ANAP, AT EACH NEEP HOLE OR A8 DIRECTED NV THE ENGINEER, LU ❑ U., ❑ INSTALL STORE DRAINe, OF A MINIMUM OF 1 DURIC PWT OF NO. 7$11 STONE IN A d ❑ 12" MALL TO $`•0" FROM TOP OF MALL AND 8" WALL FOR THE REMAINING [ W O CHMIFat ALL EXPOSED CONNERS 7". • DETAIL OF HANDLE ° p I POROUS FAEq IC PAn on 7a6AP, AT EACH WEEP HPLE bfl AS DLRECTED eY THE ENGINEER. ' w0 I W -O". OUANTIT£S TG BE ADJUSTED ACCORDINGLY. - - - 0 DRAMINa NOT TO SCALE. ��aMEM CHAMFER ALL EXPOSED CORNERS 1". I ` - - W4, - - W Y'� ' DRMIMa NOT TO WALE. Y` CONSTRUCT WITH RIPE Cm01NN8 MATCHING. . INCREASE THE DIZE OF THE D" DPEM[Xa TO s' MARE A9 OIRELEVA BY THE SEE STANDARD ORAMINC 840.25 FOR ATTACHMENT OF FRAMES AND GRATES. ENOIMEER aY A170IMB 4" TO TWE CULL HIEaFR ABOVE THE HIP ELEVATION. ADJUST 182"OLA. PLIIIH 2" WEEP HOLES QUANTITIES ACCOADINOLY. 1 " m3 BAR$ "%" 1 " PLAN WITH CAPING flEYOYEP 00 NOT OSE BRICK MASONRY OAOP INLET IN LOCATIONS &bJECT TO Y � LR. EQUALLY SPACED CLR. � WITH 09147E d FRAME REMOVED TRAFFIC' PLAN F COUNTERSINK PART WHERE HANr7LE IS LOCATED 1" H CHAIAFER ALL EXPOSED CORNERS 1". BRAWINO NOT TO SCALE. IF REB P. a TOP SLAB AND ALLOW HW'a7LE TO MOVE VERTICALLY. ,� Cc 7.EE". COPDN (IMMIENYALI i0P $LPG S m P1 • YP m BRICK COPING(INCIDENTAL) T P ELEVATION 04 LIAR I TOP ELEVATION PRECAST OR CASTINPLACE TOP SLAB O +l- TOP ELEVATION O � TOP ELEYAT[Of1 O LITTER LINE LL LL - LL LL ___________� M. 840.18 FRAME W v �^A OT a 94 SM 2 '-TM'I g•. C7 F C'3 F- Fi GRATE 0 J CS OPENING R"` I ^LL.. Z (1J F r 7" PIPE SLEEVE % 3' LONG. Z a W Z= W Z W L41 e ^ '� M#4 BAR LL.r 94 BARO "Y" HANDLE 1" PIPE SLEEVE y Ha,, A 8" I"E tLL•H 1 g" A per,, TOP ELEVATION D" a $" A 1Yy" cLR. 1 1 CL PART SECTION H o- d W a- $" R a" N 0. B" e• s I o 19 170 THRU COVER 9HOWINO HANDLE v 9C 4 x p "'•"7 PIPE MALL ❑ -T ® It I I ❑ MU ❑ Ory I "CLRU16. (THICKNE88 VARIES O = _ --FTC O = CE I I ¢O I i` f� iMIN.3 +T�- t"- 0: IS BARS "%^ I ' S. I Z Lr TE �,\``/J/ ' P4 BAR 2 F EQUALLY SPACED 4" x d W F 112" CLR. F x M DOWEL F r _ F SEE IgTI I fn C6 C4 #4 BAR fn IL C11 m SEE NOTE (SEE NOTE) MAX. PIPE THIS SIDE Y �- CV `,p 3• aH >- W LV SECTION V -V SEE NOTE O 0- ¢ (, r MAX. PIPs MIS 4To5 - +a" ®i '% SECTION X - x- SECTION Y -Y PART SECTION Y -Y x SECTION J( -I SECTION Y -Y L m r 1NI0lIINB DETAILS AT OPENING d W 0 d W SECTION X -X SECTION Y -Y d O d © �] CJ L.i DIMENSIONS AND WAAMTIT3ES FOR ONOP INLETIBASED ON MEN, HE70HTy XI YIN., DIMENSIONS AMD QUANTITIES FOR CONCRETE CATCH MAIN M%&W ON MIN, HEIGHT, H: 0: W 94 BARS "Y" „ W DIMENSIONS AND QUAtATITIES FOR DROP INLET(BA ED ON MIN. HEIGHT H yaE�� b¢" CLR. 112 CLR. D[wENSION6 OF BOX 8 PIPE CUBIC MMD$ CUBIC YAROB OEx CTTdA6 FOR DOME L E ALLY P. ED QIMEIM330NS OF BOX b PIPE PIN'S A eI ! PIPE REINFORCING i NOT. CV. 196, CONC. TOTAL A BLAaIEB DEDUCTION DEL. pWWrE 16 8 AC LL" p1BIC YARGS DEIXICTION9 F011 PIPE P A DIN HEIGHT PMS - x PARS Y RAR, - z OTMd9MF18 IN ear RDN a aLAee ONE AIDE aOPFNIIIB T �' Y . 8" ii FIDE SPAN WIDTH NIH. NEIBHT. CONC. IN ROTC ONE PIPE RYPE $PM xI DTH YIN. XE3GXT CONCRETE BRICK MASONRY ONE PIPE_ 12" 9A 2 H NO. LEMOTH'. NO LENGTH MO LENGTH F Q #3 $ X" x BOTTOM WALL PER *SAL M M rbP bus Fm• MEI1F*. I0 LMS M:DT. Im11U C. a. R -C. Ye. = a BOTTOM MALL PER , O A 8 N W4GN�1'! Fpl C.S. R.C. -3" 1'•10" 4 3 -D S 4'•0" 2 4%0" 4'.$' 31•9" 0.181 0.271 0.250 27 1-045 0,415 0,032 0, we-- d G 0 A B H ELAN FT. M. Pd' •["'-- C.M. R.C. BLR6 FOOT HT. Neh" x " 12^ 3'-O" 2'-0" 2'-D" 0.2aa 0.473 a.b22 0.020 0.092 18 8 •8 2' 9" 2' I" 4 8 -D 6 +'-0' 2 4'-9" 4' 6" S 3" O. Y61 0.271 6.250 27 1.1DB 0-028 O.Oa6 0.046 #1 AleMC L 12" 3'-O" 2'-O" •0 0.222 0.222 O. SYB 0.015 O.O2B 18 4 - -0 2'�S" 2',A' S 2'•e" 7 4'.S" 2 V.9" 5'-0- 3'-@- 0.228 0.340 0.204 35 1.379 0.033 0.049 01053 DORM 15" 2'•3" 0.268 D.313 0.$00 mil 0.047 a a o.D3$ N" 4' 0" 2' B 2.10 5 3'-6" T 4' S" 2 4'-9' 5` O• 3'•S" 0.228 0,340 0,264 38 1.621 0.059 0.095 0.053 75 O.D48 D p.-9 18" 2'` 8" 0.266 D.313 0.575 0.044 0.085 �y 2 - 0.708 9D" 4`•O" 9' e" G•a' 5 4'-a'" a 4' 9" 2 4'. SECTION W -W 18"' D 0.033 o.Ga9 +-p^ 0.28$ 0.919 0.885 0.078 O. uta 9" 5'D" d'•e" D. 276 8,417 0.916 49 1.a1P B.B9Z 0.127 0.069 24 3 •9 0.$19 9e 4 •$ 4'-0" 9 ,a 5 4 . I, :o a' a" 2 W,3' 5-B 0 0.940 O, 51Q ❑.952 S1 4.390 0.199 0.179 0.0.5P 0.059 D.D66 SHEET 1 DF 2 SXEET 2 DF 2 $,O 3'-0" 8'-0" S -B 0,22@ 0. MM2 0.925 0.09$ 0.127 SHEET 7 OF 1 00" 3'-O" 2'•0" a"$" 0.2SB 0.313 O.BP7 0.122 6.170 SHEET 1 OF 1 42 a'P" 4'•6" 4-4 5 63 12 W-9- 2 51•9" O' -D" B -S 0.407 0.811 0.359 64 2.914 CAW 0°248 0.OD6 /� /'L 48" 5%0" 5'-U" 4', 10 8 5'-9' 73-9--9-2 5'-9" YA" e'•D" 0,444 Tess 0°467 6R 3,293 0.235 0,317 0.086 BOD - 04 840.04 SOV • 14 840.15 1 "' DEPRESSION 1" -74tH 1,_7 r, iy G -G 2'_31(" SECTION H- H DIM MSIONNS ANO CONCRETE QUANTITIES 3' - B" F� I -I E E - i# " `_ -_-1---- --� ry I I I F+ PLAN OF FRAME CAST IRON 1 rr. 1 rr '2r -3A" -ry �.--I J_ - 23r+ _ 2, 1 rr n1 iA SECTION F - F O ❑ ° THREADED ANCHOR ANCHOR ANCHOR GRATE AND FRAIlk ME GRATE AND FRAME GRATE AND FRAME 1" DIA. 1'rLU BIL APPROVED CONCRETE EPDXY RICK WALL SONRY WALL PRECAST ALL CONCRETE WALL BRICK MASONRY CONCRETE PRECAST CONCRETE CONSTRUCTION CONSTRUCTION CONSTRUCTION DETAIL SHOWING ANCHORAGE OF TRIUNE FOR GRATED DROP INLET NOTE: PRECAST CONSTRUCT GRATED DROP INLET TO COINCIDE WITH NORMAL CONCRETE OR SUPERELEVATED SHOULDER OR PAVEMENT SLOPE. CONSTRUCTION CONCRETE CONSTRUCTION - '3'' rR BRICK MASONRY DIA. 4HOrrCONSTRUCTION DIA.NNO?i2^ Lo 17 I �y I DIA, DIA. r rFOR �+2 1$ r: Ir i D" I MASONRY ANCHOR CONCRETE ANCHOR PRECAST FRAME AND GRATE INSTALLATION 3,g" DIA, BOLT WITH PLATE" DIA. BENT BAR CONCRETE ANCHOR FOR NORMAL CROWN AND r SUPERELEVATED SECTIONS ' DIA. BENT BAR USING CONCRETE PIPE 3,. •S" BARS 6 11" CTS. 3" #a BAR - r o °P . 1 1 ' • DOWEL "C" A ' OPTIONAL NVkh LE SEE GENERAL NOTES s ' FOR PLACEMENT AND STEEL INFORMATION a" $'-0" HDDK 2132" RADIUS PLAN OF TOP SLAB „ " Y BARS D" "Y" OARS P 1114' CTS. D" BAR DIMENSIONS ARE OUT TO DUT"6" -p G 0,••' x m m ' t2 LITTI ! ' L'6'+ Ir 0',8" N rr INSET A ALAN OF BOTTOM BLAB CONCRETE BLOCK 7: CONSTRUCT SECTION "8" OF THE PROPOSED WALL S" THICK, AND SECTION "A" 12" THICK. NOTE 2: IF PROPOSED STRUCTURE EXCEEDS 12'-0" VERTICAL HEIGHT A DESIGN WILL BE REQUIRED FOR APPR=OVAL. NOTE 3: USE SINGLE EXCEPT DOUBLETMREISFEELING MAYS BEEU1ED' IN LIEU OF HOOK BARS IN BASE SLAG. A° A 7" HOCK FINISH GRADEJUST 1,-O" m "v4 / w a N o $ COxGaETE BOTTOM SLAB X PLAN (WITHOUT TOP) HOLE 640,54 SFE STANFO MANHOLE COVER a FRAME CK MAY BE USED TO FRNIE B COVER SURFACE ELEVATION MAX. 1' NCRETE TOP $LAB RARE PIPES SHOW pSOEMEE INSET "A" PUR.POBE$ ONLY GEE NOTE" x 00 A - - - -: "Y"ly:R3 4 171d" (WSECITHTOP) �"� _ COMMON DIMENS:ONS111154 NGLE PIP DOUBLE PIPE O H 8 G T ,. M L m34 15" 3,_3" 1' 5" 2'-9" 2%,, 6" 0.7 2'-2" 7'-S" 1.0 18" W-7" 1'=10" 3'-2" 21$"4" 4 1.0 2'-7" 8'•11" 1.3 24" 4'-2" 2'-1" 4'-0" 3" 0" 1.5 3'-5" 8 SD' 5'•0" 2`-e- 4'-7" 4% " 2" 2.3 4'•3" 13'-8" 3.1 36" &'-B' 2'-S" 5' e" 474" 0" 3.4 W -O" 16'-0" 4,5 42" S"-2" S' 1' 6%4" 514° 3' _.. _ -.. 4.5 6'•10" 18'•6" B.0 12 30" 8 {" 6,0 21' 22 FOR PIPE OECD Lra1. LEAVE 8ECPIM DIRELTLY BENEATH Pi PE WITH TYPE 2 GEDRIXTILE Aa DIRECTED aY THE ENGINEER. SHEET 2 OF 3 • FILL HEIGHT IS MEASURED FROM THE TOP OF THE PIPE SHEET OF SHEET 7 OF SHEET 3 OF ImICdPACTED AS PIPE SERTIN0, AND 11ACeFILL SILL t' MINIMUM COVER FOR ALL SIDE DRAIN PIPE 'SEE SHEET 3 ACCOLPLIEH COMPACTION. 30D . 0 1 TO THE BOTTOM OF THE PAVEMENT STRUCTURE 300.0 1 838.0 1 838.0 1 IN I�CORRIVIGE WITH THE STANDARD SPECIFICATIONS Y NOTES: USE CLASS "B" CONCRIETE WEwumom". Z Z Z Z 4 112"ALR. 4 4 GENERAL NOTES: ❑ PROCEDE ALL CATCH ERSTM OYER 8 e IN DEPTH 7OR STEP, 12" H H H Hto ON CE1IT'ER. USE STEPS M1ICH COMPLY WITH STD. aRM]Ne DOD.M• F � AF'1 •r ` F � 2" 11P.�P XGIJES GEIIEAAL ROTES: F Y Y Ma17M JOINTS 32" +!- 1'S" THICK, F Y OPTIONAL CONSTRUCTION - MONOLITHI0 POOR 2" KEYMAY, OH e4 RAR DO%CLS AT d F d F Y'-� Lmr CLASS "R" CONCRETE THRd10HOUT. d F ~� USE CLASS "8" CONCRETE THROUGHOUT, d F 12" CENTERS AS DIRECTS? BY THIS E"]West- 2W U Z Pr U HR1mrIDE ALL O11DP xNLL7S OYER 3'-s" [N DEPTH WITH SPEP$ s2" Z DC U USE FORMS FOR COIBTRUCTION OF THE BOTTOM BLAS. 2 2 U eaE PDflY6 FOR THE CONSTRUCTION OF THE BOTiOY BLAB. '-' 4 - " 4 0' ON CtWMA. USE STEPS WICH COMPLY WITH SILL- CRANING $40.88- iH 4 V' fy 4 0 IF REINFORCED OONORETE PIPE 18 SET IN BOTTOM DLAB OF SOX, ADD TO SLAB LL J N ~ 2 Y to =D LL -J, H -•H Z" I U- J H•H Z USE N4 BAR DOWELS AT 72" CENTERS, LL �H-•H 2 p 0 S ■ p 0 S I pPTIONA4 CONSTRUCTION NOHXILTTXTC POUR E" MI•gAY OR N BAR O0.11LER.6 A7 0 0 2 p 0-j 2 W (� X P Y AS BIHOaN ON sro. H0. a4D.OD. -• } ±� - 3"X14" THICK .. 12' cENrERa AS Oi,eCTPD BY THE EHIGFNEER.. _ X - DEDUCT FOR IPEIS} FROM TOTAL OU. MOS. OF BRICK NASWaI . _ W LL = ° 6 OUND OR SQUARE W LL = X X W d LL - - I - - - PROVIDE ALL CATCH ,ASIX$ OVER 3'•9" IN DEPTH WITH STEPS .6 W S LL = POR S` -D' IN XlIOHT OR LE98 LM! e" mDALLS AND BOTTOM BLAB. 9YEW F 4 F 4 UDE FORM FOR THE OOHDTRUGTION OF THE $DTTaM DL49. H 4 F (] 4 6'-0" TD 7P'-0" IN NEIr91T DBF 6" (FALLS NIP COTTON SLAB. PQUUBL d �' � UT HASHER U' f [D ON CENTER, USE STEPS MICH COMPLY WITH STD. ORAWI NO 840.68. � h - SF REINFUMCED D. NO, E PIPE I$ SET IX BOTfUM SMAS OF- BOx, APG Tp $LAB �• r d X , X OOMTITIE9 ACCORDINGLY. F ~ 2O W L1 F 21- 2 W I AS SNPNN ON $N. XD. 640. W. DO = F- W - _ ACBE BRIM OR CONCRETE THE SMOCK TIHICH COMPLIES WITH THE REOUIREYENTS F = LL Z w - - - CDII6TTMICT FITH P1 PE CAOM15 Y4TCNINO. LL J 2 - HEX NUT' '� F LL O J - - -- - - - - DO F LL OF SECTION 890 OF THE STANDARD SPED CF FCATIONS. F LL p R Ir H 12" Ot p'••' d COPI$TRrICT WITH PIPE GRAN$ WTGTMSH It H -r 0 L7 TA 72" O in I 0 0 fn f IF REINFORCED CONCRETE PIPE IS SET IN SOl°7OM SLAB OF BOX, ADD TO SLAB O in ]NBTALL 2" WEEPHOLES AB OIAECTED BY THE ENGINEER. Z w Z w I SEE STANDARD ORMIACI 840.2E FOR ATTACHMENT OF FRAIE9 AND GRATES NOT 9INMmr. Z x••R AS SHOWN ON STU. XO. 840,00, Z INSTALL STONE OWNS, OF A MINIMUM of 1 CIAIC FOOT OF NO. Tax STONE IN A r } r } INSTALL 2" 1MJEPHDLE8 A9 DIRECTED BY THE EIADINEEA- r } } 1-+ f -H H FOR 8'-0' IN HEIGHT OR LES8, USE S' SCULL. OVER SO" IN HEIGHT, USE m Pp1gU8 FARPoIC RAG OR ANAP, AT EACH NEEP HOLE OR A8 DIRECTED NV THE ENGINEER, LU ❑ U., ❑ INSTALL STORE DRAINe, OF A MINIMUM OF 1 DURIC PWT OF NO. 7$11 STONE IN A d ❑ 12" MALL TO $`•0" FROM TOP OF MALL AND 8" WALL FOR THE REMAINING [ W O CHMIFat ALL EXPOSED CONNERS 7". • DETAIL OF HANDLE ° p I POROUS FAEq IC PAn on 7a6AP, AT EACH WEEP HPLE bfl AS DLRECTED eY THE ENGINEER. ' w0 I W -O". OUANTIT£S TG BE ADJUSTED ACCORDINGLY. - - - 0 DRAMINa NOT TO SCALE. ��aMEM CHAMFER ALL EXPOSED CORNERS 1". I ` - - W4, - - W Y'� ' DRMIMa NOT TO WALE. Y` CONSTRUCT WITH RIPE Cm01NN8 MATCHING. . INCREASE THE DIZE OF THE D" DPEM[Xa TO s' MARE A9 OIRELEVA BY THE SEE STANDARD ORAMINC 840.25 FOR ATTACHMENT OF FRAMES AND GRATES. ENOIMEER aY A170IMB 4" TO TWE CULL HIEaFR ABOVE THE HIP ELEVATION. ADJUST 182"OLA. PLIIIH 2" WEEP HOLES QUANTITIES ACCOADINOLY. 1 " m3 BAR$ "%" 1 " PLAN WITH CAPING flEYOYEP 00 NOT OSE BRICK MASONRY OAOP INLET IN LOCATIONS &bJECT TO Y � LR. EQUALLY SPACED CLR. � WITH 09147E d FRAME REMOVED TRAFFIC' PLAN F COUNTERSINK PART WHERE HANr7LE IS LOCATED 1" H CHAIAFER ALL EXPOSED CORNERS 1". BRAWINO NOT TO SCALE. IF REB P. a TOP SLAB AND ALLOW HW'a7LE TO MOVE VERTICALLY. ,� Cc 7.EE". COPDN (IMMIENYALI i0P $LPG S m P1 • YP m BRICK COPING(INCIDENTAL) T P ELEVATION 04 LIAR I TOP ELEVATION PRECAST OR CASTINPLACE TOP SLAB O +l- TOP ELEVATION O � TOP ELEYAT[Of1 O LITTER LINE LL LL - LL LL ___________� M. 840.18 FRAME W v �^A OT a 94 SM 2 '-TM'I g•. C7 F C'3 F- Fi GRATE 0 J CS OPENING R"` I ^LL.. Z (1J F r 7" PIPE SLEEVE % 3' LONG. Z a W Z= W Z W L41 e ^ '� M#4 BAR LL.r 94 BARO "Y" HANDLE 1" PIPE SLEEVE y Ha,, A 8" I"E tLL•H 1 g" A per,, TOP ELEVATION D" a $" A 1Yy" cLR. 1 1 CL PART SECTION H o- d W a- $" R a" N 0. B" e• s I o 19 170 THRU COVER 9HOWINO HANDLE v 9C 4 x p "'•"7 PIPE MALL ❑ -T ® It I I ❑ MU ❑ Ory I "CLRU16. (THICKNE88 VARIES O = _ --FTC O = CE I I ¢O I i` f� iMIN.3 +T�- t"- 0: IS BARS "%^ I ' S. I Z Lr TE �,\``/J/ ' P4 BAR 2 F EQUALLY SPACED 4" x d W F 112" CLR. F x M DOWEL F r _ F SEE IgTI I fn C6 C4 #4 BAR fn IL C11 m SEE NOTE (SEE NOTE) MAX. PIPE THIS SIDE Y �- CV `,p 3• aH >- W LV SECTION V -V SEE NOTE O 0- ¢ (, r MAX. PIPs MIS 4To5 - +a" ®i '% SECTION X - x- SECTION Y -Y PART SECTION Y -Y x SECTION J( -I SECTION Y -Y L m r 1NI0lIINB DETAILS AT OPENING d W 0 d W SECTION X -X SECTION Y -Y d O d © �] CJ L.i DIMENSIONS AND WAAMTIT3ES FOR ONOP INLETIBASED ON MEN, HE70HTy XI YIN., DIMENSIONS AMD QUANTITIES FOR CONCRETE CATCH MAIN M%&W ON MIN, HEIGHT, H: 0: W 94 BARS "Y" „ W DIMENSIONS AND QUAtATITIES FOR DROP INLET(BA ED ON MIN. HEIGHT H yaE�� b¢" CLR. 112 CLR. D[wENSION6 OF BOX 8 PIPE CUBIC MMD$ CUBIC YAROB OEx CTTdA6 FOR DOME L E ALLY P. ED QIMEIM330NS OF BOX b PIPE PIN'S A eI ! PIPE REINFORCING i NOT. CV. 196, CONC. TOTAL A BLAaIEB DEDUCTION DEL. pWWrE 16 8 AC LL" p1BIC YARGS DEIXICTION9 F011 PIPE P A DIN HEIGHT PMS - x PARS Y RAR, - z OTMd9MF18 IN ear RDN a aLAee ONE AIDE aOPFNIIIB T �' Y . 8" ii FIDE SPAN WIDTH NIH. NEIBHT. CONC. IN ROTC ONE PIPE RYPE $PM xI DTH YIN. XE3GXT CONCRETE BRICK MASONRY ONE PIPE_ 12" 9A 2 H NO. LEMOTH'. NO LENGTH MO LENGTH F Q #3 $ X" x BOTTOM WALL PER *SAL M M rbP bus Fm• MEI1F*. I0 LMS M:DT. Im11U C. a. R -C. Ye. = a BOTTOM MALL PER , O A 8 N W4GN�1'! Fpl C.S. R.C. -3" 1'•10" 4 3 -D S 4'•0" 2 4%0" 4'.$' 31•9" 0.181 0.271 0.250 27 1-045 0,415 0,032 0, we-- d G 0 A B H ELAN FT. M. Pd' •["'-- C.M. R.C. BLR6 FOOT HT. Neh" x " 12^ 3'-O" 2'-0" 2'-D" 0.2aa 0.473 a.b22 0.020 0.092 18 8 •8 2' 9" 2' I" 4 8 -D 6 +'-0' 2 4'-9" 4' 6" S 3" O. Y61 0.271 6.250 27 1.1DB 0-028 O.Oa6 0.046 #1 AleMC L 12" 3'-O" 2'-O" •0 0.222 0.222 O. SYB 0.015 O.O2B 18 4 - -0 2'�S" 2',A' S 2'•e" 7 4'.S" 2 V.9" 5'-0- 3'-@- 0.228 0.340 0.204 35 1.379 0.033 0.049 01053 DORM 15" 2'•3" 0.268 D.313 0.$00 mil 0.047 a a o.D3$ N" 4' 0" 2' B 2.10 5 3'-6" T 4' S" 2 4'-9' 5` O• 3'•S" 0.228 0,340 0,264 38 1.621 0.059 0.095 0.053 75 O.D48 D p.-9 18" 2'` 8" 0.266 D.313 0.575 0.044 0.085 �y 2 - 0.708 9D" 4`•O" 9' e" G•a' 5 4'-a'" a 4' 9" 2 4'. SECTION W -W 18"' D 0.033 o.Ga9 +-p^ 0.28$ 0.919 0.885 0.078 O. uta 9" 5'D" d'•e" D. 276 8,417 0.916 49 1.a1P B.B9Z 0.127 0.069 24 3 •9 0.$19 9e 4 •$ 4'-0" 9 ,a 5 4 . I, :o a' a" 2 W,3' 5-B 0 0.940 O, 51Q ❑.952 S1 4.390 0.199 0.179 0.0.5P 0.059 D.D66 SHEET 1 DF 2 SXEET 2 DF 2 $,O 3'-0" 8'-0" S -B 0,22@ 0. MM2 0.925 0.09$ 0.127 SHEET 7 OF 1 00" 3'-O" 2'•0" a"$" 0.2SB 0.313 O.BP7 0.122 6.170 SHEET 1 OF 1 42 a'P" 4'•6" 4-4 5 63 12 W-9- 2 51•9" O' -D" B -S 0.407 0.811 0.359 64 2.914 CAW 0°248 0.OD6 /� /'L 48" 5%0" 5'-U" 4', 10 8 5'-9' 73-9--9-2 5'-9" YA" e'•D" 0,444 Tess 0°467 6R 3,293 0.235 0,317 0.086 BOD - 04 840.04 SOV • 14 840.15 1 "' DEPRESSION 1" -74tH 1,_7 r, iy G -G 2'_31(" SECTION H- H O ❑ 3' - B" F� I -I E E - i# " `_ -_-1---- --� ry I I I F+ PLAN OF FRAME CAST IRON 1 rr. 1 rr '2r -3A" -ry �.--I J_ - 23r+ _ 2, 1 rr n1 iA SECTION F - F O ❑ ° THREADED ANCHOR ANCHOR ANCHOR GRATE AND FRAIlk ME GRATE AND FRAME GRATE AND FRAME 1" DIA. 1'rLU BIL APPROVED CONCRETE EPDXY RICK WALL SONRY WALL PRECAST ALL CONCRETE WALL BRICK MASONRY CONCRETE PRECAST CONCRETE CONSTRUCTION CONSTRUCTION CONSTRUCTION DETAIL SHOWING ANCHORAGE OF TRIUNE FOR GRATED DROP INLET NOTE: PRECAST CONSTRUCT GRATED DROP INLET TO COINCIDE WITH NORMAL CONCRETE OR SUPERELEVATED SHOULDER OR PAVEMENT SLOPE. CONSTRUCTION CONCRETE CONSTRUCTION - '3'' rR BRICK MASONRY DIA. 4HOrrCONSTRUCTION DIA.NNO?i2^ Lo 17 I �y I DIA, DIA. r rFOR �+2 1$ r: Ir i D" I MASONRY ANCHOR CONCRETE ANCHOR PRECAST FRAME AND GRATE INSTALLATION 3,g" DIA, BOLT WITH PLATE" DIA. BENT BAR CONCRETE ANCHOR FOR NORMAL CROWN AND r SUPERELEVATED SECTIONS ' DIA. BENT BAR p y>'" d a oc ci rc [7 ULJ0H-H 0011 O ¢4�c�4� hx r y�ty W o O VI � Z •� wo O 3,. •S" BARS 6 11" CTS. 3" #a BAR - r o °P . 1 1 ' • DOWEL "C" A ' OPTIONAL NVkh LE SEE GENERAL NOTES s ' FOR PLACEMENT AND STEEL INFORMATION a" $'-0" HDDK 2132" RADIUS PLAN OF TOP SLAB „ " Y BARS D" "Y" OARS P 1114' CTS. D" BAR DIMENSIONS ARE OUT TO DUT"6" -p G 0,••' x m m ' t2 LITTI ! ' L'6'+ Ir 0',8" N rr INSET A ALAN OF BOTTOM BLAB CONCRETE BLOCK 7: CONSTRUCT SECTION "8" OF THE PROPOSED WALL S" THICK, AND SECTION "A" 12" THICK. NOTE 2: IF PROPOSED STRUCTURE EXCEEDS 12'-0" VERTICAL HEIGHT A DESIGN WILL BE REQUIRED FOR APPR=OVAL. NOTE 3: USE SINGLE EXCEPT DOUBLETMREISFEELING MAYS BEEU1ED' IN LIEU OF HOOK BARS IN BASE SLAG. A° A 7" HOCK FINISH GRADEJUST 1,-O" m "v4 / w a N o $ COxGaETE BOTTOM SLAB X PLAN (WITHOUT TOP) HOLE 640,54 SFE STANFO MANHOLE COVER a FRAME CK MAY BE USED TO FRNIE B COVER SURFACE ELEVATION MAX. 1' NCRETE TOP $LAB RARE PIPES SHOW pSOEMEE INSET "A" PUR.POBE$ ONLY GEE NOTE" x 00 A - - - -: "Y"ly:R3 4 171d" (WSECITHTOP) �"� _ GENERAL NOTES: USE STANDARD OR JUMBO BRICK FOR WALL CONSTRUCTION. SOLID CONCRETE BRICK OR BLOCK ARE OPTIONAL WALL CONSTRUCTION MATERIAL INCLUCE ALL AEkJU$TMENT3 TO WALL$ SLABS 4R REINFDRCINp MATERIAL IN THE UNIT PRICE BID FOR F_ACH UNIT. INSTALL OPTIONAL MANHOLE IN POSITION AS DIRECTED BY THE ENGINEER. CUT OR SEND ALL REBAR CROSSING THIS OPENING TO ALLCW 2" MINIMUM CONCRETE COVERAGE. ENCLOSE THE OPENING WITH B "A" BARS TIED TO TO THE REBAR MAT AND SET 80 A MINIMUM OF 3" CONCRETE COVER IS ATTAINED. REFERENCE STD. N0. 84Q.54 FOR MANHOLE INFORMATION. PROVIDE JUNCTION BOXES WITH MAHNOLES OVER 3'-G" IN DEPTH WITH STEPS PLACED ON 12" CENTERS. REFERENCE STD. NO. 840.66. SPACE DOWEL "C" BARS AT A MAXIMUM OF 12" CENTERS. MAXIMUM DEPTH OF THIS UNIT AS SHOWN IS 12'. CONSTRUCT THE JUNCTION BOX IN ACCORDANCE WITH SECTIONS Baa, 832, 834 AND 840 OF THE STANDARD SPECIFICATIONS, _ _ po 4 d F Hy LD LLJ4H••H oOa22 wNLL �c34r�s U y LLRZ0•Iw ) 0 CCO z '> wo C7SECTION CE a� W F CJ VJ UL W U [D Z z 0 t7 d 1L 1, O = U ❑ O W W LL CL F F W >I ¢Sp (] �y d 3V1 m 2 aQ T- N. a at m w 1I 0 OLL z Q CS Fi ❑ F x v d Cy q ❑ M 4 = a. CL r m 3 ¢ Fri w rn d ~ ISL p F LL 0 SHEET 1 DF 2840.25 0 FOR PIPE OECD Lra1. LEAVE 8ECPIM DIRELTLY BENEATH Pi PE WITH TYPE 2 GEDRIXTILE Aa DIRECTED aY THE ENGINEER. SHEET 2 OF 3 • FILL HEIGHT IS MEASURED FROM THE TOP OF THE PIPE SHEET OF SHEET 7 OF SHEET 3 OF ImICdPACTED AS PIPE SERTIN0, AND 11ACeFILL SILL t' MINIMUM COVER FOR ALL SIDE DRAIN PIPE 'SEE SHEET 3 ACCOLPLIEH COMPACTION. 30D . 0 1 TO THE BOTTOM OF THE PAVEMENT STRUCTURE 300.0 1 838.0 1 838.0 1 IN I�CORRIVIGE WITH THE STANDARD SPECIFICATIONS Y NOTES: USE CLASS "B" CONCRIETE WEwumom". Z Z Z Z 4 112"ALR. 4 4 GENERAL NOTES: ❑ PROCEDE ALL CATCH ERSTM OYER 8 e IN DEPTH 7OR STEP, 12" H H H Hto ON CE1IT'ER. USE STEPS M1ICH COMPLY WITH STD. aRM]Ne DOD.M• F � AF'1 •r ` F � 2" 11P.�P XGIJES GEIIEAAL ROTES: F Y Y Ma17M JOINTS 32" +!- 1'S" THICK, F Y OPTIONAL CONSTRUCTION - MONOLITHI0 POOR 2" KEYMAY, OH e4 RAR DO%CLS AT d F d F Y'-� Lmr CLASS "R" CONCRETE THRd10HOUT. d F ~� USE CLASS "8" CONCRETE THROUGHOUT, d F 12" CENTERS AS DIRECTS? BY THIS E"]West- 2W U Z Pr U HR1mrIDE ALL O11DP xNLL7S OYER 3'-s" [N DEPTH WITH SPEP$ s2" Z DC U USE FORMS FOR COIBTRUCTION OF THE BOTTOM BLAS. 2 2 U eaE PDflY6 FOR THE CONSTRUCTION OF THE BOTiOY BLAB. '-' 4 - " 4 0' ON CtWMA. USE STEPS WICH COMPLY WITH SILL- CRANING $40.88- iH 4 V' fy 4 0 IF REINFORCED OONORETE PIPE 18 SET IN BOTTOM DLAB OF SOX, ADD TO SLAB LL J N ~ 2 Y to =D LL -J, H -•H Z" I U- J H•H Z USE N4 BAR DOWELS AT 72" CENTERS, LL �H-•H 2 p 0 S ■ p 0 S I pPTIONA4 CONSTRUCTION NOHXILTTXTC POUR E" MI•gAY OR N BAR O0.11LER.6 A7 0 0 2 p 0-j 2 W (� X P Y AS BIHOaN ON sro. H0. a4D.OD. -• } ±� - 3"X14" THICK .. 12' cENrERa AS Oi,eCTPD BY THE EHIGFNEER.. _ X - DEDUCT FOR IPEIS} FROM TOTAL OU. MOS. OF BRICK NASWaI . _ W LL = ° 6 OUND OR SQUARE W LL = X X W d LL - - I - - - PROVIDE ALL CATCH ,ASIX$ OVER 3'•9" IN DEPTH WITH STEPS .6 W S LL = POR S` -D' IN XlIOHT OR LE98 LM! e" mDALLS AND BOTTOM BLAB. 9YEW F 4 F 4 UDE FORM FOR THE OOHDTRUGTION OF THE $DTTaM DL49. H 4 F (] 4 6'-0" TD 7P'-0" IN NEIr91T DBF 6" (FALLS NIP COTTON SLAB. PQUUBL d �' � UT HASHER U' f [D ON CENTER, USE STEPS MICH COMPLY WITH STD. ORAWI NO 840.68. � h - SF REINFUMCED D. NO, E PIPE I$ SET IX BOTfUM SMAS OF- BOx, APG Tp $LAB �• r d X , X OOMTITIE9 ACCORDINGLY. F ~ 2O W L1 F 21- 2 W I AS SNPNN ON $N. XD. 640. W. DO = F- W - _ ACBE BRIM OR CONCRETE THE SMOCK TIHICH COMPLIES WITH THE REOUIREYENTS F = LL Z w - - - CDII6TTMICT FITH P1 PE CAOM15 Y4TCNINO. LL J 2 - HEX NUT' '� F LL O J - - -- - - - - DO F LL OF SECTION 890 OF THE STANDARD SPED CF FCATIONS. F LL p R Ir H 12" Ot p'••' d COPI$TRrICT WITH PIPE GRAN$ WTGTMSH It H -r 0 L7 TA 72" O in I 0 0 fn f IF REINFORCED CONCRETE PIPE IS SET IN SOl°7OM SLAB OF BOX, ADD TO SLAB O in ]NBTALL 2" WEEPHOLES AB OIAECTED BY THE ENGINEER. Z w Z w I SEE STANDARD ORMIACI 840.2E FOR ATTACHMENT OF FRAIE9 AND GRATES NOT 9INMmr. Z x••R AS SHOWN ON STU. XO. 840,00, Z INSTALL STONE OWNS, OF A MINIMUM of 1 CIAIC FOOT OF NO. Tax STONE IN A r } r } INSTALL 2" 1MJEPHDLE8 A9 DIRECTED BY THE EIADINEEA- r } } 1-+ f -H H FOR 8'-0' IN HEIGHT OR LES8, USE S' SCULL. OVER SO" IN HEIGHT, USE m Pp1gU8 FARPoIC RAG OR ANAP, AT EACH NEEP HOLE OR A8 DIRECTED NV THE ENGINEER, LU ❑ U., ❑ INSTALL STORE DRAINe, OF A MINIMUM OF 1 DURIC PWT OF NO. 7$11 STONE IN A d ❑ 12" MALL TO $`•0" FROM TOP OF MALL AND 8" WALL FOR THE REMAINING [ W O CHMIFat ALL EXPOSED CONNERS 7". • DETAIL OF HANDLE ° p I POROUS FAEq IC PAn on 7a6AP, AT EACH WEEP HPLE bfl AS DLRECTED eY THE ENGINEER. ' w0 I W -O". OUANTIT£S TG BE ADJUSTED ACCORDINGLY. - - - 0 DRAMINa NOT TO SCALE. ��aMEM CHAMFER ALL EXPOSED CORNERS 1". I ` - - W4, - - W Y'� ' DRMIMa NOT TO WALE. Y` CONSTRUCT WITH RIPE Cm01NN8 MATCHING. . INCREASE THE DIZE OF THE D" DPEM[Xa TO s' MARE A9 OIRELEVA BY THE SEE STANDARD ORAMINC 840.25 FOR ATTACHMENT OF FRAMES AND GRATES. ENOIMEER aY A170IMB 4" TO TWE CULL HIEaFR ABOVE THE HIP ELEVATION. ADJUST 182"OLA. PLIIIH 2" WEEP HOLES QUANTITIES ACCOADINOLY. 1 " m3 BAR$ "%" 1 " PLAN WITH CAPING flEYOYEP 00 NOT OSE BRICK MASONRY OAOP INLET IN LOCATIONS &bJECT TO Y � LR. EQUALLY SPACED CLR. � WITH 09147E d FRAME REMOVED TRAFFIC' PLAN F COUNTERSINK PART WHERE HANr7LE IS LOCATED 1" H CHAIAFER ALL EXPOSED CORNERS 1". BRAWINO NOT TO SCALE. IF REB P. a TOP SLAB AND ALLOW HW'a7LE TO MOVE VERTICALLY. ,� Cc 7.EE". COPDN (IMMIENYALI i0P $LPG S m P1 • YP m BRICK COPING(INCIDENTAL) T P ELEVATION 04 LIAR I TOP ELEVATION PRECAST OR CASTINPLACE TOP SLAB O +l- TOP ELEVATION O � TOP ELEYAT[Of1 O LITTER LINE LL LL - LL LL ___________� M. 840.18 FRAME W v �^A OT a 94 SM 2 '-TM'I g•. C7 F C'3 F- Fi GRATE 0 J CS OPENING R"` I ^LL.. Z (1J F r 7" PIPE SLEEVE % 3' LONG. Z a W Z= W Z W L41 e ^ '� M#4 BAR LL.r 94 BARO "Y" HANDLE 1" PIPE SLEEVE y Ha,, A 8" I"E tLL•H 1 g" A per,, TOP ELEVATION D" a $" A 1Yy" cLR. 1 1 CL PART SECTION H o- d W a- $" R a" N 0. B" e• s I o 19 170 THRU COVER 9HOWINO HANDLE v 9C 4 x p "'•"7 PIPE MALL ❑ -T ® It I I ❑ MU ❑ Ory I "CLRU16. (THICKNE88 VARIES O = _ --FTC O = CE I I ¢O I i` f� iMIN.3 +T�- t"- 0: IS BARS "%^ I ' S. I Z Lr TE �,\``/J/ ' P4 BAR 2 F EQUALLY SPACED 4" x d W F 112" CLR. F x M DOWEL F r _ F SEE IgTI I fn C6 C4 #4 BAR fn IL C11 m SEE NOTE (SEE NOTE) MAX. PIPE THIS SIDE Y �- CV `,p 3• aH >- W LV SECTION V -V SEE NOTE O 0- ¢ (, r MAX. PIPs MIS 4To5 - +a" ®i '% SECTION X - x- SECTION Y -Y PART SECTION Y -Y x SECTION J( -I SECTION Y -Y L m r 1NI0lIINB DETAILS AT OPENING d W 0 d W SECTION X -X SECTION Y -Y d O d © �] CJ L.i DIMENSIONS AND WAAMTIT3ES FOR ONOP INLETIBASED ON MEN, HE70HTy XI YIN., DIMENSIONS AMD QUANTITIES FOR CONCRETE CATCH MAIN M%&W ON MIN, HEIGHT, H: 0: W 94 BARS "Y" „ W DIMENSIONS AND QUAtATITIES FOR DROP INLET(BA ED ON MIN. HEIGHT H yaE�� b¢" CLR. 112 CLR. D[wENSION6 OF BOX 8 PIPE CUBIC MMD$ CUBIC YAROB OEx CTTdA6 FOR DOME L E ALLY P. ED QIMEIM330NS OF BOX b PIPE PIN'S A eI ! PIPE REINFORCING i NOT. CV. 196, CONC. TOTAL A BLAaIEB DEDUCTION DEL. pWWrE 16 8 AC LL" p1BIC YARGS DEIXICTION9 F011 PIPE P A DIN HEIGHT PMS - x PARS Y RAR, - z OTMd9MF18 IN ear RDN a aLAee ONE AIDE aOPFNIIIB T �' Y . 8" ii FIDE SPAN WIDTH NIH. NEIBHT. CONC. IN ROTC ONE PIPE RYPE $PM xI DTH YIN. XE3GXT CONCRETE BRICK MASONRY ONE PIPE_ 12" 9A 2 H NO. LEMOTH'. NO LENGTH MO LENGTH F Q #3 $ X" x BOTTOM WALL PER *SAL M M rbP bus Fm• MEI1F*. I0 LMS M:DT. Im11U C. a. R -C. Ye. = a BOTTOM MALL PER , O A 8 N W4GN�1'! Fpl C.S. R.C. -3" 1'•10" 4 3 -D S 4'•0" 2 4%0" 4'.$' 31•9" 0.181 0.271 0.250 27 1-045 0,415 0,032 0, we-- d G 0 A B H ELAN FT. M. Pd' •["'-- C.M. R.C. BLR6 FOOT HT. Neh" x " 12^ 3'-O" 2'-0" 2'-D" 0.2aa 0.473 a.b22 0.020 0.092 18 8 •8 2' 9" 2' I" 4 8 -D 6 +'-0' 2 4'-9" 4' 6" S 3" O. Y61 0.271 6.250 27 1.1DB 0-028 O.Oa6 0.046 #1 AleMC L 12" 3'-O" 2'-O" •0 0.222 0.222 O. SYB 0.015 O.O2B 18 4 - -0 2'�S" 2',A' S 2'•e" 7 4'.S" 2 V.9" 5'-0- 3'-@- 0.228 0.340 0.204 35 1.379 0.033 0.049 01053 DORM 15" 2'•3" 0.268 D.313 0.$00 mil 0.047 a a o.D3$ N" 4' 0" 2' B 2.10 5 3'-6" T 4' S" 2 4'-9' 5` O• 3'•S" 0.228 0,340 0,264 38 1.621 0.059 0.095 0.053 75 O.D48 D p.-9 18" 2'` 8" 0.266 D.313 0.575 0.044 0.085 �y 2 - 0.708 9D" 4`•O" 9' e" G•a' 5 4'-a'" a 4' 9" 2 4'. SECTION W -W 18"' D 0.033 o.Ga9 +-p^ 0.28$ 0.919 0.885 0.078 O. uta 9" 5'D" d'•e" D. 276 8,417 0.916 49 1.a1P B.B9Z 0.127 0.069 24 3 •9 0.$19 9e 4 •$ 4'-0" 9 ,a 5 4 . I, :o a' a" 2 W,3' 5-B 0 0.940 O, 51Q ❑.952 S1 4.390 0.199 0.179 0.0.5P 0.059 D.D66 SHEET 1 DF 2 SXEET 2 DF 2 $,O 3'-0" 8'-0" S -B 0,22@ 0. MM2 0.925 0.09$ 0.127 SHEET 7 OF 1 00" 3'-O" 2'•0" a"$" 0.2SB 0.313 O.BP7 0.122 6.170 SHEET 1 OF 1 42 a'P" 4'•6" 4-4 5 63 12 W-9- 2 51•9" O' -D" B -S 0.407 0.811 0.359 64 2.914 CAW 0°248 0.OD6 /� /'L 48" 5%0" 5'-U" 4', 10 8 5'-9' 73-9--9-2 5'-9" YA" e'•D" 0,444 Tess 0°467 6R 3,293 0.235 0,317 0.086 BOD - 04 840.04 SOV • 14 840.15 1 "' DEPRESSION 1" -74tH 1,_7 r, iy G -G 2'_31(" SECTION H- H �R 4 1 It" r u 1 It r r 1 %G �` F 1 8" rrH G yy 1 S'T L- -T CU o " H _ L41%L"' 1'-41$" 1'-7 1'•7 " PLAN OF GRATING CAST IRON 1 rr 1 rr rr 3 -2 #-A � 21 S" i 3r 1 rr i4 " SECTION E - E 3' - B" F� I -I E E - i# " `_ -_-1---- --� ry I I I F+ PLAN OF FRAME CAST IRON 1 rr. 1 rr '2r -3A" -ry �.--I J_ - 23r+ _ 2, 1 rr n1 iA SECTION F - F 2 F d EDU Hr C7 ILJ�H-H OOC'2Z O LU ¢4P=`D, x I- COI LU W o 0 rn Z .} wo Lu ° THREADED ANCHOR ANCHOR ANCHOR GRATE AND FRAIlk ME GRATE AND FRAME GRATE AND FRAME 1" DIA. 1'rLU BIL APPROVED CONCRETE EPDXY RICK WALL SONRY WALL PRECAST ALL CONCRETE WALL BRICK MASONRY CONCRETE PRECAST CONCRETE CONSTRUCTION CONSTRUCTION CONSTRUCTION DETAIL SHOWING ANCHORAGE OF TRIUNE FOR GRATED DROP INLET NOTE: PRECAST CONSTRUCT GRATED DROP INLET TO COINCIDE WITH NORMAL CONCRETE OR SUPERELEVATED SHOULDER OR PAVEMENT SLOPE. CONSTRUCTION CONCRETE CONSTRUCTION - '3'' rR BRICK MASONRY DIA. 4HOrrCONSTRUCTION DIA.NNO?i2^ Lo 17 I �y I DIA, DIA. r rFOR �+2 1$ r: Ir i D" I MASONRY ANCHOR CONCRETE ANCHOR PRECAST FRAME AND GRATE INSTALLATION 3,g" DIA, BOLT WITH PLATE" DIA. BENT BAR CONCRETE ANCHOR FOR NORMAL CROWN AND r SUPERELEVATED SECTIONS ' DIA. BENT BAR p y>'" d a oc ci rc [7 ULJ0H-H 0011 O ¢4�c�4� hx r y�ty W o O VI � Z •� wo O 3,. •S" BARS 6 11" CTS. 3" #a BAR - r o °P . 1 1 ' • DOWEL "C" A ' OPTIONAL NVkh LE SEE GENERAL NOTES s ' FOR PLACEMENT AND STEEL INFORMATION a" $'-0" HDDK 2132" RADIUS PLAN OF TOP SLAB „ " Y BARS D" "Y" OARS P 1114' CTS. D" BAR DIMENSIONS ARE OUT TO DUT"6" -p G 0,••' x m m ' t2 LITTI ! ' L'6'+ Ir 0',8" N rr INSET A ALAN OF BOTTOM BLAB CONCRETE BLOCK 7: CONSTRUCT SECTION "8" OF THE PROPOSED WALL S" THICK, AND SECTION "A" 12" THICK. NOTE 2: IF PROPOSED STRUCTURE EXCEEDS 12'-0" VERTICAL HEIGHT A DESIGN WILL BE REQUIRED FOR APPR=OVAL. NOTE 3: USE SINGLE EXCEPT DOUBLETMREISFEELING MAYS BEEU1ED' IN LIEU OF HOOK BARS IN BASE SLAG. A° A 7" HOCK FINISH GRADEJUST 1,-O" m "v4 / w a N o $ COxGaETE BOTTOM SLAB X PLAN (WITHOUT TOP) HOLE 640,54 SFE STANFO MANHOLE COVER a FRAME CK MAY BE USED TO FRNIE B COVER SURFACE ELEVATION MAX. 1' NCRETE TOP $LAB RARE PIPES SHOW pSOEMEE INSET "A" PUR.POBE$ ONLY GEE NOTE" x 00 A - - - -: "Y"ly:R3 4 171d" (WSECITHTOP) � 4 Y � HH LD LL -I ul¢�LL r 0) LU 0 0 0 0 Z '� w C] GENERAL NOTES: USE STANDARD OR JUMBO BRICK FOR WALL CONSTRUCTION. SOLID CONCRETE BRICK OR BLOCK ARE OPTIONAL WALL CONSTRUCTION MATERIAL INCLUCE ALL AEkJU$TMENT3 TO WALL$ SLABS 4R REINFDRCINp MATERIAL IN THE UNIT PRICE BID FOR F_ACH UNIT. INSTALL OPTIONAL MANHOLE IN POSITION AS DIRECTED BY THE ENGINEER. CUT OR SEND ALL REBAR CROSSING THIS OPENING TO ALLCW 2" MINIMUM CONCRETE COVERAGE. ENCLOSE THE OPENING WITH B "A" BARS TIED TO TO THE REBAR MAT AND SET 80 A MINIMUM OF 3" CONCRETE COVER IS ATTAINED. REFERENCE STD. N0. 84Q.54 FOR MANHOLE INFORMATION. PROVIDE JUNCTION BOXES WITH MAHNOLES OVER 3'-G" IN DEPTH WITH STEPS PLACED ON 12" CENTERS. REFERENCE STD. NO. 840.66. SPACE DOWEL "C" BARS AT A MAXIMUM OF 12" CENTERS. MAXIMUM DEPTH OF THIS UNIT AS SHOWN IS 12'. CONSTRUCT THE JUNCTION BOX IN ACCORDANCE WITH SECTIONS Baa, 832, 834 AND 840 OF THE STANDARD SPECIFICATIONS, BILL OF MATERIAL A a Me 1° 2' 9,7B 14 I5 5'-8" 80.3 C 26 04 •e' 25,1 Y 14 NS 7.11 " 101.5 TESL wL MEI Hr 217. CU. TOS. CLASS "AA" OONC• 2.0 W. YOB. 8R[CKjFT, XT. 6" 0,53 01 YDS • BRICKJFT. H7• 12" O. B4 _ po 4 d F Hy LD LLJ4H••H oOa22 wNLL �c34r�s U y LLRZ0•Iw ) 0 CCO z '> wo C7SECTION Ln 0 U3 * 00 c "�. Z Ey @J x _ r C7 W ❑ ❑ N fr F J" ¢ Z H F d d O w a ro ONOTE LL W F CJ VJ UL W U [D Z z 0 t7 d 1L 1, O = U ❑ O W W LL CL F F W >I ¢Sp (] �y d 3V1 m i'. 1'�' at m W X i❑ _ O C"S N C3 z F Z v C _ CM [ � ❑ co = d a~ m 3 ¢ �J' W d ~ O X IOL CC LL N. a at m w 1I 0 OLL z Q CS Fi ❑ F x v d Cy q ❑ M 4 = a. CL r m 3 ¢ Fri w rn d ~ ISL p F LL TONS SHEET 1 DF 2840.25 W�l 1840.341 RADIUS JOINT FILLER JOINT SEALER SHOWING EXPANSION JOINT RADIUS a - ger y;'�•s,.' ��: <<:' .:.°e,�:�;r.'r'i�E!f�'�,!:- JOINT SEALER SHOWING GROOVED JOINT PARTIAL LONGITUDINAL SECTIONS OF PAVED ISLANDS NOTE; VARIABLE 400 $PIKE 9" 0 0 SLOPE rX:r°' r'•tv[::'{•tv :;v3':,•yTrf:r,.i'°_.'r$ 2" RADI BASE COURSEVAR SURFACE COURSE 144' RADIUS 5" MONOLITHIC CONCRETE ISLAND (SURFACE MOUNTED] OUTLET WIDITCH ON ASPHALT CONCRETE PAVEMENT & OUTLET W10 DITCH (USE ON ISLAND 4' WIDE OR GREATER) D CLASS `S' RIP RAP VARIABLE CLASS W RIP RAP 0,02 SLOPE $' ' M TYPICAL SErT70NA FOR PAVEMENT DEPTH, ILLY IN ON THE •••; •. •:..1 i":T'1 :!7'S."•Jw'. s�'�'b •'•:cI'.'• S.Y. LAST LAYER OF TONS T - PAVEMENT "FACE COURSE SURFACE COURSE 2" RADIUS 12" 2 BASE COURSE BINDER COURSE lk" RADIUS 5 2 OR EXISTING PAVEMENT 5" MONOLITHIC CONCRETE ISLAND INj 4 (KEYED ON ASPHALT CONCRETE PAVEMENT 4 15" (USE ON ISLAND LESS THAN 4' WIDE) 7 WHEN MONOLITHIC CONCRETE ISLAND IS ON TOP OF SURFACE VARIABLE COURSE, DRIVE 4Gd SPIK€S INTO SURFACE UNDER MONOLITHIC it. x 8" I" DIA. DEFORM _ CONCRETE ISLAND. STAGGER SPIKES ON 2' CENTERS EACH WAY. BARS ON 24 C STAGGERED 0.02 SLOPE N IN THE CONCRETE PAVEMENT (ISLAND) AND CONCRETE ISLAND117,:: (MONOLITHIC) PLACE 142" EXPANSION JOINTS AT 30' INTERVALS 4 •. 4 •• -f AND GROOVED JOINT$ 1" DEEP AT 10' INTERVALS BETWEEN 0R. RADIOS •2'" RADIUS EXPANSION JOINTS. 5rr MONOLITHIC CONCRETE ISLANOMONOLITHICCONCRETE ISLAND [SURFACE MOUNTED] ON CONCRETE PAVEMENTMOUNTED)ON CONCRETE PAVEMENT LINE UP THE JOINTS IN THE CONCRETE PAVEMENT (ISLAND) VARIABLE WITH THE JOINTS IN THE CURB OR CURB AND GUTTER. JOINT SEALER FILL AND SEAL THE TOP It" OF THE EXPANSION JOINTS AND JOINT FILLER CURB AND GLITTER 4" CONE. COVER THE ENTIRE DEPTH OF GROOVED JOtNTS WITH JOINT SEALER. AS CALLED FOR ON 0.02 SLOPE PLANS. FOR JOINTS IN THE CURB AND/OR CURB AND GUTTER, SEE SURFACING STANDARD N0. 848.01 COURSE ,}�•H •c5���15& - - PAVED CONCRETE ISLAND Z 4 yD t- 1 -4d HM- CI LLJa++Z pOVj2 ~"3 CC0u- 0 W BCDM M C z •� LUw O 0 re 0 LL A Y IT A----] PLAN NOTE: FOR CALCULATION PURPOSES _ CLASS B' RIP RAP 100 LE CLASS I RIP RAP 105 LE 8 1 [• 4N,i�11 �1�Y j���1wN �ti �•+� H SECTION A -A PIPE OUTLET WITH DITCH H- RIP RAP TO TOP OF PIPE (MAX. H - D + T) T= 15" CLASS I RIP RAP, UNLESS OTHERWISE SHOWN ON PLANS T- 12" CLASS 'B' RIP RAP, UNLESS OTHERWISE SHOWN ON PLANS 4 X D SECTION B-8 PIPE OUTLET WITHOUT DITCH B Z 4 LO F -R Y d C, L; LL 2.5 -HZ p0" LU LOL C3 Co LL 0 Wo - 2 -� a~ w❑ a 878.02 TOP AND BOTTOM S SHALL BE 10 GAUGI NOTES 8' MAX. WITH WIRE 'MAX. WITHOUT WIRE] 24" MAX. (18" MIN Z 4 Iq H Y ~L ¢ d Z+�L7 L7 a OK, Vj2 LU 189-� C0 Lj zo� Z } WUj0 ❑ USE GEOTEX71LE A MINIMUM OF 36" IN WIDTH AND FASTEN ADEQUATELY TO THE POSTS AND WIRE AS DIRECTED, USE WIRE A MINIMUM OF 32" IN WIDTH AND WITH A MINIMUM OF 5 LINE WIRES WITH 12" VERTICAL SPACING. PROVIDE 5'-0" STEEL POST OF THE SELF -FASTENER ANGLE STEEL TYPE. FOR MECHANICAL SLICING METHOD INSTALLATION, GEOTEXTILE SHALL BE A MAXIMUM OF 18" ABOVE GROUND SURFACE. GEOTEXTILE COMPACTED FILL EXTENSION OF GEOTEXTILE AND WIRE INTO TRENCH 1605.0 ENGINEERING, INC. OUTLET WIDITCH & OUTLET W10 DITCH 143 Charlotte D CLASS `S' RIP RAP CLASS I RIP RAP CLASS W RIP RAP CLASS I RIP RAP phone TONS T g S.Y. TONS - TONS T - S•Y, TONS T 12" 2 5 5 2 5 1 4 2 1 4 15" 2 7 7 3 7 1 5 3 2 8 18" 3 10 S 4 10 2 7 4 2 8 24" 5 14 15 7 15 3 11 7 4 12 30" 8 21 21 11 22 5 iB 11 7 17 36" 11 28 29 is 30 7 22 1 16 10 23 42" 1S 37 36 20 39 10 28 11 22 18 30 40" Q LU 48 26 50 ri = p 28 17 38 54" a 60 33 62 U z 36 21 47 60" �4 73 40 75 PLACE GEOTEXTILE FOR DRAINAGE BENEATH STONE m 44 28 56 66" 87 48 89 W 54 32 67 72" O 102 57 104 64 38 78 NOTE: FOR CALCULATION PURPOSES _ CLASS B' RIP RAP 100 LE CLASS I RIP RAP 105 LE 8 1 [• 4N,i�11 �1�Y j���1wN �ti �•+� H SECTION A -A PIPE OUTLET WITH DITCH H- RIP RAP TO TOP OF PIPE (MAX. H - D + T) T= 15" CLASS I RIP RAP, UNLESS OTHERWISE SHOWN ON PLANS T- 12" CLASS 'B' RIP RAP, UNLESS OTHERWISE SHOWN ON PLANS 4 X D SECTION B-8 PIPE OUTLET WITHOUT DITCH B Z 4 LO F -R Y d C, L; LL 2.5 -HZ p0" LU LOL C3 Co LL 0 Wo - 2 -� a~ w❑ a 878.02 TOP AND BOTTOM S SHALL BE 10 GAUGI NOTES 8' MAX. WITH WIRE 'MAX. WITHOUT WIRE] 24" MAX. (18" MIN Z 4 Iq H Y ~L ¢ d Z+�L7 L7 a OK, Vj2 LU 189-� C0 Lj zo� Z } WUj0 ❑ USE GEOTEX71LE A MINIMUM OF 36" IN WIDTH AND FASTEN ADEQUATELY TO THE POSTS AND WIRE AS DIRECTED, USE WIRE A MINIMUM OF 32" IN WIDTH AND WITH A MINIMUM OF 5 LINE WIRES WITH 12" VERTICAL SPACING. PROVIDE 5'-0" STEEL POST OF THE SELF -FASTENER ANGLE STEEL TYPE. FOR MECHANICAL SLICING METHOD INSTALLATION, GEOTEXTILE SHALL BE A MAXIMUM OF 18" ABOVE GROUND SURFACE. GEOTEXTILE COMPACTED FILL EXTENSION OF GEOTEXTILE AND WIRE INTO TRENCH 1605.0 607.0 J THOMAS ENGINEERING, INC. _ 4 Tq & d 143 Charlotte Avenue, Suite 104 NOTES 27330 LL p02Z phone g I. PROVIDE TURNING RADIUS SUFFICIENT TO ACCOMMODATE LARGE � O LD TRUCKS.=rZw H 2, LOCATE ENTRANCES TO PROVIDE FOR UTILIZATION LL 0 J O BY ALL CONSTRUCTION VEHICLES. p 3. MUST BE MAINTAINED IN A CONDITION WHICH WILL PREVENT Q TRACKING OR DIRECT FLOW OF MUD ONTO STREETS. o PERIODIC TOPDRESSING WITH STONE WILL BE NECESSARY. Uj 4. ANY MATERIAL TRACKED ONTO THE ROADWAY MUST BE J CLEANED UP IMMEDIATELY. S. LOCATE GRAVEL CONSTRUCTION ENTRANCE AT ALL POINTS OF a INGRESS AND EGRESS UNTIL SITE IS STABILIZED. PROVIDE FREQUENT CHECKS OF THE DEVICE AND TIMELY MAINTENANCE. 6, NUMBER AND LOCATION OF CONSTRUCTION ENTRANCES TO LU BE DETERMINED BY THE ENGINEER. z 7, USE CLASS "A' STONE OR OTHER COARSE AGGREGATE APPROVED 2C o BY THE ENGINEER. S. INSTALL CONSTRUCTION ENTRANCES IN A WAY TD PREVENT VEHICLES = FROM BYPASSING CONSTRUCTION ENTRANCE LEAVING PROJECT SITE_ ca J p H W J Z CL 0 Q WZ J � H H Q ¢o O Q LU F O ri = p ~o Q U. a IMMM J U z d W �4 W NOTE: PLACE GEOTEXTILE FOR DRAINAGE BENEATH STONE m 47 607.0 J THOMAS ENGINEERING, INC. CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 Sanford, North Carolina 27330 (919)777-6010 phone www.jthomasengineering.com license no. C-3389 PROFESSIONAL ENGINEER'S SEAL H O J Q W D W J D O a a V) VV z IMMMz J p J Z CL 0 Q WZ J � 0 Z Q Q LU O �V a p ~o = U. a IMMM � U z OIM- W m V W O z REVISIONS AGENCY REVIEW ONLY Scale: Drawn by: NTS JRT Sheet: Designed by: JRT 12 15 Reviewed by: JRT of Project Number: Date: 18-010 02 APR 2019 J THOMAS oa CIVIL ENGINEERING Y PLANNING 143 Charlotte 4 NOTES Sanford, North Carolina z�Lj 4 Fa EXIBTIN5F or - WIRE MESH .:D~ �¢ license no. C-3389 H C7 LLJOF-I OONxZ STREAM BANK � H ILJOI-1 OOy2x /18" (MIX.) BRO m BACKFILL Hti�C:i F•R1 wJ�(••( 000- O•'.-• n;•O;••. J••H� S? LLJO" O 3OL Cin NOTES w°dr LL= H ra ov SPECIAL STILLING BASIN w¢dLL= H cr¢oN - e w xLL rc��o _ o:Q• '. _ a:a.: ''v. vg:.: , j... �; �j, o: '• . w¢aLL= H cscc LL J d F�-12 Zww V?F J CALL 3 f -.t{ STAPLE$ ON S hFLLO $ CA EXCAVATE TEMPORARY DIVERSION WITH NON VERTICAL SIDE SLOPES AND NOT GREATER THAN 1.5:1 SLOPE. IyOJ xo -'¢w, a Dn x N as EXISTING TERRAIN J cc000< o rn s xaH ao _w .- _ .f.; 1` CENTERS D- '° a" u ;; T, IN TRENCH }- D �v {gY' , xo`" o m a N as :�' n'4 A �v, ;a. A Y Y C7 •.. LL J °cv'-'¢ xF> ao c STABILIZE TEMPORARY DIVERSION AS DIRECTED. t� `'^ �• d` D MIx a •. 9 z J p Fxrxw ce STn�LE e• _ CHECK Fxrx'" .•. • .. .. • ;d' 14" WIRE MESH—". .•'�• `• Q WZ J FxrZ_ Ort 1 SEDIMENT CONTROL STONE 11 INTTINC BNALL BE STAPLES DX PLACED iN TRENCH 1' y r LL o rr o O fA - ••'p $ $ $ STRUCTURAL STOW .� $ `a 3 SEDIMENT CONTROL Ort F LL o o o a CONSTRUCT TOP OF BERM A MINIMUN OF PIPE CENTERS MATTING INDITCSES AND BACUILLED LN TRENCH a-nao .:,�: pa'. •4•• 14' WIRE MESH ' LUV Q COMPACTED SOIL NOTES $�^� %� y$a' STONE OL 7[AGRAV A o . o oo.Q•:.•;nv.p::.;d;o.p �' W �•� 2' MINIMUM — LL = 15.0' to 20.D' - ILL I"t Lli USE CLASS I RIP RAP FOR STRUCTURAL LL = o. n• SEE NOTE FOR POST DESCRIPTION LLL N ao O • '� �' $� V Q MAXIMUM POST SPACING 4 FT. d FLOW W c ¢ A^^ Staple Check Pattern q:n T— T— ~ H ¢ USE NO. 5 OR NO. 57 STONE FOR �$ $ ga Variable* variabla } �,' MINIMUM l ! of A o p 8" OF 5EDIMENT CONTROL STONE ¢ = a i l a J J 3' I- 4 -f �10" 10.� Staple f� --� 5 J a 12" NOTES 2' im a s a W OF DISTURBED AREA. SOME OF THE REQUIRED VOLUME MAY BE PROVIDED CL O 'r GEOTEXTILE FOR ¢ a N ~ '- .. ^^ ) x s OD g =Utrullmliml USE NO. S OR NO. 57 STONE FLO _I FLow� --r-- - FOR SEDIMENT CONTROL STONE. ----_ 1 � 0 p,1 S' TYPICAL Im r N DRAINAGE NOTES x ¢ N r N 4" 30' 3'— Z w �t A x 1"1 ¢ H (g N= USE 24 GAUGE MINIMUM WIRE � SEDIMENT SEDIMENT- 8" MESH HARDWARE CLOTH WITH CONTROL $TONE g' WIRE MESH yi INCH MESH OPENINGS. CONIHUL $TONE �• 1'-8" 1'-B" x O ¢ LU r N N } 9L USE NO. 5 OR NO. 57 STONE FOR SEDIMENT J } H StDV�e �.-; �} a--- � x } � ¢ ~ PLACE TOP OF IYIHE MESH * A MINIMUM OF ONE FOOT BELOW Q 02 APR 2019 CONTROL STONE. C7 C DIAGRAM H THE SHOULDER OR ANY DIVERSION POINT. CLOTH W J ~ ¢v PROVIDE STABILIZED OUTLET TO STREAM BANK. ¢ 0 MATTING ON SLQPES B AVEENSIONGE OVARIABLE ATTACH HARDWARE Box TO DIMENSION POSTS WITH PLASTIC TIES, WIRE DIMENSION VARIABLE N CROSS SECTIONAL VIEW WOOD PALLETS MAY BE USED IN LIEU OF STONE o LL D:AGAM {��j] FASTENERS, OR OTHER APPROVED 0 LL AND (iEOTE](TILE AS DIRECTED. A SUFFICIENT NUMBER 9 TREATED TREATED ATTACHMENT DEVICE. WATER INSTALL WIRE MESH UNDER WATER SC %i OF PALLETS MUST BE PROVIDED TO ELEVATE THE ENTIRE SECTION A -A SEDIMENT CONTROL STORE. SECTION Y -Y C �o NQut1 USE 5' STEEL POST, INSTALLED �= SPECIAL STILLING BASIN ABOVE NATURAL GROUND. S S Spypypy e THIS DETAIL APPLIES TO STRAW. EXCELSIOR. COIR FIBER MAT AND PERLWEIFT SOIL P?TNFORCENEMT MAT 2' DEEP MINIMUM, AND Z ERM) IN%ALL TION Orn AS DIREcTED. "UR OF THE SELF -FASTENER MULTI -DIRECTIONAL FLOW ANGLE STEEL TYPE. SINGLE -DIRECTIONAL FLOW SHEET 1 OF 7 SHEET 1 DF 1 DTAPLEO SIHLL SD. 1, GWOE STEEL WIRE FORKED INTO A SHAPE WFTH A MINIMJM TMOAT TII OF 1 E NY_OAW NOT LESS TWW I INCHES In LENGTH. N. SHEET 1 OF 1 SPACE POST A MAXIMUM OF 4'.1830.05 kA 1630.08 1§31.01 SEDIMENT CONTROL STONE J THOMAS ENGINEERING, INC. CIVIL ENGINEERING Y PLANNING 143 Charlotte 4 NOTES Sanford, North Carolina 27330 4 777-6010 phone www.jthomasengineering.com license no. C-3389 a z PROFESSIONAL ENGINEER'S SEAL IMMIM � FLOW O ,L o 2 J LL J a 2 USE CLASS A EROSION CONTROL STONE W LL J d F�-12 8— J oo x N ILL! O $ vo x g N ��v� FOR STRUCTURAL STONE. EARTH BERM ao x rr �+ �U�� V / VVIMMIM z USE NO. 5 OR NO. 57 STONE FOR z J p Fxrxw ce 8� e $ #� Fxrx'" SEDIMENT CONTROL STONE. Q WZ J FxrZ_ Ort 1 SEDIMENT CONTROL STONE 11 0 y r LL o rr o O fA WZ $ $ $ STRUCTURAL STOW .� $ `a 3 SEDIMENT CONTROL Ort F LL o o o a CONSTRUCT TOP OF BERM A MINIMUN OF PIPE ~ LL o o o a-nao oOc LUV Q x H� NOTES $�^� %� y$a' STONE x •'rc ONE FOOT BELOW THE SHOULDER OR A gill A x g � $ O p USE CLASS I RIP RAP FOR STRUCTURAL �8�;3 od' $ v do O DIVERSION POINT. --- - - ,• FLOW p* ao O • '� �' $� V NOTES STONE. $ 4 PROVIDE A TOTAL SEDIMENT TRAP VOLUME OF 36001 CUBIC FEET PER ACRE c 4 4� 4 4 USE NO. 5 OR NO. 57 STONE FOR �$ $ ga } �,' m �8 USE CLASS B EROSION CONTROL STONE Scale: SEDIMENT CONTROL STONE. 3 COIR ON ,,Sg$�g�$ $ �f$?• :: ;a�:L $ Q OF DISTURBED AREA. SOME OF THE REQUIRED VOLUME MAY BE PROVIDED d JRT IY Designed FOR STRUCTURAL STONE. W INSTALL FIBER BAFFLES UPSTREAM SIDE OF SEDIMENT DAM IN $ $ ;a s s� , � IY BY UP OR DOWNSTREAM CONTROLS. Reviewed by: 1 R CL USE NO. 5 OR NO. 57 STONE FOR SEDIMENT a qg � FLOWd 18-010 02 APR 2019 STRUCTURAL STONE CONTROL STONE. H ACCORDANCE WITH ROADWAY STANDARD DRAWING H0. 1640.01. a� 9 $g $ $ $sig e ~ IL B p LL oa 2 °a g :� e $4 o LL STRUCTURAL STONE 0 LL 9 zLU W �o PLAN S S Spypypy e _ Z •,�� LU F $g•,$� $ � SEDIMENT CONTROL STONE H � _a& . PLAN o � � a � oN a $ aW z v7 ayW z y x Q~ V F 2' MIN. EARTH BERM F 00 P S CHANNEL WIDTH Y STRUCTURAL STONE F uAx D J Zf WI EL 1' MIN 1' M --1 12" �� a Q $ %A 4� _ _ - " �$0 2: y:1 ;g�, 84 T FLnM ace a 12" MIN 12" 18" MIN. ROADWAY SHOULDER a x a ° �• H 2 YIN ~i i'- lei LU x CL ��9 o -- -- v d 12' THICK SEDIMENT cc C7 DIVERSION POINT �. 1 s" Fy A MIN. c+ FLOW Hi IL SECTION A -A SECTION B -B W ,. CONTROL STONE IL I- T-6" MIH. I -D• I - I---- 7 L7 0 SEDIMENT CONTROL STONE PIPE D'-24" PIPE MAX. SECTION A -A MEET 1 aF 1 SHEET 1 DF 1 SHEET 1 OF 7 1833.011834.01 1B35.Q2 J THOMAS ENGINEERING, INC. CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 Sanford, North Carolina 27330 (919) 777-6010 phone www.jthomasengineering.com license no. C-3389 PROFESSIONAL ENGINEER'S SEAL IMMIM O J a W W J O a � a V / VVIMMIM z z J p ce J Z a0 0 Q WZ J 0 11 0 WZ z V o iMMO Q U) oOc LUV Q O _ LL Z p � J U z � O W N m IMMIM V W O Z REVISIONS AGENCY REVIEW ONLY Scale: Drawn by: NTS JRT Sheet: Designed by: IRT 13 15 Reviewed by: 1 R of Project Number: Date: 18-010 02 APR 2019 0 TJ TJ G Z O LU Z3 LU Z3 O' 0 0 Co U LU 0 a a as 12" CURB AND GUTTER o a a p o 0o p 0-0 00 o p o0 0 100 0 0 0 O� p O o0 p,� O oO��T� 0 00mop C�O o� p O��p DO ��o�opcP�o� p oop8$4,00podb 00 00 00� cc SECTION — N RELATION TO PAVEMENT LAYERS SECTION — SPILL' C G NOTES: 1. CURB AND GUTTER TO BE CONSTRUCTED IN 10 FOOT LENGTHS. 2. 1/2" EXPANSION JOINTS SHALL BE PROVIDED AT INTERVALS NOT TO EXCEED 50 FEET, AT THE ENDS AND MID -POINT OF RETURNS, AND AT ANY POINT WHERE THE NEW CURB AND GUTTER ABUTS OTHER CONCRETE STRUCTURES. 3. 5' LONG TRANSITIONS SHALL BE PROVIDED BETWEEN NORMAL GUTTER AND 'SPILL' GUTTER, UNLESS OTHERWISE NOTED ON THE PAVING PLANS. 4. 'SPILL' TYPE CURB AND GUTTER SHALL BE USED EVERYWERE IN PROJECT. 5. CURB AND GUTTER SHALL BE PLACED OVER CABC LAYER PER DETAIL. A-14 T-6 SPILL' CONCRETE CURB AND GUTTER NTS TOP PR( FILTER FABRIC A RM FILTER FABRIC PERSPECTIVE VIEW LINE WEIR WITH CLASS B RIP RAP (1.5' THICK) 2 'F,Agren�m WEIR LENGTH (SEE PLAN) WEIR SECTION LINE CHANNEL WITH CLASS B RIP RAP (1.5' THICK) 2 1 TOP OF DAM DITCH AND BURY FILTER FABRIC EDGE (MIN. 12" OF FABRIC) FILTER FABRICII_ DITCH AND BURY _III=1- - FILTER FABRIC EDGE BOTTOM (MIN. 12" OF FABRIC) WIDTH* *BOTTOM WIDTH SHALL EQUAL THAT OF THE TEMPORARY DIVERSION, HOWEVER SHALL BE 2' MIN. ENTRANCE CHANNEL SECTION BACK OF CURB SCORE FULL WIDTH OF CURB AND GUTTER EDGE OF PAVEMENT 3'-0" 40 -AV 40 40 TOP OF CURB n 0 00 LL M2'-6" 2'-0" 6„ B-14 METHOD OF TAPERING TOP OF C & G NTS NCE CHANNEL WITH aND CLASS B RIP RAP TH @ TOP OF STORAGE (SEE SCHEDULE) SKIMMER (SEE DETAIL F-14) TOP OF BERM 5 EL = SEE SCHEDULE RETRIEVAL 18"MIN ROPE PROTECT WEIR WITH FILTER EIR EL = _____________ FABRIC AND CLASS B RIP RA� SEE SCHEDULE FILTER FABRIC �. 4" OR 6" PVC 'LES BOTTOM OF BAFFLE IN 6" X 6" TRENCH AND FILLED WITH SOIL AND COMPACTED 5'x3'x18" 6" THICK STONE APRON HOG WIRE ATTACHED TO POSTS WITH LENGTHS OF WIRE 10' x 10' 6" THICK ROCK PAD FOR SKIMMER TO REST ON 75% OF BOTTOM LENGTH 50% OF BOTTOM LENGTH 25% OF BOTTOM LENGTH COIR FIBER BAFFLE METAL POST, WOVEN WIRE FABRIC BACKING AND COIR TOP OF FIBER NETTING (TYP.) STORAGE EL = SEE SCHEDULE _ c) 0 BASIN BOTTOM EL = SEE SCHEDU BOTTOM LENGTH (SEE SCHEDULE) PERSPECTIVE VIEW NOTES: 1. NO SILT FENCE ALLOWED. POROUS BAFFLE LIKE JUTE REQUIRED. TOP OF BAFFLE SHOULD BE 6" HIGHER THAN THE BOTTOM OF 2. DRIVE STEEL FENCE POST AT LEAST 18" INTO SOLID GROUND THE SPILLWAY 3. WOOD POSTS ARE NOT ACCEPTABLE 4. USE STAPLES V APART TO ATTACH FABRIC `., 0 "HOG WIRE" 5. BAFFLES SPACED A MAXIMUM OF 8' IN FRONT TWO-THIRDS OF SEDIMENT TRAP (CLOSEST TO RIP -RAP WEIR). COIR FIBER BAFFLE INSTALLATION FE --14] TEMPORARY SKIMMER BASIN (BASIN 02) NTS NOTES: 1. TRANSVERSE EXPANSION JOINTS TO BE A MAXIMUM OF 50 FEET. 2. ALL CONCRETE TO BE FINISHED WITH CURING COMPOUND. 3. THE CONCRETE THICKNESS SHALL BE 6 INCHES AT LOCATIONS OF DRIVEWAY CROSSINGS AND IN THE HANDICAP RAMPS. 13-14 SIDEWALK ADJACENT CURB AND GUTTER NTS NO. 4 Id CONCRETE ISLAND (FOR PROBE) ROCK LINED ENTRANCE CHANNEL (PROTECT WITH CLASS B RIP RAP UNDERLAIN WITH FILTER FABRIC) D-14 TRENCH DRAIN NTS PVC END CAP F noon ACOCRAoi v P\/C' FI RniA/ I Vr' V ICVV END CAP PVC SCHEDULE 40 PVC PIPE IN E (SEE PLAN FOR DIA.) FLEXIBLE HOSE "C" ENCLOSURE \TER ENTRY UNIT PIPE SCHEDULE 40 PVC PIPE (SEE PLAN FOR DIA.) \ORIFICE PLATE (SEE PLAN FOR DIA.) PVC TEE FRONT VIEW FV-1-41SKIMMER DEWATERING DEVICE NTS J THOMAS ENGINEERING, INC. PROPOSED SIDEWALK & PLANNING (CONCRETE 3000 P.S.I.) Avenue, Suite 104 Sanford, North Carolina EXPANSION JOINT 0.02'/FT -0111 A I I 777-6010 phone CONTRACTION JOINT J I� I ISI CURB AND GUTTER I� I PROFESSIONAL ENGINEER'S SEAL Io w TYPICAL SECTION IQ 0 1 w Q 0 W � 0 o � W I� I I_I I (Y JOINT FILLER 1/4" SIDEWALK SURFACE Q 5'-0" U � a' X41/8RADIUS " ;, = J oC Ln Q III A I I I I I J EXPANSION JOINT w J Z Z NOTES: 1. TRANSVERSE EXPANSION JOINTS TO BE A MAXIMUM OF 50 FEET. 2. ALL CONCRETE TO BE FINISHED WITH CURING COMPOUND. 3. THE CONCRETE THICKNESS SHALL BE 6 INCHES AT LOCATIONS OF DRIVEWAY CROSSINGS AND IN THE HANDICAP RAMPS. 13-14 SIDEWALK ADJACENT CURB AND GUTTER NTS NO. 4 Id CONCRETE ISLAND (FOR PROBE) ROCK LINED ENTRANCE CHANNEL (PROTECT WITH CLASS B RIP RAP UNDERLAIN WITH FILTER FABRIC) D-14 TRENCH DRAIN NTS PVC END CAP F noon ACOCRAoi v P\/C' FI RniA/ I Vr' V ICVV END CAP PVC SCHEDULE 40 PVC PIPE IN E (SEE PLAN FOR DIA.) FLEXIBLE HOSE "C" ENCLOSURE \TER ENTRY UNIT PIPE SCHEDULE 40 PVC PIPE (SEE PLAN FOR DIA.) \ORIFICE PLATE (SEE PLAN FOR DIA.) PVC TEE FRONT VIEW FV-1-41SKIMMER DEWATERING DEVICE NTS J THOMAS ENGINEERING, INC. CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 Sanford, North Carolina 27330 (919) 777-6010 phone www.ithomasengineering.com license no. C-3389 PROFESSIONAL ENGINEER'S SEAL O J Q W Z W J O (Y Q U U � 3 = J oC Z III Q J a0 w J Z Z � W J� z O Q U Q Z Z) Q W ( j O >p z oc Q Z O U = Q � J O W N 1 ca U O REVISIONS AGENCY REVIEW ONLY Scale: Drawn by: NTS JRT Sheet: Designed by: IRT 14 15 Reviewed by: 1 R of Project Number: Date: 18-010 02 APR 2019 NOTES: 1. SEE EROSION CONTROL PLAN FOR BASIN SCHEDULE. CONTRACTOR TO VERIFY FINAL ELEVATIONS WITH ACTUAL FIELD CONDITIONS. 2. THE BERM AND KEY TRENCH SHALL BE CONSTRUCTED OUT OF GOOD CLAY FILL MATERIAL, FREE OF WOODY VEGETATION, ROCKS, AND OTHER OBJECTIONABLE MATERIAL, AND COMPACTED TO 98% OF MAXIMUM DRY DENSITY (8" LIFTS). 3. THE RISER, BARREL, DRAIN, AND TRASH RACK SHALL BE CONSTRUCTED OF CORRUGATED ALUMINUM PIPE, ALUMINIZED STEEL, OR REINFORCED CONCRETE. THE CONTRACTOR SHALL DESIGN THESE STRUCTURAL COMPONENTS. 4. CONSTRUCT THE DAM HEIGHT 10% HIGHER THAN THE DESIGN HEIGHT TO ALLOW FOR SETTLEMENT. 5. CONSTRUCT THE RISER / BARREL AT THE SAME TIME AS THE BERM EMBANKMENT. CARE SHOULD BE TAKEN TO COMPACT WELL AROUND THE BARREL PIPE. 6. ALL CONNECTIONS SHALL BE WATERTIGHT. 7. A PORTION OF THE RISER SHALL BE SET INSIDE THE CONCRETE ANCHOR WHEN IT IS CAST (AT LEAST 1/2 THE ANCHOR THICKNESS). THE BOTTOM OF THE RISER SHALL BE FILLED WITH CONCRETE TO THE BARREL INVERT LEVEL. 2" PVC DRAIN (NON -PERFORATED) RIP RAP OUTLET PROTECTION NCOT STD DWG 876.02 NOTE: NEITHER THE LOCATION NOR PLAN ALIGNMENT OF THE CONTROL SECTION HAS TO COINCIDE WITH THE CENTERLINE OF THE DAM. ALL SIDES OF PIPE AND 2'v BELOW BOTTOM OF PIPE ANTI -VORTEX PLATES KEY TRENCH (3' BELOW EX. GROUND, 5' WIDE AT BOTTOM) A-15 TEMPORARY SEDIMENT BASIN (BASIN 01) NTS WATER SURFACE 10 YEAR FLOW MIN- 2% 1 I11 1i 11 I11I11 1= 20' APPROACH LEVEL OR CHANNEL GREATER - CONTROL SECTION EROSION CONTROL LINING (AS REQUIRED) EXIT SECTOR SI 100' PROFILE ALONG CENTERLINE RIP RAP LINED 1 BASE WIDTH 4 1F7 CROSS SECTION AT CONTROL SECTION C-15 EMERGENCY SPILLWAY (FOR SEDIMENT BASIN NTS ConstructionL Grade the basil so that the botfom is level Boot to back and side to side. Specification 2- Insall posts or saw horses across the width of the aedi rail trap (Pracoice 6.62, Se&mw !•-ace). I Steel postsshould be driven to a depth of 24 inches, spaced a maximum Of 4 f •t span, and instal led up the sides of the: hasi,h as well- Tlx: top of tlw fabric should be 6 inches higher dram the mrxtt of the spillway. Tops ofbafHes should W 2 inches lower than the top of the bcrm5. 4. hhsl-rlI at least three rows of bafIlu hctwceu [lxc u,4t mid mullet discharge point Basins Ices than 20 feet in length may use 2 hafHns- S When using posts, add a support wire or rope amass The lop of the measure to prevent sagging. G Wrap porous material, Iikejure backed by coir materia], ova a sawhorse or die top wire- Hammer rebar into the sawhorse legs far anchoring- The fabric should have five to len percent opendrip in the weave. Attach fabric to a rope aid a supportAria t ,,,, widh zip ties. wire, or stop] -- 7. The bottom and sides of the fabric should be anchored in a trench m pinned witch g-vhch erosion control nvnudng slap] s- & DO int splits die fabric, but use a crAllin°mas piece aemss the basin. Maintenance Inspecl battles at least once a week and aflar each minfal L Make any required repairs immediately. Be sura to niainlainaexess to the baffles. Should die fabric of baffle collapse, tcar, decompose, or become ineffcctivc, replace it promptly. Reanove. sediment deposits when it reaches half fall to provide adequate storage shun for the next min and to reduce pressure on the baffles. Take care to avuid damaging the baffles diiri,g cleanout Sediment depth should never exceed half the designed storage depth. After the aareihuting drainage area has been properly smhilized, remmc all bode materials and unstable sediment deposits, bring Iho area to grade, and nabi lit it. References Sedhnetu7bapr ���" 6-60 Temporary Sedimeau Trap 6.61 Sedrnrenl Basins 6-62 Secbm,m1 Fence 6.63 Rork- Bahner 6,64 Sk+mmr S wear -n/ Hann McLaughlin, Richard "&dFacor: Baffles to Improve Sedamenr Haeme." N. C. Stare Unlversh5,Cooperarlve Exrmskm Sen•ke Fact SkeerAGW-439-3A. 2005. ,Sidli e , &ion. Cif}• ojHigh Point F r�rion Cmmtvl Specificcuiwrr. Thammn, C- S, I Calardmi, mod R. A- SkLarghlin. AN- f1yr8ndy=mtc mwem of,•ol mus fyFff °fhaffleS our asfcbr f mewimpoad Pmuakcnons nfthe A SAE fbL 47(3)-- 741.749. 6.65.5 TEMPORARY BAFFLES RIP RAP OUTLET PROTECTION L = 40' (BEGIN ROCK ON THE INSIDE SLOPE OF BERM AT THE P. SPILLWAY ELEVATION) D = V T = 1.5' NCDOT CLASS 'B' RIP RAP Construction Construction Specifications riven if properly designed, if not properly installed, R&CP's will probably riot function as desired. Proper installation is imperative. Ewen if properly installed, if not properly limed and nourished, vegetation will probably not grow asdesired. Proper seed vegetation selection is also imperative. Grade the surface of installation areas so Thal the ground is smooth and loose. when seeding prior to irntallotion, follow the steps for k r1 bed preparation. soil amenthn encs, and seeding in Surface &abPhmowr, 6.1- All gullies, rills, and any other disttttbcd areas must be fine gradcdprior to installation. Spread wed before RBCP installation- (Important Ranme all large rocks, dintclods. stumps, roots, gross clumps, trash, and other Obstruction rate the soil surface to a] low for diroct contact between the soil sur face and the RECD) Terminal anchor trenches are required at RECD ends and interni ittem trenches mint he constructed across channels st 25 -foot inlavaLe. Taimml anchor trenches should be a minimum of 12 inches in depth and 6 inches in width, while intermittent trenches need be only 6 inches deep and 6 inches wide. Imlallation fur Slopes- Place lis RECP 2-3 feet over the lug) of the slope and into an excavated end trench measuring approximately ] 2 inches deep by 6 inches wide, pin the RE:C'P at I foot intervals along, the bottom of the trench, backfill, and compact. Unroll the RECP down (or along) the slope maintaining direct contact between the soil and the RECP. Overlap adjacent rolls It minimum of 3 inches-. Pin the RECP to the ground wing staples or picas it a 3 foot canter -to -center pallem Less frequrnl ,t:aphTkV,1pinnin& is acceptable on moderate slopes. 11rv-6'Da EXPANDED SHEET METAL MESH VALVE HANDLE FOR POND DRAIN SKIMMER DEWATERING DEVICE (SEE DETAIL F-14) TOP RISER ELEV BASIN BOTTOM / BARREL INV. ELEV OVEREXCAVATED 1 ' FOR SEDIMENT STORAGE � - - - - - - - - - - ATTACH SKIMMER TO POND DRAIN 4" DIA. POND DRAIN WITH VALVE 5'x 5'x 1' THICK CONCRETE ANCHOR Tnalallxtion in Channels- Encavate terminal Ircnches (12 inches deep and 6 inches wide) acres the channel at the upper and lower end ofthe lmcdchannel soctiom. At 25 -fool intervals along the channel, anchor the RECP across the channel eitha in 6 inch by 6 inch tranches or by iristalling Iwo closely spaced rows or anchors. Excavate laagituchnal trenches 6 inches deep and wide along channel edger (above water line) in which to bray thc outside RECP edge& Place the first RECP at the dowmucam end of the channel. Place the enl of the ftnt RK7P in the terminal trench and pin it at I foot intervals along the bottom of the trench Nate: The RECPshould be placed upside down in the trench with the roll on the downstream side of the bench. Once pinned and backfilled, the RUT is deployed by wrapping rn'a the top of the Ircnch and unrolling upstream- If the charnel is wider than [he provided rolls, place ands of adjacent rolls in the laminal trench, Overlapping the adjacent rolls a minimum of 3 inches. Pin at i foot ituavals, backfilL and compact. Unroll the RECP is the upslrrcam direction until reaching the rust ialam ittem trench. Fuld the RECP back over ilac If, posit iorking the roil on the doKrnstream side of the trench, and allowing the mat to conform to the trench. Then pin the RECP (two layers) to the bottom of the trench, backfill, and compact. Contimac up the channel (wrapping over the top of the intcrm itttm trench) repeating this step at other intermittent trenches, until reaching the upper lent iia I trench - At the upper terminal trench, allow the RT3CP to conform to the trench, secure with pins or staples, backfill, compact and then bring the mat back ewer the lop of the trench and onto the existing mm (2 to 3 Feet overlap in the downstream dimctionj, mid pin at 1 foot intervals across the Rn,CP when staring installation of anew roll, begin in a trench or shingle -lap ends of rolls m minimum of 1 foot with upelremr, RECP on "to prevent uplifting Place the outside edges of the RECP(s) in longitudinal trenches, pin, backfiiH. and compact. Anchoring Devices -1 I gauge, at least 6 inches length by 1 inch width staples or 12 tech m immum lat0h wooden stakes are recommended for anehoringthe RECD to the ground. Drive staples or pins so that the top of the staple or pin is it ush with the ground surraoe. Anchor each RECP every 3 feet along its cenmr- Longitudinal rncrlaps mast be aufficienl to accommodate a row of anchors mad uniform along the entire Iength of over kip and anchored every 3 feet along the overlap length. Roll cads may be spliced by Overlapping l fact (in the direction of water flow), with the upslrcam.'upslopc mat placed on top of the downstnmr[I downslope RECD. This overlap should be anchored at 1 Foot spacing across the RECP When installing multiple width mats heal seamed in the factory, all factory seams and fig Idovarlairm should he similarly anchored 6.17.9 PLAN NOTES: 1. INSTALL SIGN INDICATING LOCATION OF CONCRETE WASHOUT AREA. 2. AFTER ALL CONCRETE FOR JOB IS PLACED, REMOVE WASTE COLLECTED IN PIT AND DISPOSE OF PROPERLY. 3. INSTALL 10 MIL PLASTIC SHEETING TO LINE WASHOUT AREA AS SHOWN ON THE SECTION. ANCHOR SECURELY IN PLACE. TRUCKS UNLOAD BERM FROM HERE N �STICR SECTION A D-141 TEMPORARY CONCRETE WASHOUT AREA NTS Retro &17d Temporary Channel Uners, Washington State Department of Erxtogy Excavate choneoll to design overlap a min. grade and cross-section a Design depth overcutchorknel2"toalfawbuidpg during seedbed preparati on iiw Intermittent check slot Shingle -lap spliced ands or he gin new roll in an irite rrrittent check slat Pr epm•e sail and apply seed b installing blorkets, mats or temporary channel liner J Typical Iretadldtlon with erosion control blankets or turf reinforcement meds 6" Longitudinal anchor trench NOTES: 1 Design velodties exceeding 2 ft/sec require temporary blankets, mats or similar liners to protect seed and sol I untlI vegetation becomes esrohlished. 2. Grass-11ned channels with design vel°cities exceedlrig 6 ft/sec should includeturf reinforcement mats 6.17,iQ Ret. 606 DM OF BAFFLE IN 6" X 6" TRENCH AND FILLED WITH SOIL AND PERSPECTIVE VIEW COMPACTED NOTES: 1. NO SILT FENCE ALLOWED. POROUS BAFFLE LIKE JUTE REQUIRED. PLANNING 2. DRIVE STEEL FENCE POST AT LEAST 18" INTO SOLID GROUND 3. WOOD POSTS ARE NOT ACCEPTABLE 4. USE STAPLES V APART TO ATTACH FABRIC 777-6010 phone 0 "HOG WIRE" 5. BAFFLES SPACED A MAXIMUM OF 8' IN FRONT TWO-THIRDS OF SEDIMENT TRAP (CLOSEST TO RIP -RAP WEIR). C HOG WIRE ATTACHED TO POSTS WITH LENGTHS OF WIRE TOP OF BAFFLE SHOULD BE 6" HIGHER THAN THE BOTTOM OF THE SPILLWAY BAFFLE INSTALLATION B-15 BAFFLE (IN SEDIMENT BASIN NTS Construetton 1• Cleave grub, and strip the: arca underilic embankmeritof all vegetation and Specifications mot mat. Remove all surface soil containing high mucous of organic matter and stockpile or dispose of it properly. Haul all objectionable material to the designated disposal ansa- Place temporary sediment central measures below basin as needed 2. leisure that Jill material for the embankment is free of rods, woody vegelatinn, nivtric n,al[er, a,d otter uhj ec-tm,ahlc n,afcrial. Place the fill in lifts not mexceed 9 iudxs,andmacfhinecoenpart it- Ova Jilldx: 7nhasiluneut 6 iwhes to allow for settlement. 3. Shape [he basin to t1ke specified d'uusnsims. Prevent the skimming device frons setll'tag into the mud by cxmvntulf a siwl law pit wider tun skimmer or providing a low support under the skirmuer °fstaaae or thnber- 4. Place the barrel (typically 4 -inch Schedule 40 PVC pipe) on al int, smooth foundalinn of hnpcmih soil. Do not ash: pe viOn% tlatlCri:d such 1 vv,it. gravel, or crushed stme as backfill around the pipe- Place the fill material around the pipe spillway in 4 -inch layers and compact it under mrd armind the pipe to at loan the same density as the afiacem embankment. Care must be taken not to raise the pipe from the firm contact with. its fou»dation when eompaclbag uaderthc pipe haunches. Placca minimum depth of 2 ful of cwtpmtcd backfill ovcrthe pipe xpilhvay before crossing it with eonsan rotinu equipment- In no, case slmuld the pipe rouduil be installed by cutting a trench through the dam after the embankment is chmhpletc- 5. Assemble the skimmer following the mmnfackueri. instructions, or as designed. 6. Lay the avemhlxl skins mx an the bonaen of ala: hasbh with tun finible joint at the inlet of the barrel pipe. Auach the flexible joint to the barrel pipe and position die sknnuner over the excavated pit or support- Be sure to attach a rope to the sk imma and anchor it to the side ofthe basin. This will be used III pull the skitimner tri 11. side for tnainh:nazher:. 7. Earthen spiltways-Install the spiNkly in undisnabcd sail to line greatest extent possible. The ad devement of planned elevations, glade, design width, and entrance and exit chmmel slopes are critical to the successful opera[imn of the spillway. The spillway should be Bail with laminawd plastic or impermeable geotextile fabric. The fabric must be wide mid long enough to cover the &Ruin and sidua and cmaid on[° Oke top of the dam forauclwring in a trench- Tho edges may be secured with R -inch staples or phks- The fabric hnust he long enough a, extend down the slope and r it nal° slahlc gounL Thr widdh of the fabric must he ane piece, not joined or splicad; cdhemi, l; water can get under thc fabric. If the lengtk of the fabric is insufficient for rhe entire length of the spillway, multiple sections, sparring the complete width, may be used The upper sections) s9mukd overlap the lower section(s) so that water cannot flow under the fWbrk. Secure the upper edge and sides of the fabric in a trench. with staples or pins. (Adapted Ilion "A Aienual fa Designing, Installing and viaimaining Skimma "man Basins" February, 1999. J. W. Fairclotn & Soo). 8. Inlets-Diar}mrgc walcr into the basin in u xoma,cr to prurall. ion-tlsc temporary stnpc drains nrdivcrsituns whin taste[ prorccdnn to divert sediment - laden water Io the upper end of the pool arca to improve basin trap efficiency [itefemnces� RrmoffComml.tfeamws and Owfel lhrfeeum)- Figure 8-17a Channel Installation and Slope Installation; Washington State Ecology Department Longitudinal anchor Terminal slope and trench 12" charnel anchor trench Stake of is yyr intervals h Initial channel r 1 Dn'"roittent anchor rreich check sbf NOTE: L Check slots Tobe constructed per marakfocturers specificariam, 2. Staking or snap ling layout per mm ufacturers speci fi catian s. 51ope surface shall be smooth before If there is a berm at the top of placement for proper soil acertact. slope, anchor upsiope of the berm. Stapling pattern as titin. 2"overlap Anchor in6"x6"mlm Traneh per manvfact vers and staple of 12' intervals recomlrandatiuhs. #� Min 6" osarinp_ Staple overlaps max. S" spadng. be not stretch blmketet/lmtti ti Blow Bring materiel down to a level orea, ng ght" turn the end under 4" and stopfe at Ir The rolls to caliform to a7' irregulariti as. infervals- Por stapes less Pion 3H: IV, rolls Llme, fertl line, and seed be Fore Installation Planting may be placed in horizontal strips. of shrubs, trees, etc. should occur after instollettion ROLLED EROSION CONTROL PRODUCTS [R.E.C.P. lee..6AM 9. Erosion control-Consdnct the structure so that the disturbed area is min;mizcd. Divert uirfnice water away from bare areas- Complete the embanked before the arra 1s cleared. stabilize the emergency spillway nnhvtkment mid all oilier disturbed areas above the creel of the principal spillway immediately after construction (Rclacncm ,Swyace SYabilizafim). 10. hhvlall porous homes as speviticd v Practice 5.65, Portes Ba�lrs. 11. After all the sodiment-producing areas have beta pamaiently stabilized, remove the strolotake and all the wadable sediment- Snmoth the arra to hlctel with the adjoining areas sed srahil n properly (Rcfcro v m S.,nrfoce Srulydcarrnn)- Maintenance lnspccx aliil h rir scx micot h sins ar le=st weekly incl after csvh mmifcant (one-half inch or greater) rainfall event and repair immediately. Remove sedhnem and restore the basin To its Original dimensions when sediment accmnulales to one-half the height of the first baffle- Pall the skimmer no one side so that the sediment whdcmeath it can be excavated. Excavate the sediment Pram the entire basin, not just around the skimmer or the first eel. Make sure vegetation growing m dee bottom of the basin does not hold down die skimmer. Repair the baflles if they are damaged- Re -anchor the baTfles if water is flowing whdcrncath or aroundthenn. If the skimmer is clogged with try h aid there 6 water in die basin, wally jerking on the mpe will make the skimmer bob up and down and dislodge the dchris and resuarc Pow. Ff this docs nn w�xk, pmt the skimmer aver to the side of the basic and renwve thu debris- Also check the or&t3 inside the skimmer to see if it is clogged; i£so remove 1116 debris. If tin skinuour grin o barrel pipe is cfnggud, the orifice can be removed and the obstraction cleared with a plumber's snake or byllushiug with water. Bc sure and mcplticr. the online be fume reposition Eng the skiumer- Check the fabric lined spillway for damage and make any required repairs with Fabric than spans Ilnc fiul width of the spillway. Cdeck to embarckuncnl. spillways, and cullet for erasion damage, and inspect the -_`- - _ sit far piping ;ted semlemwn. ]fake all accessary rcpain immediately, Ranovc all trash and.nher debris fmm the skinm,er and putt areas. Freezing weather can mull in ice forming in Ile basin. Some special precautions should be wkm in the winter to pnwir. the skimmer &esu plugging with ice. SKIMMER BASINS Maintenance I. Inspect Rolled Erosion Contml 11roducts at least weekly and after each significant (112 inch orgreatcr) rain fall event repair immediately 2. Good contact with the ground must be maintained, and erasion must not occur beneath the RECD. 3. Any arras of the RECP that are damaged Or not in close contact with the ground shall be repaired and stapled. 4, If erosion occurs due to poorly controlled drainage, the problem shall be fixed and the eroded area protected. 5. Munition- and repair the RECD as necessary until ground cora is established. References Sprague, C. Joel. TRY Environmental, Inc. "Green Eriigmeeting, Design principles and applicmions using rolled erosion control products" Storm water Management Manual for WestmlVashington. Washington State I7epannicnl of Eoology,'Alater Quality Program http:i ewww. ary.wa-goviprogram slwgistorm wala rindex him I Erasion Control Technology Council, hilnwvw .."to.Mg Ren. 6•�b'1 J THOMAS ENGINEERING, INC. CIVIL ENGINEERING & PLANNING 143 Charlotte Avenue, Suite 104 Sanford, North Carolina 27330 (919) 777-6010 phone www.jthomasengineering.com license no. C-3389 PROFESSIONAL ENGINEER'S SEAL O J a W 3 Z _ W J 0 a � U U � J w J Z Z � (� W J z O Q i U QLU Z Q W ( j log Z O U =LL a � J O r caw Z U O Z REVISIONS AGENCY REVIEW ONLY Scale: Drawn by: NTS JRT Sheet: Designed by: IRT 15 15 Reviewed by: 1 R of Project Number: Date: 18-010 02 APR 2019