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HomeMy WebLinkAbout20070081 Ver 2_More Info Received_20070720~ ~~~~;~ ~~ ~-~~; ~~, ~ lyq J ~ 0~~, ~l KELLER ENVIRONMENTAL ~'''~~~~'rruR ENVIRONMENTAL CONSULTANTS ~s'~rFa pry 7921 Haymarket Lane, Raleigh, NC ~' ~ (919)844-7437 ~~, Fax (919)844-7438 ~X.p o1 - OG S 1 Y2 LETTER OF TRANSMITTAL DATE: July 18, 2007 TO: NC Division of Water Quality ATTENTION: DWQ EXPRESS TEAM RE: Cedar Ridge Request for more information 7/11/07 WE ARE SENDING YOU THE FOLLOWING: ® Pre-construction Notification tPCN) ®Plans ®Maps ^ Specifications ® Documents ^ Other THESE ARE TRANSMITTED AS CHECKED BELOW: ® For approval ®As requested ^ For review & comment ^ Please reply ^ See below ® For your files ^ Regular Mail ^ Fed-Ex ®Delivered by KE ^ Picked Up COPIES DATE DESCRIPTION 3 Revised PCN a lication cket Remarks: THANK YOU! J~~,~a~''"~ ~"- Recd By: Signed _ ~. a`~. ~ To: NC Division of Water Quality 401 Oversight and Express Permits Unit Attn: EXPRESS REVIEW STAFF 2321 Crabtree Boulevard Suite 250 Raleigh, North Carolina 27604-2260 Re: Cedar Ridge Subdivision PCN Submittal Wake County, North Carolina July 18, 2007 KELLER ENVIRONMENTAL ENVIRONMENTAL CONSULTANTS 7921 Haymarket Lane, Raleigh, NC (919) 844-7437 Fax (919) 844-7438 '~': r. ., J~ ~~~ a, ~ 1~/ ~'- ;ty On behalf of the applicant, Robert Polanco, please find attached a complete application and supplemental information requesting written concurrence from the United States Army Corps of Engineers (COE) and the North Carolina Division of Water Quality (DWQ) that the activities proposed below may precede utilizing Nationwide Permit 29. We are requesting to place a culvert with headwalls in 1 stream and 2 bottomless arched culverts in further streams for the purpose of building Virginia Water and Irina Drives. In addition, buffer impacts will result from the installation of bioretention ponds and 1 aerial sewer crossing. 108 homesites are also proposed for this subdivision. These proposed impacts are contained in the attached packet of information. PR(I.IF(:T SI IMMARY Pro~ect Name CEDAR RIDGE Pro'ect T e SUBDIVISION Owner / A licant Robert Polanco Count Wake Nearest Town Rolesville Waterbod Name Harris Creek Basin /Sub-basin Neuse 03-04-02 Index Number 27-26 Class C; NSW I~ADA(`T CI IMMARV Stream Im act acres .014 Neuse River Buffer Im acts acres 1.13 acres Wetland Im acts acres 0 Total Im act to Waters of the State acres 0.014 Total Stream Im act linear feet 102 linear feet Please contact me at (919) 844-7437 (office) or (919) 749-8259 (cell) or ~I,a'~.kellerenvironmental.com if you have any questions or require any additional information. Sincerely, KELLER ENVIRONMENTAL, LLC ~~~ Jay Keller Principal Attachments: Town of Rolesville en ineer letter 7/17/07 Site Plan Sheets 13 Qore eolo is letter 5/14/2007 PCN A lication Form revised 7/17/07 HEC-RAS stud Bioretention Worksheets & H dro ra h Cumulative Im act Exhibit Wake Count Soil Surve Pa es 92 & 93. Rolesville 401 B ass Exhibit Jul 11, 2007 DWQ Re uest for More Information letter I{E KELLER ENVIRONMENTAL ENVIRONMENTAL CONSULTANTS July 19, 2007 Cyndi Karoly NC Division of Water Quality 401 Wetlands WQ Certification Unit 1650 Mail Service Center Raleigh, North Carolina 27699-1650 Re: Cedar Ridge Subdivision Keller Environmental Job No. 0647 DWQ Express Project # 07-0081 v2 Wake County, North Carolina Dear Ms. Karoly: We are submitting the additional information requested from written correspondence on July 11, 2007 and during our July 16, 2007 meeting with Ms. Cynthia VanDerwiele. We are requesting for NC Division of Water Quality (NCDWQ) written approval under Section 401, Clean Water Act, 33 USC 1344. This will assist in compliance with Water Quality Certification (WQC) 3631 and it's accompanying Nationwide Permit (NWP) 29. We have addressed your included written comments in the following paragraphs. 1. DWQ sent a request for additional information on June 4, 2007. Item 1 regarding the issue of the geotechnical subsurface exploration in regard to use of a Con-Span bottomless arch culvert was not addressed in the July 9, 2007 submittal package. Please refer to the following attached signed and sealed letters: • July 16, 2007 Town of Rolesville engineer letter • May 14, 2007 Qore letter • July 18 HEC-RAS study. Due to the massive granitic rock formations in the area and at this site, the use of Con-Span bottomless arch culverts will have less impact on the streams. The Town of Rolesville has approved the usage of these arch culverts and is requesting approval from the state. Attached are Plan Sheets 6, 7, 9, 16, 25, & CS/1-4 for your use. As stated during our meeting, the arched culverts have been designed to facilitate the flow associated with 100-year flow event without creating a backwater effect or increasing the existing 100yr velocities in the stream channel. These conditions minimize the scouring effect and its potential damage to the DWQ 401 Certification & Neuse R. Buffer Rules Re-Submittal Cedar Ridge Subdivision July 14, 2007 Page2of7 culverts and associated foundations. The developer, Robert Polanco, also stated that he is accepting responsibility for these structures for the developer warranty period. 2. DWQ has concerns regarding cumulative impacts. Please explain the stubbed out roads- Genovesa Drive, Montserrat Drive, and Marbella Drive. Please refer to the attached Cumulative Impacts Exhibit and NCDOT proposed 401 Bypass Corridor Map. Cumulative impacts are not anticipated for the unnamed tributary to Harris Creek on the Eastern property. Connection to the Rogers (Rolesville) Road and Century Farm Road intersection along with the proposed 401 Bypass can be provided without impacts to stream, wetland, and riparian buffer areas. 3. You have indicated a total of 220 linear feet of permanent stream impacts and 160 linear feet of temporary stream impacts on the cover letter; a total of 94 linear feet of impacts on page 4 of the PCN; 96 linear feet of impacts of page 6 of the PCN (for the same impact site); and Sheet 6 of 35 identifies 250 linear feet of permanent stream impacts and 20 feet of temporary stream impacts. The May 15, 2007 indicated 149 linear feet of stream impacts. Please explain your discrepancies. Please refer to the table below and to the corresponding Table of Impacts Tabulation on Plan Sheet 6 of 35. Stream Stream Name Type of Impact Perennial or Average Stream Area of Impact Crossing Intermittent? Stream Width Length (acres) Before Im act linear feet Virginia Water Harris Creek Permanent 60- Perennial 6 102 0.013 Dr. East inch diam. RCP Virginia Water Harris Creek Con-Span Perennial 6 86 0 Dr. West Bottomless Arched Culvert Irina Dr. UT to Harris Con-Span Perennial 4 78 0 Creek Bottomless Arched Culvert SS Outfall 8 UT to Harris Approx. 8-ft high Perennial 20 20 0 Creek Aerial Sewer Crossin Total Stream Im act (by len th and acrea e) 102ft. perm. 0.013 Ac. perm. DWO 401 Certification & Neuse R. Buffer Rules Re-Submittal Cedar Ridge Subdivision July 14, 2007 Page3of7 Virginia Water Drive East- Located between Phase I and III. The eastern Virginia Water Drive 60-inch RCP is 102 linear feet and the RCP will be buried 30-inches to facilitate aquatic passage. During our perennial stream determination, we entered the subject riparian corridor from the existing Virginia Water Drive end of pavement and walked upstream via the existing sewer line on the west side to the existing pond and sewer crossing area. It was evident during our analysis that the stream in the proposed crossing area is slightly incised. Please refer to Sheets 6, 7, & 19 on the attached plan sheets for details. Virginia Water Drive West- Located in Phase II. This crossing will span 102-linear feet of stream and provide connectivity to the western subdivision -Villages of Rolesville. The 25-ft. span length and 10-ft. height Con-Span bottomless arch culverts will have less impact on the streams as previously stated in #1. Please refer to Sheets 6, 9, 16, & CS/1-4 on the attached plan sheets for details. Irina Drive- Located between Phases I and V. This crossing will span 78- linear feet of stream and provide connectivity to Lots 61 - 67 and areas to the north. The 12-ft. span length and 6-ft. height Con-Span bottomless arch culverts will have less impact on the streams as previously stated in #1. Please refer to Sheets 6, 7, & 25 on the attached plan sheets for details. Though Sheets CS/1-4 are for .the Virginia Water Drive West Structure, they can be applied to this crossing also. Sanitary Sewer Outfall 8- An aerial sewer crossing is proposed south of Irina Drive between Lots 61 and 67. This proposed line will satisfy the City of Raleigh's criteria for a gravity driven sanitary sewer line. The crossing will be eight (8)-feet above the stream channel for maximum clearance of the 20-feet wide stream/pond area. The casings will be constructed outside of the jurisdictional stream/pond areas. Please refer to Sheets 6, 7, & 32 for details. 4. Your PCN Application indicates a request for Water Quality Certification and Buffer Authorization for Phase II. The construction plans indicate Phases III-IV. Please clarify the project scope and verify with the USACE representative. The proposed application is for Cedar Ridge Subdivision Phases II-V. This has also been corrected on the Plan Sheets. Thank you for highlighting that oversight on our part. DWQ 401 Certification & Neuse R. Buffer Rules Re-Submittal Cedar Ridge Subdivision July 14, 2007 Page 4 of 7 5. Please include all proposed riparian buffer impacts (whether requiring mitigation or not) within Section X of the PCN. Buffer Impact Area Square Feet Zone 1 Square Feet (Z1 Total) Square Feet Zone 2 Square Feet (Z2 Total) Bioretention 1 37 x 15 555 21 x 15 315 Bioretention 2 68 x 15 1,020 26 x 15 390 Bioretention 3 32 x 15 480 21 x 15 315 Bioretention 4 34 x 15 510 20 x 15 300 Bioretention 5 35 x 15 525 20 x 15 300 Bioretention 6 48 x 15 720 580 Bioretention 7 57 x 15 855 560 Bioretention 8 36 x 15 540 20 x 15 300 Bioretention 9 37 x 15 555 800 Bioretention 10 30 x 15 450 26 x 15 390 Bioretention 11 35 x 15 525 20 x 15 300 Bioretention Totals 6,735 4,550 Virginia Water Dr. E. 7,697 5,236 Virginia Water Dr. W. 8,044 5,442 Irina Dr. 5,699 3,858 SS Outfall 8 1,200 800 TOTALS SF 29,375 19,886 TOTALS Acres 0.67 0.46 6. The Zone 2 buffer impacts within the table (depicted on Sheet 6 of 35) does not match with the individual impacts depicted on the construction sheets. The Riparian Buffer Impacts listed above reflect the individual impacts depicted on Sheet 6 and on the Detail Sheets. DWQ 401 Certification & Neuse R. Buffer Rules Re-Submittal Cedar Ridge Subdivision July 14, 2007 Page5of7 7. You are proposing a total of 13 bioretention facilities in lieu of using level spreaders. A. Please use the bioretention supplement worksheet located at http://h2o.enr.state.nc.us/su/documents/BioretentionAreaSupple ment-DRAFT11-1.pdf. Please refer to the attached bioretention worksheets and hydrographs. B. DWQ requires a minimum of three (3) tree species; three (3) shrub species; and three (3) ground cover species. You have not provided the minimum amount of plant diversity. Please refer to the typical planting details on Sheet 9A for the bioretention area details. C. You have specified Myrica cerifera (wax myrtle). This species fixes atmospheric nitrogen and should not be used for nutrient reduction. Please specify a different species. See Chapter 12 Bioretention [http://h20.enr.state.nc.us/su/documents/Ch12- Bioretention OOO.pdf ]. Please refer to the typical planting details on Sheet 9A for the plant diversity. Wax Myrtle has been removed. D. All plants proposed for your bioretention facilities must be able to withstand the ponding depth you have indicated. The proposed plants are found on Sheet 9A. As discussed during our office meeting, the ground cover plants will be placed at shallower depths to ensure success. E. You have specified a soil media depth of 2.5 feet. This shallower than DWQ minimum standards for planting trees and shrubs. The soil media depth has been revised to 3-feet. Please refer to the typical bioretention cross-sections on Sheet 9A. F. You have not included soil specifications for the bioretention facilities in your construction plans. Please refer to the typical bioretention cross-sections on Sheet 9A. DWQ 401 Certification & Neuse R. Buffer Rules Re-Submittal Cedar Ridge Subdivision July 14, 2007 Pagebof7 G. Please describe how the planting soil infiltration rate was determined. The planting soil infiltration rate of >2.0 in/hr is specified per the NCDENR DWQ BMP manual chapter 12. The final infiltration rate for the planting soil media will be tested to determine if it meets the required infiltration rate. The Bioretention calculations were done using the average soil conductivity of a loamy sand soil (soil media type specified). The in situ soils are Louisburg Soils and determined from the Wake County Soil Survey (WCSS). Please refer to the attached pages 92 and 93 of the WCSS for the infiltration rate (see comment response to 7.H. below. H. The construction details for the bioretention facilities do not appear to include an underdrain. Please explain. An underdrain has been instituted into the bioretention areas. Per the conversation with Cindy, the specification of an underdrain removes the requirement of site testing of the in situ soils. Please refer to Sheet 9A for details. I. Your construction plans contain inadequate detail regarding the sequencing of the bioretention construction. Please describe when and how the bioretention facilities will be constructed. Please refer to the details on Sheet 6. Namely Step #9 of the Wake County Construction Sequence. J. Sheet 9A of 35 Landscape Notes. Your project is located in Rolesville, NC. Please explain the references to the Town of Cary Standard Appearance Specifications Manual and the town of Cary site inspectors. The landscape notes have been modified to reflect the Town of Rolesville Unified Development Ordinance specifications. Thank you for highlighting that oversight on our part. K. Maintenance Agreement, page 13 of 14 Item III B includes fertilizing in April and October. This information conflicts with page 5 of 14 item 4. DWQ will not allow regular semi-annual ~ f DWQ 401 Certification & Neuse R. Buffer Rules Re-Submittal Cedar Ridge Subdivision July 14, 2007 Page7of7 fertilizing as the purpose of the bioretention facilities is to reduce nutrients in a Nutrient Sensitive Water watershed. The Operation and Maintenance Manual has been modified to call for no fertilization within the bioretention facilities. Thank you for highlighting that oversight on our part. If you should have questions or require additional clarification please feel free to contact me at 844-7437 (office), 749-8259 (cell) or email: jay~kellerenvironmental.com. Sincerely, Keller Environmental, LLC ~~ Jay Keller Principal Cc: Harold Yelle, PE Robert Polanco Attachments: • Town of Rolesville engineer letter, July 16, 2007 • Qore geologic letter-May 14, 2007 • HEC-RAS study, July 18, 2007 • Cumulative Impact Exhibit • Rolesville 401 Bypass Exhibit • Site Plan Sheets (13) • PCN Revised July 17, 2007 • Bioretention Worksheets & Hydrograph • Wake County Soil Survey Pages 92 & 93 • July 11, 2007 DWQ Request for More Information letter a1lAr I V yr VL. I •..~J VQ11 •../II I II I IV l to v , v ..,:.- •..". ~xP O~•~D$l Y'2 ~~ Mayor N;1nCV Nt. Kelly l.ommrtNtonc:r llonnic 1, l:umn (:nmmia.irynr:r• (:. Drunk I:,I!Ir•,, ~1Anynr I'rn=1'rnlilnrr C:umrr;ia,a+mar ~V, l•rarJc I Ir...I};r C:ommixslwur lietcv 1'. w'hltak~:r Commisri<mcr Ja;~-lrh V1'. "Jacl:~" VVilsan Jr~ly 16, 7(lg7 >`C Departrncnt of F.nvimnmcnt an<l Natural Rcsour~cry Division of Water (Zut>aity 512 North tialislwry Sfl'P.PT. Raleigh, NC 27604 Rcfcrcnccc C;vclor Lakes 5ubdivisian Virginiu Wvtcr Urivc Groscing '1•r~ W ham It May C;ancern: Pir~t r• r,~.~~ ;t101•.r~l Yigmi~!ilrv<•I I'.r..l (Nii~:c ISnx 75t1 Itrrlr..vi~lr, Nnrlh(:arr>lie:~ 7%571 F'aG~+imilc: 9l9.5i6,635? ~r~clv.ci .r<rlrsvil Ic•.rtr..ua Tl•rc; (Own sta!'f lots rrviewal lhr. t:~orr,StruCtiOq plans 1'vr Cc^t3ar L.akcs SuE,division ;ut~l Virginia Water [.)rive. The Tnwn nerds the intCrconnec•tivity of this; street For the efficient delivery of municipal services between thin (:ctlar Lakes Suhdivi+ion and tht Vi11al;cs at Rt,lc•willt• luhdivitiictn. The' con~uruction plane show the use of an arch bridge For this cr»ssin~r and the Town has approved this concept liccausc it will have Icrs impact nn the stream. 'i'he dcvclnpcr will ncccl to supply the detail construction plans li-om the supp[icr 1'or final approval prior tv starting any wnxtructic~a. Uue to the rock conditions in the Rolesville area the "1-own has approved the concept of using the arch hridg+c• fur Virginia Water Ihivc and is requesting the State's approval 1'or this projcc-t as well. tl'ynu xhoultl have any duc:aions, (ccl free to rnntact me at 554-6517. Sincerely, C:.v-1:iimrirt'ins Town Gnginci:r wT'~w~~ .wu""'v s~°~c1~1 ~l~f~'1 ~' ~~~.. 75!2 /ZJ ~X.Q 01- ~O$ 1 Y2 f' M ~,~~w~ P~it~y.~~' af~!?r ,~i;t~frtGc~rr: (~+1'" i-#~~rE~~ ''~'rtlG. ~G'~~~'~ v<tia4e~.. l~v~ kE~ C~~t'cJ'~~r~ ~l~rh i~~f~;a, i"~fi '~~i'. ~'~e.~~,rt Rite. 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't it ~ ...:::'......: ~c it',.............., it 4t i::::...., :r ~'•`~-(~~,°ir ~tl;; ~ ;y~ir; ®A1p®~ PROJECT DATA ,r .~,, sr Project Title: CEDAR LAKES - newest `~ ~ Pro] ect Fi 1 e cedarnew. prj SEAL °~~ 'a~ Run Date and Time: 7/17/2007 10:51:48 AM °" z~ a ~k ®~. 1 ~.. Proj ect i n English units : ~~':.F,y .^ ~~`'~ Project Description: '~.,~D,q, YES-~'~~~~' ~~~~~~ eeee~e ~ dt'.: ~• 8: a': 4t dt B: it it ~• ~'.t R• ~: i.• ~ ~. ~. ~ . ~. ~. . ~. . ~. ~..,..,. ~. ~• ~ ~. ~ ~. ~. ~. ~. ~(p/~~ . ..r s'...., i... 4......... ~ :Y .....r ...r .... '.r dr .... $r'.:: ~ ~ 'r ~• it ~ ': 4r :r'...... ,, ~ :c ~•'.r ~ ~ '..•'• ~; ~ 't ;.r ~•'t :r is ~ .. .. PLAN DATA ~~• I~ '~ ~ 7 Plan Title: Future Conditions Plan File o:\sdskdsgn\proj\CEDAR\HEC-RAS\cedarnew.p06 Geometry Title: Future Conditions Geometry File o:\sdskdsgn\proj\CEDAR\HEC-RAS\cedarnew.g05 Flow Title Flows w/o Ponds Flow File o:\sdskdsgn\proj\CEDAR\HEC-RAs\cedarnew.f01 Plan Summary Information: Number of: Cross sections = 15 Multiple openings = 0 Culverts = 3 znline structures = 0 Bridges = 0 Lateral structures = 0 Computational Information water surface calculation tolerance = 0.01 Critical depth calculation tolerance = 0.01 Maximum number of iterations = 20 Maximum difference tolerance = 0.3 Flow tolerance factor = 0.001 Computation Options Critical depth computed only where necessary conveyance Calculation Method: At breaks in n values only Friction slope Method: Average Conveyance Computational Flow Regime: subcritical Flow .....~ ...... .. .................................. .................... ............:r '............. 'r'..........: i:............., .......... ,........... ,........... FLOW DATA Flow Title: Flows w/o Ponds Flow File o:\sdskdsgn\proj\CEDAR\HEC-RAS\cedarnew.f01 Flow Data (cfs) Page 1 cedar-hecras-future . .....~. ~. ...... ~..~. s .....,. ~ ..,. ~.... ~..~... .,. ~....... ~. ~..~. ~. ~, s... ~.... ~..., s.... ,... .............. n .......: is is ~......::r'r'............: is ,....................r ~~: it n n ., .........: ... ~. ,. . s. ~. ~. ~. ~. 'r ~- it t ....,. ,.. ~. s• •~, s..,. ~.... ,, ~r ~; .~. ~r ...... ~..,..~. ~. ~. ~. _..... i:.... 'r :. 'c '......, n .. .................... •'r River Reach RS 100yr 25yr l0y r ~" ~` MAIN CREEK Upper 9.0 n 124.86 89.83 66.42 'r '° MAIN CREEK Lower 6.0 •• 248.43 174.57 125.74 '~ '° MAIN CREEK Lower 5.0 •• 334.97 234.01 167.43 ;r MAIN CREEK Lower 4.0 •• 626.51 435.02 309.04 'r ~' MAIN CREEK Lower 3.0 •• 736.03 508.57 359.34 '° 'r NORTHERN CREEK Upper 13.0 ~" 123.57 84.74 59.32 -° .. ': is '..... ': is '...... 'r'.., n .... .. ~• fir':.. ;r is :...................... 'c ~. 'r': ic', n 'r ; ..:r :'r': .::: ;: n '.C fir': k ~ .....::r ~ .. ': f: it i. n n .............. 'r it 3r ': it fr '......... 'r ~. Boundary Conditions .......... ~• is '... 'r it „ .. R• ?r'r ;; ~•', n 'C ~: '......... 'c'.:........ ?c ~: '. ': is it :: ............ is is ~ .....,,~. ;~. ~. ~ yr „ .. ., n n ...... . :r~. ..., n ...................... 'r'...... 'r', ...... .. .. .. .. .. ir',r~.. ., n.. n.. ~" River Reach Profile n upstream Downstream ....n....'.:ire....n'rir~'..•ir~it~i:',C:r'r'..n..:'r'........n~fr'.,;'.r~'r~;;~ieir~n..'Cs'•~rsY~~•irk'..n'.r'.',r~;;;.r:r:ri.':~ir~n....n~r:r~~....:riri.'r;'r' n.. :r~r .~. r .~.~....~. •~.... .~.... ~' MAIN CREEK Upper 100yr ~ Normal S = 0.01 ~: ~' MAIN CREEK Lower 100yr Normal s = 0.01 "~ '~ NORTHERN CREEK Upper 100yr n Normal S = 0.01 ~: .r :r': !: ;:.. 'r it 'r'r': sY'r k ~ oY is it it ~ .. ~• it ~ ;r'......, n .. '.: it ': it ~ ., n n ': ~ it ~ 'r it ~ n ..., n ': $r ~ 'C it :: ~ ~ ~: ', '.• it 4. ~• x ~ n n n n ~• ~::... 4r ;: ;; ~t i, ~• it 9....... ~ ;r'r ;r it ~: ~..n..........Sri:':isir'r~~~~'rir'.'rir' ............:r'.nn..,;:r~nn.;:r~......'r~~n'r~~•~'r~~n~'c'.r~;:r~~'.,n~•i;~n'.r:'.n'r :':'.r'.....n GEOMETRY DATA Geometry Title: Future Conditions Geometry File o:\sdskdsgn\prof\CEDAR\HEC-RAS\cedarnew.g05 Reach Connection Table ...... ': ~' ;': '.r :'r :'r': ~ :'r `,"'::'r ~'': it s'' ~: is s'' rr'. 4r'r is ': 'r ~r :': '.. 'r','r ~' ~ :'r ;': ~' it S'r 'l. ~ k t ~ 4r is 'r'.:r ~•': '..' ~r ~ '.' y'' ~. n '..• :': ~•': 'r ~ .. n .. n .. '.: ~ .. ': it ~ ., n .... •• River Reach •• Upstream Boundary * DownstreamJBoundary~° ..n'.tor'ri:X~'......:r'.'.:ir~•:r~•~::r'•r~Yr:.........'rir'...:r~~......n.::r:r'..•~r'.~~ir ~•:r:r$c'•r:e~'c~n':t,~'r4:~~•sY~nR•s°J. n.. .. .. ': ire.. :r 4.n '~ MAIN CREEK Upper ~° ~ Junction) •• ~° MAIN CREEK Lower •• Junction * .. ~• NORTHERN CREEK Upper ~~ ~r Junction '° .. .. ~: 5~C ''.... ':r ~::'. .... ~r ~C )'C ~: `'.. n' ~: ~.r :r ~: ~: ':r 5': )~.....:: ~: '.Y :'r :: n' •.'..... '.Y ~: `.~. •.~.' ~.r !~: ~.... n ........ n •.~.' ~: `.': ~.C ~r n' n' ~: ':r ~.C ~: ~' n 'I: SAC ~. n n' f: '.~. n .... n .. ~r `.~: `.': ~::': ~: JUNCTION INFORMATION Name: Junction Description: Energy computation Method Length across Junction River Reach MAIN CREEK Upper NORTHERN CREEK Upper Tributary River to MAIN CREEK t0 MAIN CREEK Lower Lower Reach Length Angle 0 0 0 0 CROSS SECTION RIVER: MAIN CREEK REACH: Upper RS: 9.0 INPUT Description: Edge of Pond #1 Page 2 cedar-hecras-future Station Elevation Data num= 20 Sta Elev ~ ~ Sta Elev Sta Elev Sta Elev Sta Elev n ........ .... '. C '. . ........ .. .. .. .... ...... r. .... ...: 7':........::' i't :'............... n .. .: 1't'r )Y 'IC ri ~: ':C ~:.................... .: 5~:.. ............ ':::'............... 0 390 31 388 48 386 105 384 155 382 200 380 208 379.9 210 379.7 212 379.9 220 380 250 382 260 384 287 386 350 388 443 390 461 392 476 394 490 396 500 398 509 400 Manning's n values num= 3 Sta n val Sta n val sta n val ....:r ir' ................... n ...... .. '.r ;'. 'r i; ', n .. '.r :: ~• ir' n ~• is ~ .......... n ....::'!..r't ~• 0 .05 208 .035 212 .05 Bank Sta: Left R ight Lengths: Left Channel Right Coeff Contr. Expan. 208 212 400 400 400 .1 .3 CROSS SECTION RIVER: MAIN CREEK REACH: Upper RS: 8.0 INPUT Description: Upst ream of Virginia Water Drive Station Elev ation Data num= 20 Sta ' ' Elev Sta Elev Sta Elev Sta Elev Sta Elev .; ~•'r 4r ~ ~ ~ '•r'.• : ... ~• ~: '., n '.• ;'; '. ',r it t ~c'.r ~'. ~ ~': ~ :r'.r ~ ~ ~• :. ~• ~ it :r ~ ~• ;r ~ ~ it ~ :r ~::r is 4; ~ it ~ ~: 'r'.r fr ; '; ~', ir't ~', n n '!r it ~ ~• ~ ~ ',r ~ n JJ ~ ~• it 'C 0 390 30 387 64 383 85 380 99 378 116 376 127 374 130 372 133 370.2 137 372 141 374 143 376 148 378 153 380 162 382 169 384 179 385 184 386 197 388 208 390 Manning's n values Sta n Val Sta 0 .05 130 Bank Sta: Left Right 130 137 CULVERT num= 3 n val sta n val .035 137 .05 Lengths: Left Channel Right Coeff Contr 130 130 130 .1 RIVER: MAIN CREEK REACH: Upper RS: 7.5 INPUT Description: HW#74, HW#75 Expan. .3 Distance from Upstream xs = 56 Deck/Roadway width = 30 weir Coefficient = 2.6 upstream Deck/Roadway Coordinates num= 8 sta Hi Cord Lo Cord ' Sta Hi Cord Lo Cord Sta Hi Cord Lo Cord 'r .. .. .. .. .. .. .. .. n.. 't'. .. ., n., n«ir :', n.. ., n n:: it .: is it .. .. .. .. .. .. .. ., n.. :r'..n.r~ ~.. ., n.C i; .. .. .; it ~ n.. ., n.. ,C is .. .. J ~ 'c is .: it i; .. .. 21 386 53 385 54 385 97 386 134 388 165 390 201 392 233 394 upstream Bridge cross section Data Station Elevation Data num= 20 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev ........ '; i; ' ............. .. f; '. ~• tC :..................... 'e', n ................ .... 'r :Y ~ n .... .......... Vic'... ,...., .......... .. n :C'... 'r :r'... J ..., n ...... JJ, 0 390 30 387 64 383 85 380 99 378 116 376 127 374 130 372 133 370.2 137 372 141 374 143 376 148 378 153 380 162 382 169 384 179 385 184 386 197 388 208 390 Manning's n values num= 3 Sta n val Sta n val Sta n val Page 3 cedar-hecras-future ...........: it ~: '.: ~t .......... 'r'...; fr ir'... 't it ~• i::r',.:t ic', .... ~: '....... ir'..... '.r ie 4t 4t'... 0 .05 130 .035 137 .05 Bank sta: deft Right Coeff Contr. Expan. 130 137 .1 .3 Downstream Deck/ Roadway Coordin ates num= 9 Sta Hi Cord Lo Cord Sta Hi cord Lo cord Sta Hi Cord Lo Cord n .. .... n n ........ n ..:'C )~. n ii '.~. .... n :'C '::f :r ~.r :': ':: `.~....... n .................. n )~t ':......... n' n":C 7: '.~... .. n .. '.~C ~: '::.~. )~t ~t S~: )'. n ............ 30 386 61 385 62 385 105 386 138 388 173 390 207 392 240 394 273 396 Downstream Bridge Cross Section Data Station Elevation Data num= 21 Sta Elev ' Sta Elev Sta Elev Sta Elev Sta Elev ....'r ..n'r:r'.r....'ti..t:r'.rir~ '.n.ric:t'r:rit ' ..n..:tt:. n't~'.'.t~:'r.::r ~~•irfr:c'.rit'..~•sYsY '...'eir'r~itiri,n~icit .r'.r'.r::ire-~r~ '..n:rit'r.... J 0 387 31 386 64 384 71 382 78 380 83 378 91 376 110 374 121 372 126 370 131 369.2 133 369 135 369.2 139 370 143 372 156 374 176 376 196 378 215 380 265 385 325 390 Manning's n values num= 3 Sta n val sta n val Sta n val n .. 'r ~ 't ~• it ~ ,; :r'.. n ~• ~: '.. ': it :r ~ ~; ~ n ~• it ~ ~•'.r ~ ~ 'e :'r', n n n ~• ir', t is ':.. „ :r'r it ~• it 0 .05 131 .035 135 .05 Bank sta: deft Right Coeff Contr. Expan. 131 135 .l .3 upstream Embankment side slope Downstream Embankment side slope Maximum allowable submergence for weir Elevation at which weir flow begins Energy head used in spillway design Spillway height used in design weir crest shape Number of culverts = 1 _ .0208 horiz. to 1.0 vertical .0208 horiz. to 1.0 vertical flow = .95 = Broad Crested Culvert Name shape Rise span Culvert #1 Circular 5 FHWA Chart # 1 - Concrete Pipe Culvert FHWA Scale # 1 - square edge entrance with headwall solution Criteria = Highest U.S. EG Culvert upstrm Dist Length Top n Bottom n Depth Blocked Entrance Loss Coef Exit joss Coef 1 0 120 upstream Elevation = 369.37 centerline station = Downstream Elevation = 368.17 Centerline Station = CROSS SECTION .Oll .Oll .833 133 133 RIVER: MAIN CREEK REACH: Upper RS: 7.0 .2 INPUT Description: Downstream of Virgina Water Drive Station Elevation Data num= 21 Sta Elev Sta ' Elev Sta Elev Sta Elev Sta Elev :r:r:t: . ..,..,. ~. •.• ~..,.:. ~• .,..,, a. •.• ,.... ,.1. ~..,. ~....... :'r:cir'::::r::•~:t'rit:t't'r't::'::r:r::'t'r :............. .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. ~. ~. ~... s.1• .,. ~...• • ... .. .. .. .. .. .. .. i. ~..,. ~.,.. ~. ~..,.., .,. ~..,. ~.....,. •.. ~. .. .. .. ..... .r .. .. .. .. .. .. .. .. ~..,. ~• ~• .~ .,. .. ,. .. .. .. .. 0 387 31 386 64 384 71 382 78 380 83 378 91 376 110 374 121 372 126 370 131 369.2 133 369 135 369.2 139 370 143 372 Page 4 • ~ cedar-hecras-future 156 374 176 376 196 378 215 380 265 385 325 390 Manning's n values num= 3 Sta n val sta n val sta n val ...... n .....: )'t ~t ~. ........:'t :'........... n' n' it n n' J.: )'t n' J.C ':: n".~. '.~: ~C :'C `.'. ...... n n .. n .d. ~: '.~.' .. 0 .05 131 .035 135 .05 Bank sta: Left Right Lengths: Left Channel Right Coeff Contr. Expan. 131 135 525 525 525 .l .3 CROSS SECTION RIVER: MAIN CREEK REACH: upper RS: 6.0 INPUT Description: junction with North Creek Station Elevation Data num= 27 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev .. .. .. .. n .. '.': ~: :. .. n n .. .. n .. .. .. .. .. .. .. .. .. n .: ~C ~. .. .. .. n.. n'SY 'X ~C i. .. .. .. )Y '.~: J.tn ~ln n'J.t n'n"'.C SAC ~C ~C `.': )Y S~. .. .. .. .. )'C ~C '.~. n' n nJ..'JC '.~: n'n n n'.J. n. ~.~~. 0 386 20 384 36 382 47 380 72 375 97 370 107 368 114 366 123 364 132 362 175 361.2 178 361 181 361.2 235 362 280 364 307 366 400 370 432 372 460 374 483 376 511 378 540 380 560 382 577 384 594 386 604 388 624 390 Manning's n value s num= 3 sta n val sta n val sta n val ~;~. n .. ..., n:t~ .... n~:~; ..., n n~t~L~~: ~.. n n n~:~:~:~:~~t~t~~ n n n..., n ~•*~~~~ 0 .05 175 .035 181 .05 Bank sta: Left Right Lengths: Left C hannel Right Coeff contr. Expan. 175 181 790 790 790 .l .3 CROSS SECTION RIVER: MAIN CREEK REACH: Lower RS: 6.0 INPUT Description: junction with North Creek Station Elevation Data num= 27 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev .......... n n .. n .. ~: S~: ~: ~t '.~. .... n .... n n n n n n .. n n' ~t Sit ~i `.~.' JC JC JC JC :': J.: JC 'I.' JC 'Ii' 'I.' n' J.C )~.' SAC ':t `~. n ~: )~C n' `.~: )~t ~: i~: ':: ~: ~t :f ':C a ~t J.C SY J.C !~. !~C J.C ~C `'C `.~.' ~: `~: ~: J.: a 0 386 20 384 36 382 47 380 72 375 97 370 107 368 114 366 123 364 132 362 175 361.2 178 361 181 361.2 235 362 280 364 307 366 400 370 432 372 460 374 483 376 511 378 540 380 560 382 577 384 594 386 604 388 624 390 Manning's n values num= 3 sta n val sta n val sta n val n n .. n n n n n n n n n n .. n n .. .. n .. Jt A J, J. JC JC JC .~.~. ~. JC .~4, JC :~. ~: n' i. '.~: n n n .. `k ~: '.~C ':C ~C ~C n 0 .05 175 .035 181 .05 Bank sta: Left R ight Lengths: Left Ch annel Right Coeff Contr. Expan. 175 181 790 790 790 .1 .3 CROSS SECTION RIVER: MAIN CREEK REACH: Lower RS: 5.0 INPUT Page 5 cedar- hecras- future Description: Edge of Pond #3 Station Elevation Data num= 25 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev .....,...:r'........nn........n.r ir:.......:r'.:r 'rirnn......... .n..n ...... ..........n.r '.•n................ .............. n..n........n.. ..n........ 0 380 30 375 64 370 99 365 127 360 133 358 155 356 175 354 185 352 192 350 201 349.8 204 349.6 207 349.8 210 350 229 352 249 354 264 356 274 358 287 360 310 364 337 366 406 368 505 370 560 375 606 380 Manning's n values num= 3 sta n val Sta n val Sta n val ..., n ~: S'r :'. n .. ':! '.~..... '.~r ~r )~, nnn .. n )"r '~: n .... n n .... n n '.~<'.~: S: ~, nnnn ~t Sir ~t S~. nnnn n 0 .05 201 .035 207 .05 Bank Sta: Left R ight Lengths: Left C hannel Right Coeff Contr. Expan. 201 207 450 450 450 .1 .3 CROSS SECTION RIVER: MAIN CREEK REACH: Lower RS: 4.0 INPUT Description: Station Elevation Data num= 24 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev nn......n....n 'r'.•~'..'r:.nn'.• ir~eir::n.:'eir~;,n~•ir~ir~rir '.n'.r'.r'.R•~~nn..n'r~ ~~„n'r'r'.r~~•ir i.,;:r~•~~~•~•~',c',~',r:r~~~n.::e'.n 0 370 27 366 49 362 66 360 90 356 113 352 123 350 136 348 145 344 176 342 181 341.7 184 341.5 187 341.7 194 342 209 344 226 346 241 348 270 350 284 352 301 356 327 360 335 362 350 366 371 370 Manning's n values num= 3 sta n val sta n val sta n val .. .. ........ it '.~. .. .. n .. .... nnn ~: S'r ~r )'r ~r r. .. ~r Sit n' n' l~r '.~: '.~r ~. n « S". ~r )'r :'...., n n ~. n n ., n .. 0 .05 181 .035 187 .05 Bank sta: Left R ight Lengths: Left channel Right Coeff contr. Expan. 181 187 714 714 714 .1 .3 CROSS SECTION RIVER: MAIN CREEK REACH: Lower RS: 3.0 INPUT Description: station Elevation Data num= 31 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev :: it '.........., n ..., n .. ~- i:., n .. ......., n ., n n :'r k i.:'r ~ '. ~ ', r ~ it '.., nnn ........., n ~• ~ it it ..., n .... '. r ~: '........., nnn ~• ~ it ~ .. ~ ~ ~ n .. n '. r 'r 0 360 9 358 21 356 34 354 45 352 55 350 67 348 74 346 80 344 89 342 112 340 137 338 161 336 180 334 182 333.9 184 333.7 185 333.9 187 334 191 336 198 338 206 340 214 342 220 344 230 346 237 348 247 350 256 352 266 354 276 356 289 358 301 360 Manning's n values num= 3 sta n val sta n val Sta n val ~::~r iY s: :~::Y iY SY :'r ::• :~: :': )'r :'C :~t sr ::' ~r :'r ~r ~r ~r ~r :'r ~r ~r 1'r ~: ~: k ?r :~r ::• :'. ...... ':r ~: ~r ~r J. ~.. ~. ~: ~: `.~..... . 0 .05 182 .035 185 .05 Bank Sta: Left R ight Lengths: Left C hannel Right Coeff Contr. Expan. 182 185 750 750 750 .l .3 Page 6 cedar-hecras-future CROSS SECTION RIVER: MAIN CREEK REACH: Lower RS: 2.0 INPUT Description: upstream of Virginia water Drive station Elevation Data num= 29 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev .. .. .. .......................cs.......n...t'ti.n....n..n:'t:'.nn.... ................ n..........'tit 'J s.nn......'ti.....nn....iC JJJ JJ ~J :.....`k'.'..t:'t' ~ J, 0 350 14 348 30 346 40 344 52 . 342 69 340 78 338 86 336 96 334 106 332 116 330 130 328 132 326 134 325.8 136 325 6 138 325.8 140 326 143 328 150 330 154 . 332 160 334 166 336 173 338 185 340 193 342 204 344 215 346 231 348 247 350 Manning's n values num= 3 sta n Val Sta n Val sta n Val ..........., sr ~. ~t ~t sr :..... ~t sr ~......, n ......., st ~r :....., sr ~. ~ sr :........, n .......... :::~ JJ 0 .05 134 .035 138 .05 Bank Sta: Left Right Lengths: Left C hannel Right Coeff Contr. Expan. 134 138 165 165 165 .1 .3 CULVERT RIVER: MAIN CREEK REACH: Lower RS: 1.5 INPUT Description: Hw#76, Hw#77 Distance from upstream xs = 70 Deck/Roadway width = 30 weir coefficient = 2.6 upstream Deck/Roadway Coordinates num= 6 Sta Hi cord Lo Cord Sta Hi Cord Lo Cord Sta Hi cord Lo cord ........n ...............tst~..nn....:t~:t~~•~:~~..n~~t~~•~r~.~t~.~:~:~.....~•*:: :t~:~nnnnn~•~t~•~:~*~t~;~::~~~ nn..~~~; 15 356 128 352 40 354 216 353 88 352 235 354 upstream Bridge Cross Section Data Station Elevation Data num= 29 Sta % • Elev Sta ' Elev Sta Elev Sta Elev Sta Elev •• •• •• •• .... . r sr : st sr s, s.• sr sr'.t sr s, R• sr ~ R• ~ k sr'., st sr'..., sr st s; iC st s.., s: sr st ..., st , J st it ~ R• it ~ sr st .t sC sr sr sr s. J ......:.• iC sC st sc sr J~ R• iC sr sr'.'. 0 350 14 348 30 346 40 344 52 342 69 340 78 338 86 336 96 334 106 332 116 330 130 328 132 326 134 325.8 136 325 6 138 325.8 140 326 143 328 150 330 154 . 332 160 334 166 336 173 338 185 340 193 342 204 344 215 346 231 348 247 350 Manning's n values num= 3 sta n Val sta n Val sta n Val st st..srs:i.....sr s. st sr'........n............'.: st it R•st*R.... .. .. .. .. ••.. .. .•..n.. .. .. .. st sr 0 .05 134 .035 138 .05 Bank Sta: Left Right Coeff Con tr. Expan. 134 138 .1 ,3 Downstream Deck/Roadway Coordinates num= 8 Sta Hi Cord Lo Cord Sta Hi Cord Lo Cord Sta Hi Cord L .. .. .. .. .. .. .. .. . o Cord ............................. n ............................ ,... ,..........r .................................. ,t ~::....;t st :..... 5 358 101 352 251 354 30 356 143 352 274 356 54 354 232 353 Page 7 cedar-hecras-future Downstream Bridge Cross Section Data Station El evation Data num= 29 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev .......... 'c'...., .. .;r ir'. 4e ~ ..:r' . ............ ................ 'r it ::.. 'r it '............r :r :'......, .... 'r ic'.... 'r it ~c ~ ..., .::r'r i. ..:; ir'.....:r 'r'c ~ ........ 0 350 15 348 33 346 50 344 66 342 81 340 94 338 102 336 111 334 122 332 134 330 148 328 156 326.4 159 324.9 161 324.7 163 324.9 176 326.1 180 328 185 330 194 332 204 334 215 336 228 338 244 340 250 342 265 344 283 346 316 348 343 350 Manning's n values num= 3 Sta n Val Sta n Val sta n Val .. 'r'c ', ., ........ ': s::r'r ie i..... ': ~: '... 'r it d... J: ie ~. '.r dr R .... '.: is 'r'.r'::r'........:Y'... ~ is 0 .05 159 .035 163 .05 Bank sta: Left Right coeff Contr. Expan. 159 163 .1 .3 upstream Embankment side slope = 0 horiz. to 1.0 vertical Downstream Embankment side slope = 0 horiz. to 1.0 vertical Maximum allowable submergence for weir flow = .95 Elevation at which weir flow begins = Energy head used in spillway design = Spillway height used in design = weir crest shape = Broad Crested Number of culverts = 1 Culvert Name Shape Rise Span Culvert #1 Conspan Arch 10 25 FHwA Chart # 60- Span/Rise ratio approximate 2:1 FHWA scale # 1 - 0 degree wing wall angle Solution Criteria = Highest U.S. EG Culvert upstrm Dist Length Top n Bottom n Depth Blocked Entrance Loss Coef Exit Loss Coef 5 140 .Oll .Oll 0 .3 1 upstream Elevation = 325.5 Centerline Station = 136 Downstream Elevation = 324.5 Centerline Station = 161 CROSS SECTION RIVER: MAIN CREEK REACH: Lower RS: 1.0 INPUT Description: Downs tream of Virginia water Drive Station E levation Data num= 29 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev ., ....., ., it ~ ir'. ,, ,, ~• is ir'.r ~ 'r ~: :..c :r :. 'r ~: i... 'r fc ~• ~ ..:r t'r :....... '.r'...., '.r ir'........ 'r i.......:r '.c' ............ .. '.c ie'.................. J J J 'J ............. JJ 0 350 15 348 33 346 50 344 66 342 81 340 94 338 102 336 111 334 122 332 134 330 148 328 156 326.4 159 324.9 161 324.7 163 324.9 176 326.1 180 328 185 330 194 332 204 334 215 336 228 338 244 340 250 342 265 344 283 346 316 348 343 350 Manning's n Values num= 3 sta n Val sta n Val sta n Val ...........: i~ :............ n .. ...... ............ .............: `.~:.. .: ~: .. .. .: )~t ~... .. ...: )~:...... 0 .05 159 .035 163 .05 Bank Sta: Left R ight Lengths: Left ch annel Right Coeff Contr. Expan. 159 163 85 85 85 .1 .3 Page 8 CROSS SECTION RIVER: MAIN CREEK REACH: Lower RS: 0.0 cedar-hecras-future INPUT Description: Property Lin e Station Elevation Data num= 29 Sta Elev ~ Sta Elev Sta Elev Sta Elev Sta Elev .. r . .. .. .. .. .. .. .. .. .. .. n.: :r `. . .. n .:'r:r'..': it it n...... .. .. .. .. .. .. .. .. .. .. .. .r ~f i. .. n~: `'.r :. n .. .. .. .. .r :t '". n nit ~C ~. n)~: SY )'. n n n.. .. .. ~t J, J' :. .. n.. .. .. )': Sit ~ 0 342 40 340 60 338 76 336 93 334 112 332 131 330 162 328 173 326 183 324 193 322 194 321.7 196 321.5 198 321.7 200 322 203 324 207 326 210 328 213 330 217 332 220 334 230 336 240 338 246 340 254 342 262 344 270 346 283 348 300 350 Manning's n values num= 3 Sta n val Sta n val sta n val .. '.r', n .............. 'r'r it it :r ~ .. 't' ., n ~• t'.. ........ n ......., ..., .. 'C ~• :r ~ .. .. 'r ~• :r't it 0 .05 194 .035 198 .05 Bank Sta: Left R ight Lengths: Left Ch annel Right Coeff Contr. Expan. 194 198 0 0 0 .1 .3 CROSS SECTION RIVER: NORTHERN CREEK REACH: Upper RS: 13.0 INPUT Description: Edge of Pond #2 Station Elevation Data num= 23 Sta Elev ~ ~ ' ' Sta Elev Sta Elev Sta Elev Sta Elev n .... `. : .r n' n ~: 1 t `. i n n' ~C n n `.Y !~r ~C n' SY ~i n ':t 'ir '.~r .. J[ `.~C `Ir J: ~t ;'... `.Y ~: )'. ~C Sit Sir n .. n' SY iC SY SY :Y n ~ n n ~: ~: ~i 3"C n n 3"t '.~: ~t ~t '.~r n ~C )r :. n .... n .......... iC n n .... JJJ „ J 0 400 12 398 25 396 75 394 150 392 225 390 276 388 285 386 295 384 305 382 313 381.6 315 381.4 317 381.6 331 382 351 384 361 386 382 388 429 390 455 392 485 394 524 396 556 398 600 400 Manning's n values num= 3 sta n val sta n val sta n val .. 'r'. n it ir'.:r 8::......, t it ~ 4r ~• 4t it ~ :r i::r 4, n 'r 4t'., n it Br d... '; ir'. 'r 4e ~r it ~ 'r 4r :r ~ ~ it 0 .05 313 .035 317 .05 Bank sta: Left R ight Lengths: Left Channel Right Coeff Contr. Expan. 313 317 300 300 300 .1 .3 CROSS SECTION RIVER: NORTHERN CREEK REACH: Upper RS: 12.0 INPUT Description: Upstream of Irina Drive Station Elevation Data num= 17 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev ......n ................~t:........,nn........nn...............,.,.. ......~t ~.......n......~t ~:............... ......nnn....~t ' ~r :. ., .. .. .. .. .. .. .. .. .. .. 0 380 52 378 134 376 165 374 193 372 214 370 235 368 236 368.3 238 368 240 368.3 241 368 254 370 273 372 290 374 313 376 362 378 411 380 Manning's n Values num= 3 sta n val sta n val Sta n val .: ~ :.. .. .. .... .... .. ...... .. .. .. .......: ~t .. .. ~t )~r ........ .. .. .. .. .. .. .. .. .. ...... .. .. .. ........ Page 9 0 .05 236 .035 Bank Sta: Left Right Lengths: 236 240 CULVERT RIVER: NORTHERN CREEK REACH: Upper RS: 11.5 INPUT Description: HW#6, HW#7 cedar-hecras-future 240 .05 Left Channel Right Coeff Contr. Expan. 85 85 85 .1 .3 Distance from Upstream xs = 25 Deck/Roadway width = 27 weir Coefficient = 2.6 upstream Deck/Roadway Coordinates num= 6 Sta Hi Cord Lo Cord Sta Hi ' ' Cord Lo Cord Sta Hi Cord Lo Cord ...... •......... .r : ............. ~r i......... '.r is '... ;': is ~ '!: k :, .. ': ir '. 'r is ~ .... .... 4r ~............... ..:r ir'...: , J :r ~ .. ~• it „ .......... ~ /J~ ........ 86 378 175 376 262 374 320 374 385 376 411 378 upstream Bridge Cross Section Data Station Elevation Data num= 17 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev ...........: 't'....... ~ ;r'. 'r is ~ ~ ~ :r'.r'..•'.•'. ,, :r'.t is ir',t',r'.., .: ;r'.. '.: it ~ R• st ~ ': 4r is ~ 'r is it ~ ~ ~ ~• ie ;r ie'.r ir': ',r it is '.: ~'.t ~ .r :r J ~ '.r :r'..: J 'r ~ k ~ '.::Y 'r 0 380 52 378 134 376 165 374 193 372 214 370 235 368 236 368.3 238 368 240 368 3 241 368 254 370 273 372 290 374 313 . 376 362 378 411 380 Manning's n values num= 3 Sta n val sta n val Sta n Val .... '..• ~',: ~ ~ ~ ,, ,, .. ,, 'r i; ~ .: '.c '!t'.• sY it is ~ ...: 'e ~r ~ ~ it ~ .. ,; it :r'.r :r :t ir'r ~• ie ~ ~ ~• s'r ~ ~ 0 .05 Z36 .035 240 .05 Bank sta: Left Right Coeff Contr. Expan. 236 240 .1 .3 Downstream Deck/Roadway coordinates num= 7 Sta Hi Cord Lo Cord Sta Hi Cord Lo Cord Sta Hi Cord Lo Cord ..., ': 4r': „ „ .... ': 4r d....... 'r ir'......... ~ it ~• ~ ~• it ~• !r 4:..., it t. ': ~ it'. ~ it ~': it it ~ i.• Yr'.. „ 4r it ~ ~ dr ~ ~• ~ ~ ~ :r 4: ~ ;r $r '..... „ .. 4r t, J 88 378 176 376 352 374 409 374 476 376 512 378 540 380 Downstream Bridge Cross Section Data Station Elevation Data num= 21 Sta Elev Sta ~ ' Elev Sta Elev Sta Elev Sta Elev .......... ..• it ~ .: fr'.., it it', .. '.r '........, ., k ir': fir'.: '.r X :~: it :......r ~c t. '. 'r ie is '„ ., 'c'::r sY :; ~• St '. „ ~: it it ~ ~ ~ ., J A .. ': ie ~ is ~- ~ i....... ;: it ?......... 't ~. J J, 0 380 40 378 87 376 178 374 207 372 225 370 245 368 258 366 260 364 275 363 2 277 363 279 363.2 287 364 295 366 309 . 368 329 370 361 372 388 374 463 376 491 378 532 380 Manning's n values num= 3 Sta n val sta n val Sta n val 0 .05 275 .035 279 .05 Bank Sta: Left Right Coeff contr. Expan. 275 279 .1 .3 upstream Embankment side slope = 0 horiz. to 1.0 vertical Downstream Embankment side slope = 0 horiz. to 1.0 vertical Maximum allowable submergence for weir flow = .95 Elevation at which weir flow begins = Page 10 Energy head used in spillway design spillway height used in design weir crest shape Number of culverts = 1 culvert Name shape Rise Culvert #1 Conspan Arch 6 FHWA Chart # 60- Span/Rise ratio al FHWA scale # 1 - 0 degree wing wal solution Criteria = Highest U.S. E• Culvert Upstrm Dist Length Top Loss Coef cedar-hecras-future = Broad Crested Span 12 proximate 2:1 1 angle n Bottom n Depth Blocked Entrance Loss Coef Exit 0 85 .Oll .011 0 ,5 1 upstream Elevation = 368 Centerline Station = 238 Downstream Elevation = 363 Centerline Station = 277 CROSS SECTION RIVER: NORTHERN CREEK REACH: Upper RS: 11.0 INPUT Description: Downstream of Irina Drive Station Elevation Data num= 21 Sta Elev J Sta Elev Sta Elev Sta Elev Sta Elev ir~ ,r ~r~..~~::;..'r it ir'r~~~ir 'rJ.r ~r~J,r it~ ~'rir'r4r:r~ 'rir:r~~~r;c ie~'r it it ir:r~~J.rJ.r ~..'e irt:r~:irJ,t ~•t. wit ~t~~•sY'r ~•sY~„~:r~~~.. it ~'• 0 380 40 378 87 376 178 374 207 372 225 370 245 368 258 366 260 364 275 363 2 277 363 279 363.2 287 364 295 366 309 . 368 329 370 361 372 388 374 463 376 491 378 532 380 Manning's n values num= 3 sta n val Sta n val sta n val ~r~..'rir' ...............'rir~..'r~........J.r~~l,.....................::r:.J.:itJ.;............ 0 .05 275 .035 279 .05 Bank Sta: Left Right 275 279 CROSS SECTION RIVER: NORTHERN CREEK REACH: Upper INPUT Description: junction Lengths: Left Channel Right 205 205 205 RS: 10.0 Coeff Contr. Expan. .l .3 Station Elevation Data num= 19 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev ................ ................................ .. .......... J,r :'... 'r ir '..... 'r ~ 'r ~ :'r J.r it i. ,. 'r J '... ,..... ,, 'r ir'....... 4r i::.., ........ ': JJ it ir'. 'r ~ J..........., J 0 370 20 368 34 366 64 364 307 362 410 361.2 413 361 416 361.2 445 362 455 364 487 366 521 367 555 366 652 364 675 363 5 703 364 791 366 808 368 825 370 . Manning's n values num= 3 sta n val sta n val sta n val :~' :~r i~r k .: is ~r •.::~L .~.' J. Jr J. J: :~r :Y !' Jr :~.' is .~ J. Jr Jr .r• Jr J. J J. J' ~: ~. .. .. .. J. Jr Jr J. Jr ~. J. Jr Jr Jr 0 .05 410 .035 416 .05 Bank Sta: Left Right Lengths: Left Channel Right 410 416 0 0 0 Right Levee Station= 521 Elevation= 367 Coeff Contr. Expan. .l .3 Page 11 cedar-hecras-future SUMMARY OF MANNING'S N VALUES River:MAIN CREEK .. .. .. .. .. ., n ................n......':irk'.'.r'....'r'...n........n......n'r'..'r it s... ~... r. v... ~.... ~. . ~, ~. o..r. r. nn.. .. .. .. .. .. .. .. n.. :r i. .. n.. .. ..n Reach 'r River sta. ~° nl •• n2 ~r n3 ....................n..........:rir'...n..........'rir:.......'r~..........n'..•ir~n.. ........., n......n nn..............n )`Upper 9.0 •• .05't .035'° 05': '`Upper ' •• 8.0 ~• .05~ .035~r . .05~. rUpper n 7.5 'Culvert n •~ •• '°Upper ~• 7.0 •• .05't .035~r 05~r '°Upper ~r 6.0 n .05'r .035' . .05'° '°LOwer n 6.0 •• .05'° .035~~ .05* ~rLOwer S.0 •• .05'° .035• 05'r ;rLower ~r 4.0 * .05~• .035'` . 05'r '°LOwer •• 3.0 n .05'~ .035• . 05~° °LOwer •~ 2.0 •~ .05~r .035 . .05~• '°Lower •• 1.5 Culvert •• * •• 'rLower ' '° 1.0 .05~ .035• 05'r °Lower ' •• 0.0 .05' .035 . .05~ •• • ................. s: s; : 54 '... ;r'. ~• it ~ ': it :.:: it :c :l ....., n '.r :'r't't it '...., n 'c tr'e :'.., n .... '; ir'. 'r i; ': ~.'.. 'r ~ ..., n n .... River:NORTHERN CREEK • • • • • • • • • • • • • .. .. .. .. . ' r : r ' r ' . ' r z • ; ~ i r ~ n . . ' r i r '. . ' :: r ; ;nnn ' r i : ~ n n n . .: r ~ : r : .. . ' r ~ n . .. .. .. , n . , n . .. . ~ - s ' : ' c ' c ~ . .. . ' r ' . . •• Reach ' ' ;~ River sta. n nl '~ n2 ~ n3 •• •• •• •... .. .. .... ^' : :: : n S'::'... ..:': )'t n n"'.t :'r :t ~r :~, n' S'::'... n n .... n n n n' it ':C n r..~t :': :. it n' )'r n ..., n n n n n n J. n n' 1'r `.', s'r n n .. n J• •Upper n 13.0 ;° .05"~ .035' 05~• 'Upper n 12.0 * .05" .035 . 05~• rUpper n 11.5 *Culvert '° -' . '°Upper * 11.0 ~• .05'r .035 05* `Upper •• 10.0 * .05'~ .035* . .05' ......'e~,..';i:....':ir::it>" ~rir~;r~~;r:c~ir'rn'r':~c;,n '.•i;:e'r„;ri:ir~~•~•:'r:;nn.,nn':irs;~::r~ ~rs'cit::nn:c'.:.. ..n..........n..,.':ir:cir~ 'ririt~~~~•4cit~nn::~~~'.. .t:r*'tnn'.r~n..n'.•ir~..nn....::s''sY'..n nn..'.t~~it„~•~'t~•ir~~.r:c4rfr~'.r~'r'.r SUMMARY OF REAC H LENGTHS River: MAIN CRE EK n ......................s'e'r'. nn....nn'.r>';';i;~•'.c:'r~•ir'..~• ~. ~..,. ~...• r. r. ~.... i:it':irR'.•~'.n..n......n.. .. .. ..n.. '.: :k~ ... nn.. .. ..n.. .,n ) 'r Reach '° River Sta. ~ Left '° Channel '° Ri ht •• . , n . .. .. .. . , n . .. .. .. .. .. .. . n ' ; i r ~ • '. t i. n 't i r'.• ~ ~ .. . ' r '. .. , n . .. .. .. :: r ' .. , n . .. .. .. .. .. , n . .. .. .. , n n . . ~- s'r g '. , n . .. .. , n . .. .. . J J 'Upper •• 9.0 •• 400'° 400• 400'` 'Upper •• 8.0 n 130'` 130• 130'° 'Upper •~ 7.5 'rCulvert •• * •• 'rUpper 'r 7.0 ~• 525'° 525'° 525'° '`Upper °Y 6.0 * 790'° 790'•t 790• '°LOwer '° 6.0 •• 790'° 790* 790i° °LOwer n 5.0 ~r 450• 450'` 450° rLower •• 4.0 * 714' 714• 714* 'rLower n 3.0 •• 750% 750* 750• ~•Lower n 2.0 •~ 165'° 165"r 165'` ~rLOwer •• 1.5 'rCulvert •~ n • 'rLower 1.0 •• 85' ` 85~ • 85° "~ Lowe r ~r 0.0 '~ 0'r 0~ 0'~ .... .. .....................: it ............., n ...: it ........., n ...t >;•'; .... 'r ir'........... .: s'r n ..., n ...... '.r'..; ~::r'; i:...... River: NORTHERN CREEK • . ........ .. .. n n ...... ., n n .. )': 5'' :: `.': 1'r s': a .. n :'t :'; :'......, .... ......., :'::'r :'......... ., ....., ......:'r ~::', ..., n • :'r ':; `.', ..., n n n ) •~ Reach n River sta. •• Left •• Channel ~ Right •• J '`Upper •• 13.0 •• 300'` 300'` 300'` '`Upper '• 12.0 •• g5'~ 85~r g5:; '`upper ~r 11.5 -rCulvert •• •• •. ~rupper ' •' 11.0 •• 205°~• 205•'` 205'° `upper .. •. .. .. .. .. .r n n .r n n .. .. ., n ~• 10.0 .. ., n n n n n n n ., n .. •. .. •, n .. •' 0' ., n n n .. n n n n n n •. •. • 0: . .. .. •. .. n .. .. .. .. .: 0: :'r :'r .. .: :': n .. .. Page 12 cedar-hecras-future SUMMARY OF CONTRACTION AND EXPANSION COEFFICIENTS River: MAIN CREEK :'; ?: ?: ?; ?: ?r ?r s`'•; :: ?r ?c ?; ?; ?; ?r ?r ?; ?r ?c ~. ~ ?r ?, ?c ?c ~• ~• ?r ?.......... .c ? .r ..., n ...................... n •~ Reach ?, River Sta. •• Contr. •• Expan. •• ?`upper n 9.0 •• ,1~- , 3?r ?`Upper 8.0 •• ,1?t . 3?: ?=upper n 7.5 ~•Culvert •• •• ?`upper •~ 7.0 •• ,1?r , 3?r ''`Upper •• 6.0 •• .1?, .3?; ?rower •• 6.0 ?° ,1?, , 3?; 'Mower •• 4.0 ?r . l* , 3? 'mower ~ 3.0 * .1?• . 3 '~ Lowe r •~ 2.0 •• ,1?• , 3? ?~~ower 1.5 Culvert ?° ?_ `dower n 1.0 •• .1'= .3? ..., ?r ?, n ?r ?r ?... ?r ?; ?t ?r ?c ?... ?r ~ ., n n n ?r ?. ?c ?r ?. ...r ?r :., n .... ?r ?....... '.; ?r ?. '•r ?r ?, '; ?r ?......, .. ~• River: NORTH ERN CREE K ..n..n....n?r ?. .. .. .. .. ?r :: ?: ?; `.•. .. ?; ': ..nnnn?t ?C?...?t?r?:?t?:?:?....... ?t ?t ?t ?; ? : :: .. .. .. .. .. ?r `'.. ..n ~ •~ Reach * River Sta. ?= Contr. n Expan. ~° ..., n ?; & ?c ~ ., n ., n ~• i; ?t ........ ?r ?. ~• ?c'; ~ ~ n ?r ?r ?. ~• ?r ~ ?,• ?t ~ ~• ?r i; X ?r ?.:; ?r ?c ?; ?r',• ~ ~ .. ?; ?r ?, n ?r ~•upper n 13.0 ~ .l?t .3?= ?`Upper '` 12.0 •• .1?r , 3?; ?=Upper n 11.5 *Culvert ?° ?`Upper * 11.0 ~ .1* .3?t ?;Upper ~ 10.0 * 1?; 3 ~• n .. ?; ?t ~ n ., n ..., .. •. •. ?; ?: $• ?t ?t',..r ?c ~ ~ ~ ~ ~ n ?; it ?t ~ ~• ~ ?c ?r ?. ~• ~ $ ~• ?t sY ?; ?r ?r ?....... ',; ?r ?r ~• ?r ?t Page 13 I~ O W OD O QI M O M O W N O V N O M C N oD N _ U M O N O _ ~ O O N O N O N O '7 O O O O O M O M O f~ O ~ O O O O O W O O O W O m O as v 3 O lL I~ O O O N V M N N M N I~ V O 7 M N .- O I~ ~ O (D M L 1~ O N ~ (O a0 M f~ M _ O O l`') 00 T (D N 1~ V (D N (D M .~ (O O O I~ 7 T N ~ OD OD I~ N aD O1 N 1~ N M O O I~ O > > ~ M M N M N N N O N ~ O O V M I~ N tD sr V M O ~ v F ', d' 7 ' aD V I~ m 1~ N N O a0 1~ N N N N I~ (D ~ (O M m W (` ) O N N V N i~ r N N V ~ N O N M N O N I~ N N N O M N dD 1~ O (D 1~ n tY (D N N I~ O M V' QI O N O O ~ O ? N V Q~ N ~ O N N ~ O O M N M ~ N ~ O f0 O O N M N I~ N eD .- (D 3 ~ ~ 0 ~ M h I~ O T O N N O O aD N (D 01 N V 00 O 7 V V I~ W M 00 M I~ 'V' O N M O M M fD M 1~ ~ O O ~- M (D T N ~- N O O C '~~ ~ 1~ N M M I~ N I~ N ~ [D N (D N V' e{ O r O n O M N O ~ j ~ I~ O N O N M O N N ~ O N N 1~ N .- M O N 1~ .- O r N N I~ ~ N O 1~ N O 01 r V N ~ o0 O I~ O M M M N N O O V I~ (D N t~ M (O (O I~ O M M N O ; N N N N O N O O I~ O O N O N I~ W N O (D ~_ (D I~ 00 O OD M i~ W O M O 01 O (O r O O O O N O I~ ~ ~ o O o o s s O o O 0 N O N o O o s s o O O O o S O O s s s o O 0 O 0 O O o IW ~ ," o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o ~ o rn co N co w <t co m o ~ ~ o N n M N M v m ~ .- (O N 61 ~ (O N ~ aD e0 .- I~ O fD N 1D N N I~ ~ N Q> f0 M 1~ N M N O O c/ e~ N N O V M N N N N N N ~ N 1~ N O L1J ~ O M O M r M O M fD M f0 M f0 M tD M o0 M aD M I~ M n M n M n M O M N M N M O M N M N M V' M [Y M M M M M M M M M ~ .... !W '~ i N 00 (O N i~ M N O ~ N V N M M (O t1 (D N O N ~ ~ ~ I~ M N O N ~ W I~ O N N N O N N O W N M (O f~ r ~- r ', N N O N 4) m ~ ~ t ( O O M N O N (V ~t f`') 1~ (p ~ ~ _ ( '1 M M M M 0 M D M (O M eD M W M I~ M r M r M r M cD (O N N 'V' ~ M M M N j ~ M M M M M M M M M '" f I i ' N 00 M c0 N ~ O N fD ~ ~ N V N W ~ n N fD O ~ I~ O O N 1~ M N ~ N t0 N CO N O N N N ~ ~ -- a0 N (O 00 M ~ I~ N N W N W O I~ O O 'd' N V (O N (O N f0 O O V N O N N N N M 00 I~ ~ ~ LLI . I ~. M M M M M M M M of M a0 M n M r M I~ M I~ M (D M fp M (p M (p M N M N M ~ ((("`"'))) C (7 M M M M M M N M ~ ... ~~ O O O O O O O O O O O O O O O O O O O O O O O O O O V V O O O O O O 1~ r N N O O O O O O N O N N 1~ n O (D 'W ~ W W M M D1 W O O O m O O (h M N N L O7 eD fD f0 (O (O (O <D f~ 1~ n ~ O O N O N O 'V' y V ? M M N N U ~ M M M M M M M M M M M M M M M M M M M (7 M M M M M M C v ~ l I '~ I~ N r N 'C r N r N O N O N 'C N N O N M ~ I~ M 7 M 7 M d' C N M N M y N M N M 00 V' 00 ~ N O ~ W V ~ ~ ~ ~ N O O M O M N 'i m M N Oi N M N M N ~ 7 M N O N c7 N m N V N (O (O ~ N (O (O ~ ~ V c0 V (D N N ~ i~ N O (O ~ N Q1 ~ ~ ~ d A V. v . U U N (O N (O 7 N N M (O N f0 O M M I~ N M M r N M ~ U ~ _ .. _. r _. ._. _ 1 ~ I I I ~. O T O TA I O >. O T ~ O >.~ O >.1 i O T O ?. O I T O >. O T O O T ' 0 0 O O llV 0 ~ 0 ~ i 0~ 0 i O~ O O i O ~ i 0 O O O O - O - O O O O O O O O ~ I t_ r . r ~ ~ .- i ~ I ~ ~~ H ~ O O O O N O O O O ~ ' ~ ~ O M M N N p O O O O O N' O 0. O O O O 0 0 O O O O O N O. N OD OD I~ ~ n N cD (D (O: N. N C. .V M M N N L U l0 ~ ~ N ..~ d N ~' N N ~ N N N U) N W N N N. N N 41 N N N N N N N N 01 a a n o a n s a o a a s s a a s s o. o n o a a s o a o. .a a n 3 3 3 3 3 3 3 3 3 3 3 ~ . ~ ~ ~ : ~ ~ ~ ~ ~ . ~ . ~ ~ _ ~ a ~ a ~ a ~ a ~' n ~ o J o J 0 J 0 J 0 J 0 J 0 J 0 J 0 J 0 J 0 J Y Y Y Y Y Y Y Y Y W W W W -. W W W W W ~ U. U. U U U U U U U' - _ W' Z Z Z Z Z Z Z Z Z Y W Y W Y W Y W ' Y W ' Y W Y W Y W Y W Y W Y W Y W Y W Y W Y W Y W Y W. Y W Y. W Y W ~ ~ ~ ~ 2 ~ 0C ~ ~ W W W W W W W W W W W W W W W W W W W W W W W W W W W W W ~ ~ ~ Q: ~ ~ ~ Q: 2 .. ~ ~ ~ R d' ~ Q: ~ ~ ~ ~ = = H = F = = ~ ~ U U U U U U U U U U U U U U U U U U U U F - 0 F - F - F - F - Z. Z Z Z Z Z Z' Z Z Z Z Z Z. Z Z Z Z Z Z Z 0 0 0 0 0 0 0 0 a s ¢ a ¢ a s a s a s a ¢ ¢ a a s a s a z z z z z z z z z ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 00 M _ ~ o rn m ~ ~~ o0 ~~ ~~ o~ ~a >~ V ~ M N 7 ~ a0 (D r M (0 _ Q ~ O N O cND O N ~ LL N N 01 O 1~ N N t r.l ~ O ~ O W N O N O V .- O r n O O M V O O ~IO O O O V o0 '- f~ O N co n (D N N N M M M ~I i O r I~ N 3 ~~ M M M U ~ ~ O aD ~ M d W r O In W M M M M f>n.. ~'' O O O O 1~ r N N W V V L...-. f`N7 M M M [ ] .«~ O ~ O N M ~ M F ,~ r M I~ O v f0 U/ ~_ ~ O O O O ~- ~ O O 7 C ~ C ~ O ~ U o 0 0 0 in N N 7 LL N ~ w w w w a ~ ~ ~ ~ ~ ~ U U U U ~ Z Z Z Z ~ ~ _ ~ ~ i v '- m o v co n. a r~ m ~ in rn ].. I~ R N ~ ~ t7 r,~ \, J' U N N M~ M W ~ t0 LL7 Qi r n V tO LL~ (MINI N~ N ~ d ... d~ a uri rNi w v o r~i. l o , of of v co co m U.` V ~ N O M 1~ N M > ~~;~ ~~ rn rn rj o 0 0 o m o~ o iLL M c^7 chi M ~ M N > W O O 01 <D O ~ U ~ O ~ ~ O O O I .,.- ~ tm0 r r M N ~ ~ M M M M M M C9 w : rn m o~ o n N M ~ a oo ~ M v~ i U : '. o M of `O' v '~ ri ~ o M o~ M .Uri V.I ' c ) ( 1 . W M CO V N O N u7 ~ fD ui ~ n ~ ~..~ ~ ~ n ~ M N ~ ` v M M M M M M > O O aD (O O ~ ~ .., O ° O ~ O ~ ~ n O c07 O N ~: V M M M M M M LL1 N ~ I I d~ .~ ~ ~j ,. ~~ ~ # ~ st at I is ~ U d d ~ a- I a d ~ ~ ' > > o > > > U U U U U: U ~ ~ r ~ n .-: .- N t U tV ~ a ~ ~ a ~ ~ n ~ ~ a '~ 7 3 J 3 J N N ~ Y Y j W W LL ~ ~ ~ y U U a ~ ~ ~ Y Y Y Y ~ w w w w _ = U U U U U ~ ~ Z Z Z Z = Z Z ~ ~ ~ ~ Z N ~i ~y ~~ >/1 cedar-hecras-existing HEC-RAS version 3.1.3 May 2005 U.S. Army Corp of Engineers Hydrologic Engineering Center 609 second street Davis, California x x XXXXXX XXXX XXXX Xx XXXX X X X X X X X X X X X X X X X X X X X XXXXXXX XXXX X XXX XXXX XXXXXX XXXX X X X X X X X X X X X X X X X X X X X X X XXXXXX XXXX X X X X XXXXX ............ 'r' .. :r :r ~ 4e i. .. '.•~ is ' .. .......... .. .. :r'. .. 'r'..... 'r d:': 4r'... ': is '... '.r', ': 4r'.... .. :e ie d. '.r ~: ~': dr ': sY'.r ir'.r '.•4r :. .... ': 4: ~ .. ........ .::r'... PROJECT DATA Project Title: CEDAR LAKES - newest Project File cedarnew.prj Run Date and Time: 7/17/2007 10:55:05 AM Project in English units Project Description: ...r:r :..............~~;~:r~r~ir'.r':i:';..............'r~:ire:r'.'r:ri:R::ir~•'r~.::r':~'.,~•k'.:ir~•ir~~:r'r~:Yicir~~•:Y~:Y'.......'rk'.e~l......... PLAN DATA Plan Title: Existing Conditions Plan File o:\sdskdsgn\proj\CEDAR\HEC-RAS\cedarnew.p01 Geometry Title: Existing Conditions Geometry File o:\sdskdsgn\proj\CEDAR\HEC-RAs\cedarnew.g01 Flow Title Flows w/o Ponds Flow File o:\sdskdsgn\proj\CEDAR\HEC-RAS\cedarnew.f01 Plan summary Information: Number of: Cross Sections = 14 Multiple Openings - 0 Culverts = 0 Inline Structures = 0 Bridges = 0 Lateral Structures = 0 Computational Information water surface calculation tolerance = 0.01 Critical depth calculation tolerance = 0.01 Maximum number of iterations = 20 Maximum difference tolerance = 0.3 Flow tolerance factor = 0.001 Computation Options Critical depth computed only where necessary conveyance calculation Method: At breaks in n values only Friction Slope Method: Average Conveyance Computational Flow Regime: Subcritical Flow .............................................................................. 'r 3: '.................... ': ir' ........:r'......................................... FLOW DATA Flow Title: Flows w/o Ponds Flow File o:\sdskdsgn\proj\CEDAR\HEC-RAs\cedarnew.f01 Flow Data (cfs) Page 1 • cedar-hecras-existing is ir'.t is it ~; .,, it it .•. ic' ., it .....r ., i...., n .. , c r i '° River Reach RS ~• 100yr 25yr l0y r it ~° MAIN CREEK Upper 9.0 •~ 124.86 89.83 66.42 it '° MAIN CREEK Lower 6.0 •• 248.43 174.57 125.74 it '° MAIN CREEK Lower 5.0 •~ 334.97 234 01 167.43 ~• . i` MAIN CREEK Lower 4.0 626.51 435 02 309.04 . ~• MAIN CREEK Lower 3.0 •• 736.03 508 57 359.34 ~• . '~ NORTHERN CREEK Upper 13.0 •• 123.57 84 74 59.32 •r . ..., it '.c'.......: ir'., it i; is is it i; it ~ 't is is n ir'.c i, it i. n it it 'a i; 'a it is i, is it it it it is it it is is ~ is it ~ it :r'. ~•'r': ir'. ': it a't ~• ir'c dt '...... 'r' ............... ': ~ '.. n :r ~ ': 4r ..., n . .. .. R• i; Boundary Conditions ., n'iri, n.tirn., n.. ., n.. .. .. ., n., n.. .. n .. .. .. .. .. .. .. .. .. .. .. n niric'......iriri.itiri...i:iri:i2ir n•itit~niti.;tiri, n., n n n n nnititi•.., n..icicnnn..n n niti, n.. ...t it is n n n ., ......., is it i° River Reach Profile n Upstream Downstream .,n:rk;,.:ir'c ., is t, ~i: ir'.. .. it i.•ir is ie' ....., nic isis sY ir'....ir'..n....',ri;i.ie'.r it i... is it ir'. i.•&~i:~Rn~it~i: it ~., it :.,iri.....iri. nir i; it it .,n is i. .. .. .. .. .. i; ir' ......., n n is i; '. ~• i; i..: it .. it MAIN CREEK Upper 100yr ~' Normal S = 0.01 i° MAIN CREEK Lower 100yr n Normal S = 0.01 NORTHERN CREEK Upper 100yr * Normal S = 0.01 ....iriri.n~i;~~•ici,~•iciriti:ic~•~•irnn•i;i;iti;:;nni:i;ir~•irit~•~•i.•~•~~•~~ir~•~irir~i:~"~•i;ir~~•i;~i;~"~iriri.sir;;iti;i,iri;i:itir....:t~~l;iri;iriritir~ir ..., it it '., it it is ~ i; it it it it ..........isirir~i:iricnirsY'„itiri.iti;ir'....,,n:cic'..~sY~~~'..~icir~•iriciti;i...~•i;~i;~~ic:Y~',ric%~sY~ic&~~ic~n~•i;~:YX~nnnnic~.. GEOMETRY DATA Geometry Title: Existing Conditions Geometry File o:\sdskdsgn\proj\CEDAR\HEC-RAs\cedarnew.g01 Reach connection Table ., n n ..., ., n ., n n ..., n ....., it ;; n it i ................. it it i. ~• it i, n it ir'.. ~• it .,,~ ...... ~• is ~• it i; : is it „ it it i. ~ it i, it i.........., is ir', :: ir'........, is is i... •• River Reach ~ upstream Boundary •• Downstream Boundary •• ....., it n .....: it it it i, n n .... „ .. ~• it is is ., is i......, is it it it is it i; i.• it i; is i.., it is i, is ~ ...; it ~ is it it n ~• it i........, n .. ~ is i.., n n .............. ir'., is it :. '~ MAIN CREEK Upper * ir~J'Junction •• i° MAIN CREEK Lower •• Junction it .. •~ NORTHERN CREEK Upper •• ~ Junction •• ..nnir :...............n.tic.:ir....iri..................tir......n...tir...............:isitri:Yi.n..nri:Y'...:ifnnitir'..n................................ JUNCTION INFORMATION Name: Junction Description: Energy computation Method Length across Junction River Reach MAIN CREEK Upper NORTHERN CREEK Upper Tributary River t0 MAIN CREEK t0 MAIN CREEK Lower Lower Reach Length Angle 0 0 0 0 CROSS SECTION RIVER: MAIN CREEK REACH: Upper RS: 9.0 INPUT Description: Edge of Pond #1 Page 2 ' cedar- hecras-existing Station Elevation Data num= 20 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev .r it '. .. .. .. .. it :. ., .. .. .. ., n.... .....,.c ~ir~ .... .. .. .. .. .. .. .. .. .. .. .. .. .. .. .. n.. .. .. .: it :', n ., .. .. ., n.. .. .. n.. .. .. .. 'c'. .. fir'. .. .. ., n., n.. ., .. .. .. .. .. ~ J J J~, J 0 390 31 388 48 386 105 384 155 382 200 380 208 379.9 210 379.7 212 379.9 220 380 250 382 260 384 287 386 350 388 443 390 461 392 476 394 490 396 500 398 509 400 Manning's n value s num= 3 Sta n val sta n val sta n val 0 .05 208 .035 212 .05 Bank sta: Deft Right Lengths: Left Channel Right Coeff Contr. Expan. 208 212 400 400 400 .1 .3 CROSS SECTION RIVER: MAIN CREEK REACH: upper RS: 8.0 INPUT Description: Upstream of Virginia Water D rive Station Elevation Data num= 19 Sta Elev Sta ' Elev Sta Elev Sta Elev Sta Elev .::r'..,n.. .:ic'...n'.ran.;'r'.'r:r'...~:riri:~~r:r~~•:r~ic~~•~~::ir~n ~•~;:sY~~•',rir~r~~•~irir~n'.:sY~irsY~cirie ~ ',~~~:c~~..n':ir ~ '.r~e::n.. 0 390 30 387 64 383 85 380 99 378 116 376 128 374 137 372 139 371.9 141 371 8 143 371.9 145 372 148 374 161 376 180 . 378 200 380 222 383 250 387 263 390 Manning's n values num= 3 sta n Val sta n Val sta n Val .... ~; i~r `'...... n n .. n '.~r ':....... )~: it ':: n' St .`':.. n .. n '.~r 3r is ~f :Y n n :': ~: n .. n n .. n n ~r '.~: '.~.:r S: )~. 0 .05 139 .035 143 .05 Bank Sta: Deft Right 139 143 Lengths: Deft channel Right 130 130 130 Coeff contr. Expan. .l .3 CROSS SECTION RIVER: MAIN CREEK REACH: Upper RS: 7.0 INPUT Description: Downstream of Virgina water Drive Station Elevation Data num= 19 Sta Elev Sta ' ' Elev Sta Elev Sta Elev Sta Elev '. c it ~, ........ '; ~ : ', .. 'r :.., .... 'c it '...... 'r sY :c ~: '.r ~•'., ....., ~. s.'c '; fir'., n ...... ~ ~'::r'.., n '.r ir'.. ?r t :....... J .......... 'r it is :r J it't i; :r i::.................:r 0 390 37 385 69 380 83 378 91 376 110 374 121 372 126 370 131 369.2 133 369 135 369.2 139 370 143 372 156 374 176 376 196 378 215 380 265 385 325 390 Manning's n values num= 3 Sta n Val sta n Val ...~..n. sta n Val 0 .05 131 ..... .035 ......n..n 135 ........~.... .05 Bank Sta: Deft Right lengths: deft Channel Right Coeff Contr. Expan. 131 135 525 525 525 .l .3 CROSS SECTION RIVER: MAIN CREEK REACH: Lower RS: 6.0 Page 3 - cedar-hecras-existing INPUT Description: junc tion with North C reek Station Elevation Data num= 27 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev 0 386 20 384 36 382 47 380 72 375 97 370 107 368 114 366 123 364 132 362 175 361.2 178 361 181 361.2 235 362 280 364 307 366 400 370 432 372 460 374 483 376 511 378 540 380 560 382 577 384 594 386 604 388 624 390 Manning's n value s num= 3 Sta n val Sta n val Sta n val .. .. .. .. ~f '.~. .. .. .. .. if ~. .. .. .. n r. ri:t :t ::"'.C )~. n .. .. n.. .. iC .: r..... .... ~t ~.t ~: ~.t ~.t `.~: ~: '.~C n'n'.`~. n 0 .05 175 .035 181 .05 Bank sta: Left Right Lengths: Left Cha nnel Right Coeff Contr. Expan. 175 181 790 790 790 .1 .3 CROSS SECTION RIVER: MAIN CREEK REACH: Lower RS: 5.0 INPUT Description: Edge of Pond #3 station Elevation Data num= 25 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev n r..... '.Y SY S~: ~.f :t ~.'C ~... r... n n ~.f ~.t 'It `'. n .. n ii ~.[ 1': n .... n n' S: '.~: ~C `.'C ~.C n' ~.C n ~.t `'.t `'.t )'l n .... n' ~i. n' n n' ~:.... n n ~.t :'C .. r....'~! :t :C Sit fit 'X n n SAC S: ~.C Sit S:.. n .. n' S~f ~. 0 380 30 375 64 370 99 365 127 360 133 358 155 356 175 354 185 352 192 350 201 349.8 204 349.6 207 349.8 210 350 229 352 249 354 264 356 274 358 287 360 310 364 337 366 406 368 505 370 560 375 606 380 Manning's n value s num= 3 sta n val sta n val sta n val 0 .05 201 .035 207 .05 Bank sta: Left Right Lengths: Left Channel Right Coeff Contr. Expan. 201 207 450 450 450 .1 .3 CROSS SECTION RIVER: MAIN CREEK REACH: Lower RS: 4.0 INPUT Description: Station Elevation Data num= 24 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev 0 370 27 366 49 362 66 360 90 356 113 352 123 350 136 348 145 344 176 342 181 341.7 184 341.5 187 341.7 194 342 209 344 226 346 241 348 270 350 284 352 301 356 327 360 335 362 350 366 371 370 Manning's n values num= 3 Sta n val Sta n val Sta n val .............. ~: ~: S~..... .. .. .... .. .. .. ~: ~: ~f ~f ~.C `'.G '.~: ~t ~f ~l ~: Jf .~. ~. ..:: ~::~: ~: ~! ~: ~[ Sit J: ~,! ~( J: J: J: 0 .05 181 .035 187 .05 Bank Sta: Left R ight Lengths: Left ch annel Right Coeff Contr. Expan. 181 187 714 714 714 .1 .3 Page 4 cedar-hecras-existing CROSS SECTION RIVER: MAIN CREEK REACH: Lower RS: 3.0 INPUT Description: Station Elevation Data num= 31 Sta Elev ' Sta Elev Sta Elev Sta Elev Sta Elev ....................r::t: .......n....`.~:i:'.is1:SY it::i:'.~....... ..............k n....n..~.'t~.nn..nr.....r.)Y`.~t n''.n`."'::s:)~. ..n..nnnnn J JJJ ....n....'JC'.'... /,J J 0 360 9 358 21 356 34 354 45 352 55 350 67 348 74 346 80 344 89 342 112 340 137 338 161 336 180 334 182 333.9 184 333.7 185 333.9 187 334 191 336 198 338 206 340 214 342 220 344 230 346 237 348 247 350 256 352 266 354 276 356 289 358 301 360 Manning's n values num= 3 Sta n Val sta n Val sta n Val 0 .05 182 .035 185 .05 sank Sta: Left Right 182 185 Lengths: Left Channel Right 750 750 750 coeff contr. Expan. .1 .3 CROSS SECTION RIVER: MAIN CREEK REACH: Lower RS: 2.0 INPUT Description: Upstr eam of Virginia Water Dri ve station Elevation Data num= 29 Sta Elev A Sta Elev Sta Elev Sta Elev Sta Elev .. n n S C ~: )~: ~.f :Y :: .. .. n .. .. .. n ~: :: n ~C ':C ~: J.t n ^')~C n'n'~: n':f n'~: ~: n~!`'.. .. n'`~f :: n':f n"'.~f .'~. ~: Sri n' n n n'~: n :t .: .. .. ~.C ~: `'.t'.c k~.t ~.t ~.t n`'. n'~.C ~. ~.. .: :t ~t J S. .. .. r. n J 0 350 14 348 30 346 40 344 52 342 69 340 78 338 86 336 96 334 106 332 116 330 130 328 132 326 134 325.8 136 325 6 138 325.8 140 326 143 328 150 330 154 . 332 160 334 166 336 173 338 185 340 193 342 204 344 215 346 231 348 247 350 Manning's n values num= 3 sta n Val sta n Val sta n Val ...... ~... n .::f '.': ~:.:.. '.~G i'... n .::f '.~. `.~[ ~ SS' S~. `.~G SAC n n n n ~: ~::Y n n .. r. n .. n ~: ). )Y ~t ~: n n n ~t 0 .05 134 .035 138 .05 Bank sta: Left Right Lengths: Left Cha nnel Right Coeff Contr. Expan. 134 138 165 165 165 .1 .3 CROSS SECTION RIVER: MAIN CREEK REACH: Lower RS: 1.0 INPUT Descript ion: Downstream of Virginia water Drive Station Elevation Data num= 29 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev ~, .......... n .. ...... .... .. .. .... r...., ......., r. r. ......., n .......... ., ...... ..........., .... n ....., :~: S~:.s... S": `.~: )'C n ~: ~: ~... S~: ~: ~: ',~......, i! S... JJ ~ .. iY ':::'::~: tiC J 0 350 15 348 33 346 50 344 66 342 81 340 94 338 102 336 111 334 122 332 134 330 148 328 156 326.4 159 324.9 161 324.7 163 324.9 176 326.1 180 328 185 330 194 332 204 334 215 336 228 338 244 340 250 342 265 344 283 346 316 348 343 350 Page 5 cedar-hecras-existing Manning's n values num= 3 Sta n val Sta n val Sta n val ........n........n ..........................nn......~~t~...n..........................n.. 0 .05 159 .035 163 .05 Bank Sta: Left Right Lengths: Left Channel Right Coeff Contr. Expan. 159 163 85 85 85 .1 .3 CROSS SECTION RIVER: MAIN CREEK REACH: Lower RS: 0.0 INPUT Description: Prope rty Li ne Station Elevation Data num= 29 Sta Elev ' ' Sta Elev Sta Elev Sta Elev Sta Elev ..n..`. : .t't :...............'1:'.tnn ..n..nn'it `.'...'t:'.if'.tn'4......... ..n.......: '.t'..n4t~.tnn'.i:: ..SY:'...nit:Y..n'it')Yn''.n~"tSt::nnn.... J ~ ~ J ......n.... J , 0 342 40 340 60 338 76 336 93 334 112 332 131 330 162 328 173 326 183 324 193 322 194 321.7 196 321.5 198 321.7 200 322 203 324 207 326 210 328 213 330 217 332 220 334 230 336 240 338 246 340 254 342 262 344 270 346 283 348 300 350 Manning's n values num= 3 Sta n val Sta n val Sta n val '.~. 3t ~. n .. n n ~C '.'t .`~. n n"IC 'Jt SY Sit ~.. )~.' Sit n ~t 'jt SY iY iC `'it i~t .`~. `it 'It )Y n n n n n n .~C '(t n n `.Y iC '.~. n if `.~. n 0 .05 194 .035 198 .05 Bank Sta: Left Right 194 198 CROSS SECTION RIVER: NORTHERN CREEK REACH: Upper Lengths: Left Channel Right 0 0 0 RS: 13.0 Coeff contr. Expan. .l .3 INPUT Description: Edge of Pond #2 Station Elevation Data num= 23 Sta Elev ' ~ Sta Elev Sta Elev Sta Elev Sta Elev .. .. n n.. n'` .t .: n:t '. .'n Jf ~t ny'.'~. `.~C 1: :: n)Y Stn .. n :: n~tn n'~.. n.. n.. .. n n...:~C:tn.C ~C .'~. ~t ~.C ;: S't :t ~t '.C :C :Cn n n J~ n n'~.t ~'C ~. n'S~t n'.: J :tn n'.~: ':C ~[ ~: ~: '.~t ~C ~: n 0 400 12 398 25 396 75 394 150 392 225 390 276 388 285 386 295 384 305 382 313 381.6 315 381.4 317 381.6 331 382 351 384 361 386 382 388 429 390 455 392 485 394 524 396 556 398 600 400 Manning's n Values num= 3 sta n val Sta n val sta n val ........nn....~t:...n.....tit..n ....nn......n .t~ :.............. n.. .. .:~t.t~t............ 0 .05 313 .035 317 .05 Bank Sta: Left Right 313 317 CROSS SECTION RIVER: NORTHERN CREEK REACH: Upper Lengths: Left Channel Right 300 300 300 RS: 12.0 INPUT Description: Upstream of Irina Drive Station Elevation Data num= 17 Sta Elev Sta Elev Sta Elev Page 6 Sta Coeff Contr. .l Elev Sta Expan. .3 Elev . . . cedar- hecras-existing .. • ~.. . . ~.. . ~. ~.. , s, ... ~. ~. ~......, s. s. s.. .......... ?r ' ................................:: ?: ?r , s.. ., s.....,• ~. :'...:: ?r :......... ... ~. ~, ~.... ~..,....... ~.....,. ~. ~ . r. ........................ 'r it ?: ?r ?... ?t ?t ?: ?r . ~. ~, s. ~. ~ ?. ~. ~.... ~.... ~. ~....... ~. ,.. ,.. ?....... ................... ?r ?r ?; ? 0 380 52 378 134 376 165 374 193 372 214 370 235 368 236 367.9 238 367.7 240 367.9 241 368 254 370 273 372 290 374 313 376 362 378 411 380 Manning's n values num= 3 sta n val sta n val sta n val 0 .05 236 .035 240 .05 Bank sta: Left Right Lengths: Left Channel Right Coeff Contr. Expan. 236 240 85 85 85 .1 .3 CROSS SECTION RIVER: NORTHERN CREEK REACH: Upper RS: 11.0 INPUT Description: Downstream of Irina Drive Station Elevation Data num= 21 Sta Elev Sta Elev Sta Elev Sta Elev Sta Elev JJJ 0 380 40 378 87 376 178 374 207 372 225 370 245 368 258 366 260 364 275 363 2 277 363 279 363.2 287 364 295 366 309 . 368 351 370 381 372 430 374 468 376 491 378 532 380 Manning's n values num= 3 sta n val sta n val sta n val 0 .05 275 .035 279 .05 Bank Sta: Left R ight Lengths: Left C hannel Right Coeff Contr. Expan. 275 279 205 205 205 .1 .3 CROSS SECT ION RIVER: NORTHERN CREEK REACH: upper RS: 10.0 INPUT Description: Station Elevation Data num= 19 sta Elev sta Elev Sta Elev Sta Elev Sta Elev .........: ?r ? ... .............................. ~• ~- '.r ?........... ?; ?: ?... ?; ?r ?r ?... ?t ?r it '... ~• ?r ?... .........: ?: is ~ _ ?t it ?; .. ?r „ ...... ~J ............. JJ '~ ............. J J 0 370 20 368 34 366 64 364 307 362 410 361.2 413 361 416 361.2 445 362 455 364 487 366 521 367 555 366 652 364 675 363.5 703 364 791 366 808 368 825 370 Manning's n values num= 3 sta n val sta n val sta n val ...................... ?r ?............................................................. ?r ?....... 0 .05 410 .035 416 .05 Bank Sta: Left Right Lengths: Left Channel Right Coeff Contr. Expan. 410 416 0 0 0 .1 .3 Right Levee Station= 521 Elevation= 367 SUMMARY OF MANNING'S N VALUES River:MAIN CREEK ?r :..................... .. ................................ .. ............ ........................................ ........ .......... Page 7 ' cedar-hecras-existing •• Reach River sta. •• n1 * n2 •• n3 •• '°Upper •• 9.0 •~ .05* .035'° .05* *Upper n 8.0 n .05* .035"•r .05* *Upper •• 7.0 •~ .05'r .035' .05~' *Lower •• 6.0 •~ .05* .035* .05'r *Lower •• 5.0 •• .05* .035'° .05~' *Lower 4.0 •~ .05* .035* .05* *Lower n 3.0 •• .05* .035'° .05* *Lower •• 2.0 •• .05* .035'° .05* ~~Lower 1.0 n .05~' .035'° .05~' *Lower 0.0 •• .05'r .035~r .05* .......... .................. n .......... n ..:t ~. ...... )Y ~: ':r :'. ............ ~: 1~: * ~..... '.~t n'`i. n' ~......, n '.•r :'........... n n .. n .. n River:NORTHERN CREEK :r'.nn.,n4:*'.'r'r:r~•... .c:ri:~......., n.. .. .. .. .. ., n.. .. .. ': is '. .. .,nnn.,n.:'c '..:*'r i. .. ..nn'r ir'. .. ..n.:*:'c .. •~ Reach n River sta. •• nl * n2 .r n3 * ..':4:'rn..nn....n':*Yr~l. n..nnn'.r*~....*:r:r:.n'r 4:'...n4::'r~nn..':ir**n ..':*irBr4.nnnnR•4r**..n..*ie j°Upper •• 13.0 n .05* .035* .05* *Upper •• 12.0 •• .05* .035'° .05* *Upper •~ 11.0 n .05* .035'° .05* *Upper n 10.0 •• .05* .035* .05"r **:.......nn....~•~•*'..n ......'r'...........~.'c'...n'.rir 4rir:...n......nn*ir~nn '.•sYi::cn..n~•i:'. ....nn.......... 3rn n•ir •it .`fn n n n n nn.. JC ".•: 1': :'. ., n.. .. n., .. )•.':r ~.t `'.. .. .. ., n n.. ., .. .. n*:•C :, n'~iC ~:* n., nn~.r It '.'. ., n.. ..n nnn., n.. nn.. .. .. ... **n n'*'c r:r::~ SUMMARY OF REAC H LENGTHS River: MAIN CRE EK .. .. 'e '.. .: ;rR nnn.......... ..nnn'..•*4.nnn'r'cir'..n'.r i:~'r*'.'.:'.r'„~•***~•*~• *~n4r~nn~•*'e ~•dc'rn*&~•~•4c * Reach * River sta. * Left channel * Right n ....., n ~•~csY ~ ....., n *ir* :r*., n':'.t'.c ~ *'r:r'.'c'r n .. ~•*ir', n n ~•:'r *:r'.. ~•** ~ n n *~'e:ricir:... ~• '.ric it*.: :r~: ir* '°Upper n 9.0 •• 400* 400* 400• °Upper 8.0 •• 130* 130* 130* •Upper •• 7.0 * 525* 525' S25* *Lower •• 6.0 n 790* 790* 790* *Lower •• 5.0 n 450* 450* 450' *Lower •• 4.0 •• 714* 714* 714* *Lower •• 3.0 "~ 750* 750* 750* °Lower •• 2.0 * 165* 165* 165* *Lower * 1.0 85* 85* 85* *Lower •• 0.0 •• 0* 0'• 0* .,..n.,......n.....,nnn* i;'ie',c'.•::.,,:i:i:'.c....*:ri•,n., nnnn...,....::*;.nn..n ':~'n.......,n.,n nn':'r;c;;'...... River: NORTHERN CREEK 'r'.........:: 'c it ;.r it ~ ....': *'......, n n ., n ............ ~: * :........:r :.... ~• is i::Y'., n ::'.r* n'r' ....... ...... n .......... * Reach •• River sta. ~° Left n Channel •• Right * :r :C `.•. n ...... n n ..nit '.•..... ...... n' :'C '.~..... n n '.': 1:• :'C ~r `.•r n' ~. n ......:: S: '.•. '.~r '.'t :'C * * `'.C * S: `'.C n' `'.l Sir ~t * n' `.": )'r '.'::t Sr `.•C'.~r `.': ~..• ~: ;'C *Upper •• 13.0 •• 300' 300* 300* *Upper 12.0 •• 85* 85* 85~' '°Upper •~ 11.0 * 205* 205* 205* *Upper •• 10.0 ~° 0* 0~' 0~• .. .. 'r ir'.e' ........'r:...... ..'r'....nn .................... ..............'.: sY iron....*:r:c'c'.. ~•ir'. 'c*: .. ~c is ~.. .. n'.r is .. ': is ' ....., n ., n ie it is '........., n ..., n ........., n is it is is ~....... ': it i, n n n n .; it * iC is ~ ~.': ic'....... ~• it is SUMMARY OF CONTRACTION AND EXPANSION COEFFICIENTS River: MAIN CREEK ..n..n..isir',n..n .................................... .. .. .. .. .. .. .. .. .. n.. ire.. .. ':* ;...nnn........ •• Reach •• River Sta. •• .Contr. •• Expan. •• ............................ .. n n ....., n n ': is i.............., it is i.........., ie ~!...., n ., nnn ............ '`Upper •• 9.0 •• .lir .3* '`upper •~ 8.0 •• .1~' 3i '`Upper •• 7.0 •• .1* , 3* is Lowe r •• 6.0 •• .1* . 3 * °`Lower '° 5.0 •• .fir .air °Lower •• 4.0 .1* 3° ::Lower •• 3.0 •. .1* .3ir °Lower •~ 2.0 •• .l° .3'• Page 8 cedar-hecras-existing `power •• 1.0 •• .1'• .3' :rower •• 0.0 •• , l~r 3:.- .. 'r'......... 'c ~ ~ ............... •............... •....... •................................. 'r ~ .............. River: NORTHERN CREEK •~ Reach 'r River Sta. •• Contr. •• Expan. ...r :r ~...., ...... 'c ~'.. • . .... ........ .. ....:c it ~ .. ~- is :...........:c is :................... ...c'r'.........., ~~upper 13.0 •• .l'r .3-r -upper 12.0 ~ .1"r , 3'r '`upper •~ 11.0 •• .1"• ,3~ '`upper 10.0 •• .1* .3~' Page 9 r O N OD O_ W M ~ O N M W N O V N_ O_ m V N CO In r O N M V ~ ~ O O .- O 0 0 O O O O O O O O ~ ~ 0 0 O O O O •- O O O (1, 'i 'F r O N O O In 'Q M U7 N N O r V M N ~ O N M (D (O eD W r .- ~} r (O (O N f0 m M r O V N O O M cp ~ N r a r .- ~ (O M O (O ~ a (D M T r V O O In W V r N IA r N M O O r W N O O) O M M M N N N .- (O N V ~ O ~7 M r to O V V M ~7 M M N ~, N 'Q V V' O ~ r ~ O O r N r O o0 ~ N O W O M M M cp c0 V a0 Q1 M N O N V' N r .- r ~ W ~ N M N O N r r (D N O V a0 (O r M ' N CO r Q7 O r r O (D aD M M M M O N O ~ 'cY fp ~ N V ~p p~ N Q ~ N r N ~ N .- cD 01 M N N ~ N ~ Q1 O N M N r N O r (O O N O (O 3 ~ o ~- V N ' r r O O O OD In V (O O a0 O In y W Q1 M V In r (D N N O M 00 t! ) ~ O In M O O M O M r N (`') (O 01 In N O OD O r 1n N : r ui r m r ~ .- ~ ro ui ao co 0o cu v v ai r ao ~ o o~ ~ o ~ o ~ o U ~ )~~ r N r (O N 00 (O In h r N O N r M N N r r m O r to M W N O N ~ d:. ~ N M r ~ Q) N In "" N r ~ M O r N Q1 In O) O O r D) ~t O r O r r M D7 (D M (D Q) (O M M O N (D (O O M D1 O N O r ~ r O O O ~ i N N N N N c0 a) r O O O O c0 c0 (O eD N (O W 0 W 0 r o0 O O r c0 O O M V O O Ifni ~. O O O O O O 0 0 O O O O O O O O O O O O O O O O O O O O O O O ~ O O O O O O O O O O O O O O O O O O O O O O O O O O O O ~ W; i O V r a0 (D N (D O1 tl] (p ~ O O In r M ~ N N V N T ~p pp _ (0 D1 M 01 V (O N ~ c0 M (O r O (O N tCl r .- N W (O M r N r o0 N ' N M N Q1 m ~ ~ N N ~ O V ("> N N N in OD I~ N O O N r (O W '' ~ c0 M c0 M cD M (O M (D M c0 M (D M (O M N M a0 M r M r M r M r M (D M (O M ~ M h M ~ ~ M M M M M M M M M M M N M N M N M v W N aD M N r M (O O O to V N M M (D V' (O N O N cD ~ N N r M N O to ~ W r CO (D r ~ O ~Ci N O o0 N M t0 r r ~ r O o0 to (n ~ N N O O ~ c{ O O M M O N N '7 M r (O ~ Oi Qi r O N a0 oD (D (D [O (O (O (O o~ oD r r r r (O (O if7 N ~ a M M M N N N N N ~ '~ M M M M M M M M M M M M M M M M M M M M M M M M M M M M U N o0 M N r O N (D o0 O ~ V N r N (O O r 01 O N t0 ~ M N r M In O In ~ O N ~ O r ~ N •f ~-- a0 N (D N M r r r O a0 r M N N N Q7 W ~ `7 N N O O M M O N N ~ M OD r O ~ r (O In w O M W M O M O M O M (D M (O M (O M OD M 00 M r M r M r M r M (D (O In N yy ~' M M M N N N N N III ~. M M M M M f 1 M M M M M M M M I~ . O O O O O O O O O O O O O O O O O O O O O O O O O O O O 7 V r r O O O O r r aD eD O O O O fD (O ~ N r r fD (O r r to N W ~ r r O 0 _ _ _ M t O M O M O O O (D (D (O r r f D ( 0 (O (D ~ ~ V' V 7 (` M N N N N N N U c ~ '~ M M M M M M M M M M M M M M M M M M M M M M M M M M r N r N r N r N fD N (D N (O N M 'V r M ~ M V M V M ~ M V N M N M N M N M W ~ c0 '7 oD V y r O V u7 0 O M O M O M O M ~ c+i of of of ri of ri ai v co v ~ v co ao ui ~ r ~ ai ~ rn o of ro m m of ~ N V7 N In N ~ N N N f0 N f0 N tD V N (O N O M N M In M N M l17 ~ ~. N M (D M r M r M r M r M ~ ~'. - ~ ~ ~ I ~ ~ 7 I ~ i o ` ~ I ~ ~ i d I i ?. O >. I L ~. ~ O ~ T I ~ O I . >. O . t T O T >. O II T T O T ~. O T I S. O . 1 TI O' . T O T ` Ti • I ~ I T. ~ ~ >. TI •' v.. II O O O 'i O I O O I O I O O O O i 0 O O O O i 0 O ~ O O O O O j 0 j j 0 0 B O O, ~ d a-. O M O M •-- O N ~ O. N •-- O r O ~ O O ~ O .O .-- ~O. O Q7 ! 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I 'y-I I I I ,W,~i,~~~i.,~~~°• ~ I I 1 I ~ i ~`' - "~'i i p I I 1 l I I 1 . 1 ~ I I ~'11 I I I ~ I 1 1 I I , Y"• _-- ~;,' ~ ~ t 1' 1 1\~ I\ I I I III I 1 Ij'i I ~ I II~~I ~~ 11 i I I I sr. _ ~ / !,~ r ~-~_ --' A',, ~y:'"~i ~1 I I \\ V v 1 V v\~ _ I ~ I , 111 I \ ,,,• j•••I 4 k \ ~ ~ - ~/ / 1 / I I I I I III „~~~~?• w~ ww $ I ` ''q~I ' -~~~ E ~ ~.~_~ \ - ~~ ~~i_/%/ // /// I / Ihi li ', IV ~1' 1 1 -~~- ~ ~ ~ '~i ~ i1, `\ \\ \` `~ `~ f1~J ~`~ ` `~ ~' ~ ~ ~~`~~~4. ~b\ \ \~\ \ \`- -',. /~ ~/// // / ~ / 1.\\/ ---- -J/1`,~~I, I ' ~ I t1~`m\ \~\ \--~ ~LT I I 1 ~ `\ ~~~~~~ ~`~;^;-_ ~ \~ ~ \ \ \ \~~III Imo/ I / ,/,/ v ~ ~~ ~ ~ ` ~1 ~ _~ \ ., /1,IIJ. Office Use Only: Form Version March OS USACE Action ID No. DWQ No. ~.~CQ ~ 1 ` ~~ gi 1 ~ 2. (If any particular item is not applicable to this project, please enter "Not Applicable" or "N/A".) I. Processing 1. Check all of the approval(s) requested for this project: ® Section 404 Permit ® Riparian or Watershed Buffer Rules ^ Section 10 Permit ^ Isolated Wetland Permit from DWQ ® 401 Water Quality Certification ® Express 401 Water Quality Certification 2. Nationwide, Regional or General Permit Number(s) Requested: 3. If this notification is solely a courtesy copy because written approval for the 401 Certification is not required, check here: ^ 4. If payment into the North Carolina Ecosystem Enhancement Program (NCEEP) is proposed for mitigation of impacts, attach the acceptance letter from NCEEP, complete section VIII, and check here: 5. If your project is located in any of North Carolina's twenty coastal counties (listed on page 4), and the project is within a North Carolina Division of Coastal Management Area of Environmental Concern (see the top of page 2 for further details), check here: ^ II. Applicant Information ~ ~~~(~~/]~ I. Owner/Applicant Information ,, l1 v Name: Robert Polanco ~ "~~ ~- °~' ~~~~ 200 r~ Mailing Address: 8804 Albright Road; ,~~~rv~ R a l e i g h, N C 2 7612 i1~6dtAl`IASAt~~'St'ORfiAIVAr'Il~fiN` Telephone Number: (919) 614-1733 Fax Number: E-mail Address: 2. Agent/Consultant Information (A signed and dated copy of the Agent Authorization letter must be attached if the Agent has signatory authority for the owner/applicant.) Name: Jay Keller Company Affiliation: Keller Environmental Mailing Address: 7921 Haymarket Lane; Raleigh, NC 27615 Telephone Number: (919) 844-7437 Fax Number: (919) 844-7438 E-mail Address: jay ankellerenvironmental.com Page 1 of 11 III. Project Information Attach a vicinity map clearly showing the location of the property with respect, tb local landmarks such as towns, rivers, and roads. Also provide a detailed site plan showing property boundaries and development plans in relation to surrounding properties. Both the vicinity map and site plan must include a scale and north arrow. The specific footprints of all buildings, impervious surfaces, or other facilities must be included. If possible, the maps and plans should include the appropriate USGS Topographic Quad Map and NRCS Soil Survey with the property boundaries outlined. Plan drawings, or other maps may be included at the applicant's discretion, so long as the property is clearly defined. For administrative and distribution purposes, the USAGE requires information to be submitted on sheets no larger than 11 by 17-inch format; however, DWQ may accept paperwork of any size. DWQ prefers full-size construction drawings rather than a sequential sheet version of the full-size plans. If full-size plans are reduced to a small scale such that the final version is illegible, the applicant will be informed that the project has been placed on hold until decipherable maps are provided. 1. Name of project: Cedar Ridge Subdivision Phase II 2. T.I.P. Project Number or State Project Number (NCDOT Only): 3. Property Identification Number (Tax PIN): 1768-07-3234 4. Location County: Wake Nearest Town: Rolesville Subdivision name (include phase/lot number): Cedar Ridge Directions to site (include road numbers/names, landmarks, etc.): Site is located on Rolesville Road approximately'/4 mile south of downtown Rolesville and US401. Site coordinates (For linear projects, such as a road or utility line, attach a sheet that separately lists the coordinates for each crossing of a distinct waterbody.) Decimal Degrees (6 digits minimum): 35.5474 °N 78.2746 °W 6. Property size (acres): 70.07 Acres 7. Name of nearest receiving body of water: Harris Creek River Basin: Neuse (Note -this must be one of North Carolina's seventeen designated major river basins. The River Basin map is available at http://h2o.enr.state.nc.us/admin/ma~s/.) 9. Describe the existing conditions on the site and general land use in the vicinity of the project at the time of this application: Site is comprised of an existing subdivision (phase 1) adjacent to Rolesville Road and a pond on the east side of Phase I. Harris Creek was determined to be a perennial stream below the pond on Phase I. No subject streams were evident above the pond. Remaining Phase II is mostly wooded with Page 2 of 11 one pond, Harris Creek, and its tributaries. Adjacent land uses include residential forested and agricultural areas. 10. Describe the overall project in detail, including the type of equipment to be used: Three road crossings are proposed to access upland areas at the rear of the property and provide connectivity to the northern parcel. In addition, one aerial sewer outfall is proposed. The Irina Drive crossing will utilize a 12' Con-Span Bridge Virginia Water Drive East will use 60" RCP over 102 linear stream feet. A 10' Con-Span bottomless arch culvert is proposed for the Virginia Water Drive West crossing All lots to have county water and sewer. Eauipment to be used includes cranes trackhoes bulldozers, and other land grading equipment and Virginia Water Drive East The site will utilize Bioretention ponds to handle stormwater. Further impacts are anticipated from installation of the outflow from the Bioretention ponds 1 1. Explain the purpose of the proposed work: The proposed impacts to the stream buffer area will be necessary to complete the subdivision thus sustaining the development of the proposed residential area. Extending Virginia Water Drive across Harris Creek and its tributary will also provide connectivity to the adjacent parcels and existing neighborhoods. IV. Prior Project History If jurisdictional determinations and/or permits have been requested and/or obtained for this project (including all prior phases of the same subdivision) in the past, please explain. Include the USACE Action ID Number, DWQ Project Number, application date, and date permits and certifications were issued or withdrawn. Provide photocopies of previously issued permits, certifications or other useful information. Describe previously approved wetland, stream and buffer impacts, along with associated mitigation (where applicable). If this is a NCDOT project, list and describe permits issued for prior segments of the same T.I.P. project, along with construction schedules. December 6, 2006: Keller Environmental (KE) on behalf of Mr Robert Polanco submitted a PCN application to the US Army Corps of Engineers and NC Division of Water Quality. January 16, 2007 Conducted an on-site stream determination with DWQ staff Lia Myott and Dr. Cynthia Van DerWiele. July 17, 2007 Jay Keller, Harold Yelle Andy Klinksiek and Robert Polanco had an office meeting with Dr. Cynthia VanDerWiele to discuss the project V. Future Project Plans Are any future permit requests anticipated for this project? If so, describe the anticipated work, and provide justification for the exclusion of this work from the current application. None. VI. Proposed Impacts to Waters of the United States/Waters of the State Page 3 of 11 It is the applicant's (or agent's) responsibility to determine, delineate and map all impacts to wetlands, open water, and stream channels associated with the project. Each impact must be listed separately in the tables below (e.g., culvert installation should be listed separately from riprap dissipater pads). Be sure to indicate if an impact is temporary. All proposed impacts, permanent and temporary, must be listed, and must be labeled and clearly identifiable on an accompanying site plan. All wetlands and waters, and all streams (intermittent and perennial) should be shown on a delineation map, whether or not impacts are proposed to these systems. Wetland and stream evaluation and delineation forms should be included as appropriate. Photographs may be included at the applicant's discretion. If this proposed impact is strictly for wetland or stream mitigation, list and describe the impact in Section VIII below. If additional space is needed for listing or description, please attach a separate sheet. 1. Provide a written description of the proposed impacts: The eastern Virginia Water Drive stream crossing will involve 80-feet of a single 60-inch diameter RCP with 20 feet total of class b riprap for a total of 102 feet of stream impact. Please see sheet 7. To facilitate aquatic passage 30-inches of the RCP will be buried. Please refer to the profile view of the Virginia Water Drive Eastern Crossing. The Irina Drive crossing will utilize a 12 foot Con-Span Bridge over 78 linear feet. A 10 foot Con-Span bottomless arch culvert is proposed for the Virginia Water Drive West crossing. The gravity driven sewer outfall stream impact will be minimal because of the 8 foot pipe clearance above the stream. 11 of the 12 bioretention ponds require buffer impacts and these are detailed on the chart included in X.2. 2. Individually list wetland impacts. Types of impacts include, but are not limited to mechanized clearing, grading, fill, excavation, flooding, ditching/drainage, etc. For dams, car,arately lief imnantc dne to tenth .ctrncture and fln~din~. Wetland Impact Type of Wetland Located within 100-year Distance to Nearest Area of Impact Site Number Type of Impact (e.g., forested, marsh, Floodplain Stream (acres) (indicate on map) herbaceous, bog, etc.) ( es/no) (linear feet) None Total Wetland Impact (acres) 0 3. List the total acreage (estimated) of all existing wetlands on the property: 2 Acres 4. Individually list all intermittent and perennial stream impacts. Be sure to identify temporary impacts. Stream impacts include, but are not limited to placement of fill or culverts, dam construction, flooding, relocation, stabilization activities (e.g., cement walls, rip-rap, crib walls, gabions, etc.), excavation, ditching/straightening, etc. If stream relocation is proposed, plans and profiles showing the linear footprint for both the original and relocated streams must be included. To calculate acreage, multiply length X width, then divide by 43,560. Stream Impact Average Impact Area of Number Stream Name T e of Im act Perennial or Stream Width Length Impact (indicate on map) yp p Intermittent? Before Im act (linear feet) (acres) Virginia Culverts & Water Drive Harris Creek headwalls Perennial 6 102 0.014 East Page 4 of 11 Virginia Con-Span Water Drive UT to Harris Bottomless Perennial 6 86 0 West Creek Arched Culvert UT to Harris Con-Span Irina Dr. Creek Bottomless Perennial 4 78 0 Arched Culvert UT to Harris Approx. 8' high SS Outfall 8 Aerial Sewer Perennial 20 20 0 Creek Crossing 102 if 0.013 Total Stream Impact (by length and acreage) permanent acres permanent 5. Individually list all open water impacts (including lakes, ponds, estuaries, sounds, Atlantic Ocean and any other water of the U.S.). Open water impacts include, but are not limited to fill, excavation, dredging, flooding, drainage, bulkheads, etc. Open Water Impact Name of Waterbody Type of Waterbody Area of Site Number (if applicable) Type of Impact (lake, pond, estuary, sound, bay, Impact (indicate on ma) ocean, etc.) (acres) Total Open Water Impact (acres) 0 6. List the cumulative impact to all Waters of the U.S. resulting from the project: Stream Impact (acres): 0.014 Wetland Impact (acres): 0 Open Water Impact (acres): 0 Total Impact to Waters of the U.S. (acres) 0.014 Total Stream Impact (linear feet): 102 7. Isolated Waters Do any isolated waters exist on the property? ^ Yes ®No Describe all impacts to isolated waters, and include the type of water (wetland or stream) and the size of the proposed impact (acres or linear feet). Please note that this section only applies to waters that have specifically been determined to be isolated by the USACE. 8. Pond Creation If construction of a pond is proposed, associated wetland and stream impacts should be included above in the wetland and stream impact sections. Also, the proposed pond should be described here and illustrated on any maps included with this application. Pond to be created in (check all that apply): ^ uplands ^ stream ^ wetlands Describe the method of construction (e.g., dam/embankment, excavation, installation of draw-down valve or spillway, etc.): Proposed use or purpose of pond (e.g., livestock watering, irrigation, aesthetic, trout pond, local stormwater requirement, etc.): Current land use in the vicinity of the pond: Size of watershed draining to pond: Page 5 of I 1 Expected pond surface area: VII. Impact Justification (Avoidance and Minimization) Specifically describe measures taken to avoid the proposed impacts. It may be useful to provide information related to site constraints such as topography, building ordinances, accessibility, and financial viability of the project. The applicant may attach drawings of alternative, lower-impact site layouts, and explain why these design options were not feasible. Also discuss how impacts were minimized once the desired site plan was developed. If applicable, discuss construction techniques to be followed during construction to reduce impacts. The proposed Virginia Water Drive Extension crossings were strategically placed to connect with the subdivision to the west and the large upland area between it and Phase I. The Irina Drive Extension will provide access to the upland areas to the area north of Harris Creek. The crossings were also placed perpendicular in fairly linear stream corridors and Con-Span bottomless arched culverts (CSBAC) will be utilized on two of the geologically suitable streams to avoid stream impacts. The Irina Drive CSBAC and headwalls will span 78 linear feet of stream and the 12-foot span will clearly span the entire 4-feet wide stream bed and bank. Also, it was evident during our January 16, 2006 site visit that the crossing area appeared to be a historic stream crossing for agriculture and silvaculture activities. Our perennial stream determination was conducted within and immediately upstream of the proposed crossing area. Please refer to Sheet 6 on the attached CD for details. The eastern Virginia Water Drive 60-inch RCP is 80 linear feet and the RCP will be buried 30-inches to facilitate aquatic passage. 20 feet of class B riprap will be added to assist with stormwater velocity for a total of 102 feet total stream impact with a 2 foot stream curve compensation. During our perennial stream determination, we entered the subject riparian corridor from the existing Virginia Water Drive end of pavement and walked upstream via the existing sewer line on the west side to the existing pond and sewer crossing area. It was evident during our analysis that the stream in the proposed crossing area is slightly incised. Please refer to Sheet 7 on the plan sheet for details. The western Virginia Water Drive CSBAC and headwalls will span 86 linear feet of stream and the 25-foot span will clearly span the entire 6-feet wide stream bed and bank. The CSBAC will also include one slight turn to avoid impacting any stream bank. This crossing area is also being utilized for utilities (i.e. sewer, etc.) to avoid additional impacts. Similar to the aforementioned CSBAC's and evident on the Overall Site Plan, this stream crossing is being placed in a fairly linear stream section. It will provide connectivity to the existing Virginia Water Drive and the Village of Rolesville (Phase II) Subdivision on the west side. Please refer to Sheet 9 on the attached CD and plan sheet for details. The wide spans will be placed by using a crane and bridge footings will be placed outside of the stream banks. Since all of the proposed crossing areas have direct road access, temporary impacts to the streams will also be avoided. This proposed Phase (II) of Cedar Ridge will also use an _existinq sewer line that parallels Harris Creek and the two ponds. During initial construction of Phase II, a Page 6 of I 1 sanitary sewer line will be installed near and parallel to the southern property line. As mentioned in the previous paragraph, this new sewer line will utilize the Virginia Water Drive CSBAC area to pain access to the existing sewer fine on the west side of Harris Creek. An aerial sewer crossing is proposed south of Irina Drive between Lots 61 and 67. This proposed line will satisfy the City of Raleigh's criteria for a gravity driven sanitary sewer line. The crossing will be eight (8)-feet above the stream channel for maximum clearance of the 20-feet wide stream/pond area. The casings will be constructed outside of the jurisdictional stream/pond areas. Also evident on the Site Plan, there will be minimal grading conducted on the residential lots throughout this phase. This should maximize nutrient removal through the grassed and landscaped areas. 15.78 Acres will be permanently preserved along Harris Creek and its tributaries. This includes the large pond at the rear of lots 72-88. Moreover, areas adjacent to the stream crossings will be in the dedicated open space area. This will prevent homes from encroaching into the riparian buffer areas. Examples include areas west of Lots 1(1~ R 11R VIII. Mitigation DWQ - In accordance with 15A NCAC 2H .0500, mitigation may be required by the NC Division of Water Quality for projects involving greater than or equal to one acre of impacts to freshwater wetlands or greater than or equal to 150 linear feet of total impacts to perennial streams. USACE - In accordance with the Final Notice of Issuance and Modification of Nationwide Permits, published in the Federal Register on January 15, 2002, mitigation will be required when necessary to ensure that adverse effects to the aquatic environment are minimal. Factors including size and type of proposed impact and function and relative value of the impacted aquatic resource will be considered in determining acceptability of appropriate and practicable mitigation as proposed. Examples of mitigation that may be appropriate and practicable include, but are not limited to: reducing the size of the project; establishing and maintaining wetland and/or upland vegetated buffers to protect open waters such as streams; and replacing losses of aquatic resource functions and values by creating, restoring, enhancing, or preserving similar functions and values, preferable in the same watershed. If mitigation is required for this project, a copy of the mitigation plan must be attached in order for USACE or DWQ to consider the application complete for processing. Any application lacking a required mitigation plan or NCEEP concurrence shall be placed on hold as incomplete. An applicant may also choose to review the current guidelines for stream restoration in DWQ's Draft Technical Guide for Stream Work in North Carolina, available at http://h2o.enr.state. nc.us/ncwetlands/strmgide.html. 1. Provide a brief description of the proposed mitigation plan. The description should provide as much information as possible, including, but not limited to: site location (attach directions and/or map, if offsite), affected stream and river basin, type and amount (acreage/linear feet) Page 7 of I 1 of mitigation proposed (restoration, enhancement, creation, or preservation), a plan view, preservation mechanism (e.g., deed restrictions, conservation easement, etc.), and a description of the current site conditions and proposed method of construction. Please attach a separate sheet if more space is needed. The proposed project should not be required to provide mitigation for the proposed stream impacts This is due the efforts of the developer's team to avoid jurisdictional areas to the maximum extent possible. As shown in the attached Engineering Plans the properties adjacent to the stream will not encroach into the vegetated buffers to protect open waters along Harris Creek and its tributaries. Moreover, areas adjacent to the stream crossings will be in the dedicated open space area. This will prevent homes from encroaching into the riparian buffer areas. Examples include areas west of Lots 103 & 118. 15.78 Acres will be permanently preserved along Harris Creek and its tributaries. This includes the large pond at the rear of lots 72-88. __ 2. Mitigation may also be made by payment into the North Carolina Ecosystem Enhancement Program (NCEEP). Please note it is the applicant's responsibility to contact the NCEEP at (919) 715-0476 to determine availability, and written approval from the NCEEP indicating that they are will to accept payment for the mitigation must be attached to this form. For additional information regarding the application process for the NCEEP, check the NCEEP website at http://h2o.enr.state.nc.us/wrp/index.htm. If use of the NCEEP is proposed, please check the appropriate box on page five and provide the following information: Amount of stream mitigation requested (linear feet): n/a Amount of buffer mitigation requested (square feet): 63,240 SF Amount of Riparian wetland mitigation requested (acres): n/a Amount ofNon-riparian wetland mitigation requested (acres): n/a Amount of Coastal wetland mitigation requested (acres): n/a IX. Environmental Documentation (required by DWQ) 1. Does the project involve an expenditure of public (federal/state/local) funds or the use of public (federal/state) land? Yes ^ No 2. If yes, does the project require preparation of an environmental document pursuant to the requirements of the National or North Carolina Environmental Policy Act (NEPA/SEPA)? Note: If you are not sure whether aNEPA/SEPA document is required, call the SEPA coordinator at (919) 733-5083 to review current thresholds for environmental documentation. Yes ^ No ^ 3. If yes, has the document review been finalized by the State Clearinghouse? If so, please attach a copy of the NEPA or SEPA final approval letter. Yes ^ No ^ X. Proposed Impacts on Riparian and Watershed Buffers (required by DWQ) It is the applicant's (or agent's) responsibility to determine, delineate and map all impacts to required state and local buffers associated with the project. The applicant must also provide justification for these impacts in Section VII above. All proposed impacts must be listed herein, Page 8 of 11 and must be clearly identifiable on the accompanying site plan. All buffers must be shown on a map, whether or not impacts are proposed to the buffers. Correspondence from the DWQ Regional Office may be included as appropriate. Photographs may also be included at the applicant's discretion. 1. Will the project impact protected riparian buffers identified within 15A NCAC 2B .0233 (Meuse), 15A NCAC 2B .0259 (Tar-Pamlico), 15A NCAC 02B .0243 (Catawba) 15A NCAC 2B .0250 (Randleman Rules and Water Supply Buffer Requirements), or other (please identify )? Yes ® No ^ 2. If "yes", identify the square feet and acreage of impact to each zone of the riparian buffers. If buffer mitigation is required calculate the required amount of mitigation by applying the buffer multipliers. Zone* Impact (s uare feet) Multiplier Required Miti ation 1 29,375 3 (2 for Catawba) 47,223 2 19,886 1.5 16,017 Total 49,261 63,240 Buffer Impact Area Square Feet Zone 1 Square Feet (Z1 Total) Square Feet Zone 2 Square Feet (Z2 Total) Bioretention 1 37 x 15 555 21 x 15 315 Bioretention 2 68 x 15 1,020 26 x 15 390 Bioretention 3 32 x 15 480 21 x 15 315 Bioretention 4 34 x 15 510 20 x 15 300 Bioretention 5 35 x 15 525 20 x 15 300 Bioretention 6 48 x 15 720 580 Bioretention 7 57 x 15 855 560 Bioretention 8 36 x 15 540 20 x 15 300 Bioretention 9 37 x 15 555 800 Bioretention 10 30 x 15 450 26 x 15 390 Bioretention 11 35 x 15 525 20 x 15 300 Bioretention Totals 6,735 4,550 Virginia Water Dr. E. 7,697 5,236 Virginia Water Dr. W. 8,044 5,442 Irina Dr. 5,699 3,858 SS Outfall 8 1,200 800 TOTALS (SF) 29,375 19,886 TOTALS (Acres 0.67 0.46 Page 9 of 11 3. If buffer mitigation is required, please discuss what type of mitigation is proposed (i.e., Donation of Property, Riparian Buffer Restoration /Enhancement, or Payment into the Riparian Buffer Restoration Fund). Please attach all appropriate information as identified within 15A NCAC 2B .0242 or .0244, or .0260.Riparian buffer impacts associated with the Harris Creek Virginia Avenue crossings is required per conversations with Amy Chapman. Mitigation costs of $60,710.40 for 63,240 square feet of riparian buffers will be paid to North Carolina Ecosystem Enhancement Program. XI. Stormwater (required by DWQ) Describe impervious acreage (existing and proposed)~versus total acreage on the site. Discuss stormwater controls proposed in order to protect surface waters and wetlands downstream from the property. If percent impervious surface exceeds 20%, please provide calculations demonstrating total proposed impervious level. Quantity Area Area Proposed (square feet) acres Impervious Roadways 230,622 5.29 Lots * 117 3,500 9.40 Sidewalk 39'995 92 0 7,999 x 5 . Total 680 117 15.61 22'23% Im envious Area , 15.61 / 70.07 Open Space 16.00 Total Tract Area 70.07 * Lot SF based on 2200 SF Footprint, 1300 SF in Deck, Drive, & Sidewalk Please refer to "Site Plan Information" for details and the Table on Overall Site Gradin and Drainage Plan. While under construction, temporary, custom sedimentation basins will be installed outside of the wetlands and streams to protect them against sedimentation along with other appropriate sedimentation and erosion control measures in compliance with the DWQ and Wake County Sedimentation and Erosion Control requirements. As seen on the Site Grading and Drainage Plan, site grading will be minimal. This will maximize the penetration of surface water into the ground. Twelve bioretention areas will be utilized to pre-treat the Nitroaen prior to release from the stormwater discharge areas. XII. Sewage Disposal (required by DWQ) Clearly detail the ultimate treatment methods and disposition (non-discharge or discharge) of wastewater generated from the proposed project, or available capacity of the subject facility. To City of Raleigh Walnut Creek Waste Water Treatment Plant. Page 10 of 11 XIII. Violations (required by DWQ) Is this site in violation of DWQ Wetland Rules (15A NCAC 2H .0500) or any Buffer Rules? Yes ^ No Is this an after-the-fact permit application? Yes ^ No XIV. Cumulative Impacts (required by DWQ) Will this project (based on past and reasonably anticipated future impacts) result in additional development, which could impact nearby downstream water quality? Yes ^ No If yes, please submit a qualitative or quantitative cumulative impact analysis in accordance with the most recent North Carolina Division of Water Quality policy posted on our website at http://h2o.enr.state.nc.us/ncwetlands. If no, please provide a short narrative description: The proposed Cedar Ridge Subdivision proposes using bottomless culverts on the Irina Drive and downstream Virginia Water Drive West stream crossings to avoid impacts to Waters of the US. It is unlikely that the proposed project should result in cumulative stream impacts and degrade downstream stream quality. To illustrate avoidance of the stream and wetland areas on the parcel north of Irina Drive, please refer to the attached road corridor plan XV. Other Circumstances (Optional): It is the applicant's responsibility to submit the application sufficiently in advance of desired construction dates to allow processing time for these permits. However, an applicant may choose to list constraints associated with construction or sequencing that may impose limits on work schedules (e.g., draw-down schedules for lakes, dates associated with Endangered and Threatened Species, accessibility problems, or other issues outside of the applicant's control). ~~~~ July 19. 2 Applicant/Agent's Signature Date (Agent's signature is valid only if an authorization letter from the applicant is provided.) Page 11 of 11