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Home My WebLink AboutSite Certifications - 11/14/20191/19 Page 1 OVERALL SITE and DRAINAGE CERTIFICATION Commercial, Multi-Family and Subdivision Certification Form and Checklist Project Name: Date: Building Permit Numbers: (Commercial or multi-family) Per the requirement in Fort Collins Stormwater Criteria Manual (FCSCM) Chapter 3, Section 3.0 to certify as- built construction to the approved drainage and grading plans, please fill in all applicable items in this Certification Form for Commercial, Multi-Family and Overall Single Family sites. NOTE: several items must be verified during construction. A copy of the approved grading plan must be submitted with the as-built grading plan. (As-built elevations must be written in red next to the approved elevations.) • Use “Yes” for items completed as described. • Use “N/A” for items that are not applicable to the site being certified. • If any blanks are “No,” attach an explanation referencing the item number below. Attach an explanation or description of the as-built condition for any items listed or for anything not listed but shown on the approved construction plans. Provide an as-built redline or Mylar drawing with the following: I. Water Quality and Quantity Detention Basin - FCSCM Ch. 6 and 7 For multiple detention basins on a site, provide the following for each basin separately: A. Volume: As-built topographic verification is attached at 1-foot (or less) contour intervals and volume verification calculations for the water quality capture volume and the 100-year detention storage volume. 1. Detention basin topography was prepared by a professional land surveyor registered in the state of Colorado. 2. Both proposed and as-built contours are shown on the same plan sheet (dashed lines for proposed and solid lines for as-built). 3. All critical spot elevations as shown on the approved construction plans have been verified and the as-built elevations are shown on the plan sheet. 4. Stage-storage-discharge tables are provided on a separate document. 5. Verification that designed drain time is in compliance with Colorado Revised Statute § 37-92- 602(8) is attached and has been uploaded to the Statewide Compliance Portal (tinyurl.com/COCompliancePortal) for approval. Uploaded documents must include: a. The cover sheet from the approved drainage report b. The stamped certification page from the approved drainage report c. As-built topographic survey d. Stamped certification page from the Overall Site & Drainage Certification e. PDF output from the Stormwater Detention and Infiltration Design Data Speadsheet Project Number:HPB01.01 Project Location:Fort Collins, Colorado Date: 9/23/2019 Calculations By:H. Feissner Pond Description:Basin A5 | AS-BUILT User Input Cell:Blue Text Design Point:A1 Design Storm:N/A Required Volume:0 ft3 5107.60 ft Design Storm:N/A Required Volume:0 ft3 5107.60 ft Design Storm:100-year Required Volume:9385 ft3 N/A ft Contour Elevation Contour Area Depth Incremental Volume Cummulative Volume Incremental Volume Cummulative Volume Cummulative Volume ft ft2 ft ft3 ft3 ft3 ft3 ac-ft 5107.60 11 0 0 0 0 0 0.000 5107.80 500 0.20 51 51 39 39 0.001 5108.00 2077 0.20 258 309 240 279 0.006 5108.20 3212 0.20 529 838 525 804 0.018 5108.40 4162 0.20 737 1575 735 1539 0.035 5108.60 4956 0.20 912 2487 911 2450 0.056 5108.80 5648 0.20 1060 3547 1060 3509 0.081 5109.00 6392 0.20 1204 4751 1203 4713 0.108 5109.20 7011 0.20 1340 6092 1340 6052 0.139 5109.40 7604 0.20 1461 7553 1461 7513 0.172 5109.57 9026 0.17 1414 8967 1412 8925 0.205 Detention Pond Stage-Storage Calculations | AS-BUILT Required Volume Water Surface Elevation Average End Area Method:Conic Volume Method: 5107.6 5108.1 5108.6 5109.1 5109.6 5110.1 0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 Contour Elevation, ft Cummulative Volume, ft3 Stage - Storage | Site Stormwater Facility Name: Facility Location & Jurisdiction: User Input: Watershed Characteristics User Defined User Defined User Defined User Defined Watershed Slope =0.005 ft/ft Stage [ft]Area [ft^2]Stage [ft]Discharge [cfs] Watershed Length =425 ft 0.00 0 0.00 0.00 Watershed Area =1.84 acres 0.10 16 0.10 0.10 Watershed Imperviousness =56.0%percent 0.20 25 0.20 0.18 Percentage Hydrologic Soil Group A =percent 0.30 466 0.30 0.23 Percentage Hydrologic Soil Group B =percent 0.40 1,093 0.40 0.37 Percentage Hydrologic Soil Groups C/D =100.0%percent 0.50 1,889 0.50 0.47 0.60 2,634 0.60 0.55 User Input 17 0.70 3,487 0.70 0.62 0.80 4,297 0.80 0.68 0.90 5,021 0.90 0.74 1.00 5,463 1.00 0.79 WQCV Treatment Method =hours 1.10 5,871 1.10 0.84 1.20 6,233 1.20 0.89 1.30 6,582 1.30 0.94 1.40 6,872 1.40 0.98 1.50 7,241 1.50 1.02 1.60 7,572 1.60 1.06 1.70 7,916 1.70 1.10 1.80 8,259 1.80 1.14 1.90 8,604 1.90 1.17 2.00 9,102 2.00 1.21 After completing and printing this worksheet to a pdf, go to: https://maperture.digitaldataservices.com/gvh/?viewer=cswdif create a new stormwater facility, and attach the pdf of this worksheet to that record. Routed Hydrograph Results Design Storm Return Period =WQCV 2 Year 5 Year 10 Year 50 Year 100 Year One-Hour Rainfall Depth =0.53 0.82 1.20 1.40 2.00 2.86 in Calculated Runoff Volume =0.064 0.108 0.136 0.239 0.365 acre-ft OPTIONAL Override Runoff Volume =acre-ft Inflow Hydrograph Volume =0.064 0.107 0.136 0.238 0.365 acre-ft Time to Drain 97% of Inflow Volume =1.8 2.4 2.8 3.8 4.8 hours Time to Drain 99% of Inflow Volume =1.9 2.5 2.9 3.9 4.9 hours Maximum Ponding Depth =0.62 0.86 1.01 1.48 1.99 ft Maximum Ponded Area =0.06 0.11 0.13 0.16 0.21 acres Maximum Volume Stored =0.012 0.033 0.050 0.119 0.213 acre-ft Stormwater Detention and Infiltration Design Data Sheet Elizabeth Street Farms | On-Site Detention Pond Fort Collins, Colorado Location for 1-hr Rainfall Depths (use dropdown): Workbook Protected Worksheet Protected HPB01_SDI_Design_Data_v1.08.xlsm, Design Data 9/23/2019, 11:55 AM WQCV_Trigger =1 RunOnce=1 CountA=1 Draintime Coeff=1.0 0 1 2 3 #N/A #N/A 0 1 2 3 #N/A #N/A Check Data Set 1 Check Data Set 1 Stormwater Detention and Infiltration Design Data Sheet Area Discharge 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 0.1 1 10 FLOW [cfs] TIME [hr] 100YR IN 100YR OUT 50YR IN 50YR OUT 10YR IN 10YR OUT 5YR IN 5YR OUT 2YR IN 2YR OUT WQCV IN WQCV OUT 0 0.5 1 1.5 2 2.5 0.1 1 10 100 PONDING DEPTH [ft] DRAIN TIME [hr] 100YR 50YR 10YR 5YR 2YR WQCV HPB01_SDI_Design_Data_v1.08.xlsm, Design Data 9/23/2019, 11:55 AM 1/19 Page 2 B. Water Quality and Quantity Detention Basin Grading: Attached is as-built verification that there is a minimum 2% positive fall into the concrete trickle pans or flow-line(s) from all areas in the bottom of the detention pond. If there is a “soft pan” in the flow-line, all areas still must meet the minimum 2% grade requirement. 1. Low Flow: Choose one of the following detention basin low flow options as applicable: a. Turf swale for low flow path in detention basin. There is a minimum 2% grade in the flow-line(s) of the detention basin. The flattest as-built grade is . b. Concrete pan for low flow in detention basin. There is a concrete pan installed that meets the grades as shown on the approved construction plans. (Show as-built spot elevations.) c. Soft pan for low flow in detention basin. • Verify and document the soft pan material gradation, trench width and depth - to be verified during construction by engineer. Picture documentation is preferred or engineer’s statement of visual inspection and compliance. (Choose one below.) o There is a soft pan with an underdrain installed that meets the design on the approved construction plans. (Show the underdrain grades, bedding material, geotextile, spot elevations, bends, cleanouts, etc.) o There is soft pan installed without an underdrain but there is a type A or B soil. The soil type must be documented by supplying verification from a registered professional geotechnical engineer. NOTE: Spot elevations are to be within 0.2 ft. +/-. 2. Side Slopes: The as-built side slopes of the detention basin have been calculated and are shown. Indicate the side slope with an arrow and a numerical value (e.g., 6.25:1). The maximum slope allowed is 4:1. Small areas of 3:1 may be acceptable, but slopes steeper than 3:1 must be stabilized or re- graded. Provide documentation if a variance was granted for steeper slopes during the design process. 3. Spillway: The following items must be field verified: a. The location of the spillway is indicated on the as-built plan. b. The width of the spillway is indicated on the as-built plan. c. The elevation(s) of the spillway is shown on the as-built plan. d. A concrete ribbon defines the location and grade of the spillway. e. There is downstream scour protection in the spillway as per the construction plans. Indicate type: (riprap size “D50” gradation and bedding type, geotextile, buried riprap with inches of bury, etc.). f. There are no obstructions in the spillway, such as trees, bushes, sidewalks, landscape features, rocks, etc. 1/19 Page 3 4. Outlet Structure: a. The orifice plate for the approved release rate is installed with the correct size and location of the orifice. b. The orifice plate for the water quality outlet is installed with the correct hole size, number of rows and columns of holes. c. The bottom hole on both the water quality and quantity outlets are at the bottom of the plate so no water ponds in front of the plate. d. The well screen is the correct material and is installed as shown on the construction plans. e. 100-year overflow grate elevation is . (Elev. A on detail D-46) f. The top elevation of the water quality capture volume is . (Elev. B on detail D-46) g. Overflow grate is made of the correct material, has the correct bar spacing, is hinged at the top and bolted at the bottom. h. The bottom of the outlet box has no obstructions or misalignments that will cause it to retain runoff water and is sloped at 2% towards outlet. II. Channels/Swales - FCSCM Ch. 8, Sec. 2.0 and Ch. 9, Sec. 5.0 A. Capacity: The as-built capacity of all the major channels and swales has been verified. They meet or exceed capacity requirements shown in the approved drainage study for this project. 1. All swales are located within the drainage easements as shown on the construction plans. 2. Longitudinal slopes and side-slopes (cross-sections) have been verified. Design criteria requires longitudinal slopes of 2% min. (on vegetated swales) and side-slopes no steeper than 4:1. If these criteria are not met, the certification engineer will write a justification and propose mitigation for each instance or have the issues corrected. If variances to these criteria have previously been approved and are shown on the construction plans, no justification is needed. 3. As-built spot elevations on channels/swales are shown that correspond to spot elevations shown on the approved construction plans. 4. All permanent erosion control measures are installed as shown on the approved construction plans (e.g., drop structures, riprap, TRMs, etc.). (Include pictures and verification of the materials used as part of this verification.) 5. All pans, curbs, storm pipes or other appurtenances appropriately tie into each other in the system. (Pictures at tie-in points suggested.) 6. The minimum freeboard is provided for all channels and swales as shown on the approved construction plans or as identified in the approved drainage study. (Show the freeboard provided on the cross-sections as on the construction plan set or attached as separate documentation.) 7. The low flow portion of all channels or swales is clear of obstructions. (No landscaping, trees, shrubs, sod, etc. infringe on the low flow portion of channels or swales.) 1/19 Page 4 III. Storm Pipes (aka storm drains) - FCSCM Ch. 9, Sec. 4.0 A. Storm Drain Pipe Capacity: The as-built capacity of all pipes installed on this project has been verified and meets or exceeds the capacity requirements shown in the approved drainage study for this project. 1. All storm drain pipe sizes and materials have been verified and are in conformance with the approved construction plans. (Indicate on the plan and profile sheets that they have been verified.) Material and size substitutions must be approved prior to installation. If a pipe size or material was changed during construction, the certification engineer must attach the approval documents or supply them with this certification. Approval documents must include a calculation documenting the capacity equivalency (equal or greater) of the substituted size. 2. The longitudinal slope of the pipe is as shown on the approved construction plans. The acceptable minimum slope is 0.4%. All slopes flatter than the designed slope on the construction plans must be justified with capacity calculations on an attached sheet. 3. The as-built invert elevations have been verified and are shown on the plan and profile sheets of the approved construction plans. B. Storm Drain Pipe Installation Requirements: All pipes are installed in accordance with the approved construction plans and construction specifications. 1. The minimum cover requirements for all pipes have been met as shown on the approved construction plans. These will be called out in critical locations. 2. All encasements and clearances as specified on the approved construction plans have been met. 3. Any specific joint types or construction methods specified on the approved construction plans have been met. (List on a separate sheet and attach to this certification.) IV. Concrete Pans - FCSCM Ch. 8, Sec. 2.0 A. Construction/Installation: All concrete pans have been constructed in accordance with the approved construction plans. 1. The concrete pans are the correct size/width as shown on the approved construction plans. 2. The longitudinal slopes of the pans are as shown on the approved construction plans. The certification engineer must justify or mitigate longitudinal slopes less than the minimum of 0.4% unless a flatter slope was approved and is shown on the approved construction plans. Provide mitigation or justification by separate document. 3. The cross-section of the pan is as shown on the construction plans. (Specifically, the pan cross- section is “V” shaped and meets the side slope shown on the detail.) 4. The concrete pans are a minimum of 6 inches thick without reinforcement and a minimum of 4 inches thick with a minimum of 6X6-W14xW14 reinforcement per detail D20B and D20C. (Provide documentation of the reinforcement used if different than shown on the details or on the approved construction plans.) 5. The spot elevations shown on the concrete pan(s) have been verified and are shown on the as- built drawings. SSSS S S S S S 8''SS 8''SS 8''SS 8''SS 8''SS 8''SS 8''SS 8''SS 8''SS 8''SS 8''SS 8''SS 8''SS 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W W 2'2' 12''IRR 6''W 6''W 6''W 12''IRR 12''IRR 12''IRR 8''SS 8''SS 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 8''W 12''W 12''W 12''W 12''W 12''W 12''W 12''W 12''W 12''W 12''W 12''W 12''W 12''W 12''W 12''W 12''W 12''W 12''W PEAR STREET WEST ELIZABETH STREET IRMH A2 EX IRRIGATION BOX A7 SSMH 1-1 SSMH 1-2 IRMH A1 IRMH A EXMH 1 VALLEY HI SUBDIVISION BLOCK 4 LOT 1 LOT 2 LOT 3 LOT 4 LOT 5WEST PLUM STREET- A PLANNED UNIT DEVELOPMENT LOT 5 RHODES SUBDIVISION LOT 1 LOT 2 LOT 3 LOT 6 WEST PLUM STREET- A PLANNED UNIT DEVELOPMENT LOT 7 LOT 8 BLOCK 1 BLOCK 1 LOT 1 LOT 2 LOT 3 LOT 4 LOT 5 LOT 6 LOT 7 LOT 8 LOT 9 OUTLOT A 20'EMERGENCY ACCESS EASEMENT 30'- 30' - 10' DRAINAGE AND UTILITY EASEMENT 10' DRAINAGE AND UTILITY EASEMENT 15' DRAINAGE AND UTILITY EASEMENT 15' DRAINAGE AND UTILITY EASEMENT 10'DRAINAGE AND UTILITY EASEMENT 10'DRAINAGE AND UTILITY EASEMENT PEAR STREET (PRIVATE DRIVE) BARTLETT DRIVE (PRIVATE DRIVE) IRMH A3 IRMH A6 IRMH A5 20'EMERGENCY ACCESS EASEMENT 10'IRRIGATION EASEMENT 10' IRRIGATION EASEMENT TRACT A 9'UTILITYEASEMENT 9' UTILITY EASEMENT 9.48 8.75 8.72' 9.48' 12.53' 2.47' 20.42' IRRIGATION LINE A SEE SHEET C6.0 SANITARY LINE 1 SEE SHEET C5.0 SANITARY LINE 1 SEE SHEET C5.0 PROPOSED SAWCUT PROPOSED SAWCUT IRRIGATION LINE A SEE SHEET C6.0 STORM D TRIPLE 8" C900 PVC @ 0.5% - 14.75LF STORM B TRIPLE 8" C900 PVC @ 0.5% - 62.13LF STORM C TRIPLE 8" C900 PVC @ 2.17% - 46LF STORM E TWIN 8" C900 PVC @ 0.5% - 57LF HEADWALL WITH FLAPGATE SEE DETAILS ON SHEET C8.4 SINGLE 6" C900 PVC @ 0.5% - 3.8LF 8"X6" TEE HEADWALL SEE DETAIL ON SHEET C8.4 HEADWALL SEE DETAIL ON SHEET C8.4 LOWER WATERLINE UNDER IRRIGATION SEE DETAIL 4-A AND 4-B ON SHEET C4.1 MAINTAIN 18" MIN. CLEAR 95.04 LF 8" PVC N00°10'11"W 10.26 LF 8" PVC N13°10'26"E 40.28 LF 8" PVC S45°11'56"E 5.00 LF 8" PVC N00°11'56"W 13.90 LF 6" PVC N89°48'04"E 137.05 LF 8"PVC S89°48'14"W REMOVE EXISTING F.H. & CONTINUE EXISTING WATER MAIN 8"x6" REDUCER (S) N=452659.07 E=104100.92 8"x8" BEND w/TB N=452517.76 E=104264.27 45° BEND w/TB N=452517.29 E=104127.22 45° BEND w/TB N=452545.71 E=104098.64 11.25° BEND w/TB N=452645.71 E=104098.34 11.25° BEND w/TB N=452655.70 E=104100.68 8"x6" TEE w/TB 1 - 6" G.V. (E) N=452640.71 E=104098.36 FIRE HYDRANT ASSEMBLY N=452640.76 E=104112.26 LOWER 8" WATERLINE UNDER 12" WATERLINE SEE DETAIL 4-A AND 4-B ON SHEET C4.1 MAINTAIN 18" MIN. CLEAR TIE INTO EXISTING WATER MAIN W/ WET TAP & TAPPING VALVE (N) w/ TB N=452360.01 E=104264.82 FIELD VERIFY LOCATION AND ELEVATION 157.76 LF 8" PVC S00°11'57"E GRASS LINED SWALE SEE DETAIL ON SHEET C8.2 8" DR18 CERTALOCK WATERLINE TO BE BORED UNDER W. ELIZABETH 15.51 (N) 15.53 (C) 15.57 (S) 0.58 (N) 0.39 (C) 0.51 (S) 57.14 (N) 57.03 (S) 0.54 (N) 0.65 (S) 9.43 (N) 9.44 (S) 9.12 (N) 9.07 (S) Y h2o W Wh2o h2o W h2o W h2oh2o W WWW h2o h2o VALVE LOCATION VALVE LOCATION VALVE LOCATION METER LOCATION METER LOCATION METER LOCATION METER LOCATION METER LOCATION FIRE HYDRANT LOCATION 8.63 (N) 8.62 (C) 8.63 (S) 8.54 (N) 8.56 (C) 8.55 (S) 9.09 (N) 9.04 (C) 9.01 (S) 8.06 (N) 8.07 (C) 8.08 (S) 45.71 (N) 45.80 (C) 45.97 (S) 2.25 (N) 2.12 (C) 2.13 (S) 8.78 (N) 8.73 (C) 8.69 (S) 8.41 (N) 8.36 (C) 8.32 (S) 0.73 (N) 0.73 (C) 0.73 (S) 50.41 (N) 50.34 (C) 50.46 (S) 45° VERTICAL MJ BEND N=452362.39 E=104264.82 45° VERTICAL MJ BEND N=452410.12 E=104264.64 45° VERTICAL MJ BEND N=452412.44 E=104264.64 45° VERTICAL MJ BEND N=452364.24 E=104264.82 TIE INTO EXISTING WATER MAIN W/ WET TAP & TAPPING VALVE (N) w/ TB N=452358.39 E=104264.82 EXISTING 8" WATERLINE POTHOLE SURVEY ELEVATION (TOP) 5104.14' EXISTING 12" WATERLINE POTHOLE SURVEY ELEVATION (TOP) 5104.97' APPROXIMATE BORE PIT LOCATION APPROXIMATE BORE PIT LOCATION EXISTING 14" IRRIGATION POTHOLE SURVEY ELEVATION (TOP) 5106.26' Date Issue / Description# 5265 Ronald Reagan Blvd., Suite 210 Johnstown, CO 80534 970.800.3300 O www.gallowayUS.com 2016. Galloway & Company, Inc. All Rights Reserved Init. Date: Drawn By: Project No: Checked By: THESE PLANS ARE AN INSTRUMENT OF SERVICE AND ARE THE PROPERTY OF GALLOWAY, AND MAY NOT BE DUPLICATED, DISCLOSED, OR REPRODUCED WITHOUT THE WRITTEN CONSENT OF GALLOWAY. COPYRIGHTS AND INFRINGEMENTS WILL BE ENFORCED AND PROSECUTED. COPYRIGHT H:\High Plains Builders\CO, Fort Collins - HPB000001.01 - Elizabeth & Pear\CADD\4-As Built\HPB1.01_C4.0-UT_AB.dwg LAYOUT NAME: C4.0 DATE: Sep 23, 2019 - 10:29am CAD OPERATOR: kyle_pollock LIST OF XREFS: [x_HPB1.01_TB] [x-HPB1.01_EMap] [x-HPB1.01_Legend_UT] [x-HPB1.01_PBase] [x-HPB1.01_ESite] [x-HPB1.01_EUtil] HPB000001.01 03.30.2018 HIGH PLAINS BUILDERS, LLC P.O. Box 2796 Gillette, WY 82717 307.257.2352 OF 24 SHEETS C4.0 JEP KJPDateCity Engineer Date Date Date Date Stormwater Utility Parks & Recreation Traffic Engineer Date APPROVED: CHECKED BY: CHECKED BY: CHECKED BY: CHECKED BY: CHECKED BY: Water & Wastewater Utility City of Fort Collins, Colorado UTILITY PLAN APPROVAL Environmental Planner NOTES: LEGEND: 8"W 6"W 8"SS PROPOSED WATER MAIN PROPOSED SANITARY SEWER PROPOSED STORM SEWER PROPOSED WATER SERVICE PROPOSED SANITARY SEWER SERVICE EXISTING WATER MAIN EXISTING IRRIGATION EXISTING SANITARY SEWER EXISTING OVERHEAD ELECTRIC PROPOSED FIRE HYDRANT PROPOSED CURB AND GUTTER PROPOSED RIGHT-OF-WAY PROPOSED LOTLINE EASEMENT LINE BUILDING SETBACK PROPERTY BOUNDARY PROPOSED STORM INLET PROPOSED MANHOLE PROPOSED WATER LOWERING 8"SS 12"IRR 1. ALL UTILITY LOCATIONS SHOWN ARE BASED ON MAPS PROVIDED BY THE APPROPRIATE UTILITY COMPANY AND FIELD SURFACE EVIDENCE AT THE TIME OF SURVEY AND IS TO BE CONSIDERED AN APPROXIMATE LOCATION ONLY. IT IS THE CONTRACTOR'S RESPONSIBILITY TO FIELD VERIFY THE LOCATION OF ALL UTILITIES, PUBLIC OR PRIVATE, WHETHER SHOWN ON THE PLANS OR NOT, PRIOR TO CONSTRUCTION. REPORT ANY DISCREPANCIES TO THE ENGINEER PRIOR TO CONSTRUCTION. THE CONTRACTOR SHALL BE RESPONSIBLE TO CALL ALL UTILITY COMPANIES (PUBLIC AND PRIVATE) PRIOR TO ANY CONSTRUCTION TO VERIFY EXACT UTILITY LOCATION. 2. WATER SERVICE PROVIDED BY CITY OF FORT COLLINS. WATER CONSTRUCTION SHALL BE PER CITY OF FORT COLLINS STANDARD CONSTRUCTION SPECIFICATIONS, LATEST EDITION. 3. SEWER SERVICE PROVIDED BY CITY OF FORT COLLINS. SEWER CONSTRUCTION SHALL BE PER CITY OF FORT COLLINS STANDARD CONSTRUCTION SPECIFICATIONS, LATEST EDITION. 4. MINIMUM DEPTH OF COVER OVER WATER MAINS SHALL BE 4.5' AND MAXIMUM COVER SHALL BE 5.5' UNLESS OTHERWISE NOTED. 5. SANITARY SEWER SERVICES SHALL BE SDR-35 PVC AND WATER MAINS SHALL BE AWWA C-900 PVC. 6. ALL WATER FITTINGS AND VALVES ARE ARE NOT TO SCALE AND ARE ONLY GRAPHICALLY REPRESENTED. 7. UTILITY SERVICES SHOWN ARE SCHEMATIC ONLY. EXACT LOCATIONS SHALL BE PER THE REQUIREMENTS OF THE RESPECTIVE UTILITY PROVIDERS, AND ARE SUBJECT TO CHANGE IN THE FIELD. 8. MAINTAIN 10' HORIZONTAL AND 18" VERTICAL MINIMUM SEPARATION BETWEEN ALL SANITARY SEWER MAINS, WATER MAINS & SERVICES. 9. REFER TO THE PLAT FOR LOT, TRACT, EASEMENTS AND OTHER SURVEY INFORMATION. 10. THE LIMITS OF STREET CUT ARE APPROXIMATE. FINAL STREET CUT LIMITS ARE TO BE DETERMINED IN THE FIELD BY THE CITY ENGINEERING INSPECTOR. ALL REPAIRS TO BE PER THE CITY STREET REPAIR STANDARDS. 11. CONTRACTOR SHALL ADJUST EXISTING SANITARY SEWER MANHOLES AND SUBDRAIN CLEANOUTS WITHIN THE RIGHT-OF-WAY PER CITY STANDARDS. ALL MANHOLE RIM ELEVATIONS ARE TO BE ADJUSTED TO 14" BELOW FINISHED GRADE. CONE SECTIONS SHALL BE ROTATED TO PREVENT LIDS BEING LOCATED WITHIN VEHICLE OR BICYCLE WHEEL PATHS. 12. SEE SHEET C1.0 FOR EXISTING BOUNDARY CORNER COORDINATES. 13. WATER METERS TO BE PLACED INSIDE HOUSES BY OTHERS. CURB STOPS SHALL BE PLACED 1' BEHIND BACK OF CURB. OHE S CALL 2 BUSINESS DAYS IN ADVANCE BEFORE YOU DIG, GRADE, OR EXCAVATE FOR THE MARKING OF UNDERGROUND MEMBER UTILITIES. CALL UTILITY NOTIFICATION CENTER OF COLORADO R General Manager REVIEWED BY: Date UTILITY PLAN REVIEW Pleasant Valley and Lake Canal Company REVIEW DOES NOT CONSTITUTE "APPROVAL" OF PLANS. PLAN ENGINEER IS RESPONSIBLE FOR ACCURACY AND COMPLETENESS. ( IN FEET ) 1 inch = ft. 030 30 30 60 90 10 10.02.2018 8" WATERLINE LOCATION 1 1 AB 08/20/19 Record Drawings JEP INV OUT (24" S)=4912.20 4912.48 (N) = NORTH,(C) = CENTER,(S) = SOUTH REPRESENTS RECORD SURVEY DATA PROVIDED BY NORTHERN ENGINEERING DATED: AUGUST 20, 2019 10.24.2018 WATERLINE BORE1 1/19 Page 5 V. Storm Drain Inlets - FCSCM Ch. 9, Sec. 3.0 A. Construction/Installation: All storm drain inlets have been constructed in accordance with the approved construction plans and construction specifications. 1. The size and type of inlets are consistent with the inlets shown on the approved construction plan. Indicate by writing “Verified” on each inlet on the plan sheet or list on a separate document the inlet number(s), type and size (length). If the inlet installed is other than the one on the approved construction plan detail sheet, provide the name and source of the detail with justification for equal or better capacity. 2. The size of the inlet opening is consistent with the approved detail. (Check height and width.) 3. The elevation of the grate (if applicable) is at the elevation shown on the street profile or as indicated by a spot elevation on the construction plans. 4. The as-built invert elevations of all pipes entering and leaving the inlet are shown on the plan and profile sheets within construction tolerance of 0.2 feet. If substantially different, provide justification and capacity calculations to show the capacity is not affected or propose mitigation. 5. The as-built size of the inlet box is as shown on the construction plans or an explanation or justification is attached. 6. All Type C, R, 13 and 16 inlet covers are stenciled or stamped with the following designation (or an equivalent): NO DUMPING – DRAINS TO POUDRE RIVER. VI. Culverts - FCSCM Ch. 9, Sec. 4.0 A. Construction/Installation: All culverts have been constructed and/or installed in accordance with the approved construction plans and construction specifications. 1. All culvert sizes have been verified as indicated on the as-built construction plans as correct. 2. The culvert material type for all culverts installed is as on the approved construction plans and is indicated on the as-built plans. 3. The as-built invert “in and out” elevations have been verified and are indicated on the as-built construction plans. 4. The culvert headwalls or wing walls have been installed as shown on the approved construction plans. Headwalls or wing walls may be needed in the as-built conditions onsite if the slopes adjacent to the culvert are greater than 4:1. Please note areas needing stabilization in the certification narrative. An alternative to consider is a turf reinforcement mat (TRM). VII. Sub-Drains A. Construction/Installation: All sub-drains shown on the construction plans have been installed in accordance with those plans and the construction specifications. Sub-drains installed with the sanitary sewer are to be verified on the sanitary sewer plan and profile sheets of the construction plans. (NOTE: Indicate any sub-drains installed after the plans were approved on the as-built plans.) 1. The size of the sub-drains are as approved on the construction plans and are indicated on the as- built plans. 2. The type of sub-drain, in particular the perforated and non-perforated sections of the drain, are as indicated on the approved construction plans. 1/19 Page 6 3. The cover requirements per the construction plans are provided. 4. The cleanouts have been installed at the locations shown on the construction plans and are accessible for cleaning. (Cleanouts can be buried a maximum of 6 inches deep with their locations marked.) 5. The backfill materials for sub-drains are as shown on the approved construction plans. (This includes the type, depth and width.) 6. The geo-textile liner completely wraps the sub-drain and the permeable backfill material unless shown otherwise on the approved construction plans. (Sub-drain pipe wrapped in a sock filter material is accepted only if approved prior to installation.) VIII. Curb Cuts A. Construction: All curb cut openings are constructed in accordance with the approved construction plans and construction specifications. 1. The size (width) of the curb cut opening is as shown on the approved construction plans. 2. The curb cut openings tie into a downstream swale, pipe, or other appurtenances with a smooth transition and there no obstructions such as riprap or sod impeding the flow downstream of the curb cut. IX. Sidewalk Culverts & Chases A. Construction/Installation: All sidewalk culverts have been installed at the locations shown on the approved construction plans. 1. The size (width and length) of the culverts are as shown on the approved construction plans. 2. The cover plate is a minimum 5/8-inch galvanized plate bolted to a galvanized angle iron per the detail shown on the approved construction plans or per the City’s detail. 3. The sidewalk culvert invert “in and out” elevations have been verified and are indicated on the as-built plans. 4. The sidewalk culvert opening is as shown on the approved construction plans or per the City’s detail. 5. There is a smooth transition both on the inlet and outlet ends of the sidewalk culvert with no obstructions such as riprap or sod impeding the flow into or out of the sidewalk culvert. X. Site Grading - FCSCM Ch. 8 A. Construction: All common open spaces have been graded in accordance with the approved construction plans. 1. The grading on all common open spaces bordering private lots has been verified as correct and the as-built rear lot corner elevations have been shown on the as-built plans. 1/19 Page 7 2. The as-built contours for “overlot grading” are shown on the as-built construction plans for all common open spaces, tracts, outlots, etc. If not in compliance, please attach a narrative describing the situation for noncompliance and when it may be corrected. An escrow for overlot grading may be required. (NOTE: Residential Lot Grading Certification is a separate process from this Overall Site Certification. It is understood that residential lots will be brought to final grade once the foundation is backfilled so they may be lower than the plan shows at this Overall Site Certification stage.) 3. All turf reinforcement mats (TRMs) have been installed as shown on the approved construction plans and the slopes are stabilized. XI. Permanent Erosion Control BMPs - FCSCM Ch. 9, Sec. 7.0 A. Construction: All permanent erosion control BMPs have been installed per the approved construction plans. 1. All riprap has been installed in the locations and sizes indicated on the approved construction plans. 2. All fabric has been installed in the locations and sizes indicated on the approved construction plans. a. All fabric was installed per the details on the approved construction plans. XII. Post-Construction Site Cleanup - FCSCM Ch. 3, Sec. 2.0 A. Construction: All construction debris and obstructions of any kind have been removed from drainage paths. 1. All construction debris has been removed except in staging area(s). 2. All ruts have been smoothed out in all construction areas. 3. All areas needing reseeding have been identified and future stabilization goals have been coordinated with the Erosion Control Inspector and in accordance with FCSCM Vol.2 Chapter 12. Note the area needing stabilization in the narrative. XIII. Certification of LID and Water Quality Facilities - FCSCM Ch. 7 A. Attached are the During Construction Inspection Checklist for Low Impact Development (LID) and other items to be verified during construction, along with pictures and other required documentation. XIV. Certification of Other Permanent BMPs A. The construction of other permanent BMPs not specifically addressed in this certification is in accordance with the approved plan. This may include grade control structures, rundowns, bridges, stream access/improvements, etc. Please specify other permanent BMPs included on this site: 1/19 Page 1 of 2 DURING CONSTRUCTION INSPECTION CHECKLIST To be completed by Construction Superintendent This checklist is to be completed during construction and included with the Overall Site and Drainage Certification. ·Use “Yes” for items completed as described. ·Use “N/A” for items that are not applicable to the site being certified. ·If any blanks are “No,” attach an explanation referencing the item number below. Project Name: Elizabeth Street Farms Date: August 7, 2018 Building Permit Numbers: I.Compaction A.Yes All berms and embankments meet the compaction requirements as specified in the project geotechnical report or comply with the City’s standard, which is “soils should be compacted within a moisture content range of 2% below to 2% above optimum moisture content and compacted to 95% of the Maximum Standard Proctor Density (ASTM D698).”Compaction requires verification during construction. Provide testing log from contractor/engineer. II.Storm Drain Pipe Installation Requirements A.Yes The pipe trenches have been compacted in accordance with Section 02225-3.07.A.1. of the Fort Collins Development Construction Standards for Water, Wastewater, Stormwater (e.g., the trenches in the roadways are to be 95% of maximum density and all other areas are to be at 90%, both in accordance with ASTM D698). III.Energy Dissipation and Erosion Protection - FCSCM Chapter 9, Section 7.0 A.Riprap 1.Yes The riprap bedding is a granular bedding of the gradation and thickness indicated on the approved construction plans. 2.No A filter fabric was installed instead of granular bedding and is the material shown on the approved construction plans or was an approved equal. Provide documentation for an approved equal. 3.Yes The riprap is the gradation shown on the approved construction plans with a D50 of 9 inch. 4.Yes The riprap thickness is as shown on the approved construction plans and extends to the horizontal limits shown. 5.Yes The riprap is buried to the depth indicated on the approved construction plans. (A minimum of 6 inches of soil is required.) B.Permanent Erosion Control Fabric - FCSCM Vol.1, Ch.7 1.No All fabric was installed per manufacturer’s specifications. 1/19 Page 2 of 2 IV.Other Permanent BMPs A.No All cut-off walls have been installed in accordance with the approved construction plans. (Cut-off walls are required for irrigation ditch crossings of storm drain pipes.) V.Extended Detention Basins A.No Installation of this facility was verified via inspection by a City-Stormwater Inspector at the point of installation of the water quality control box(es). Provide date of inspection and name of inspector: Included certification sheet(s): Please check the appropriate box(es) for the Low Impact Development (LID) facilities found on this site and complete the corresponding certification sheets. ☐ Permeable Interlocking Concrete Pavers ☐ Bioretention Cells (Rain Gardens) ☐ Sand Filters ☐ Vegetated Buffers ☐ Underground Infiltration ☐ Other LID – For certification of Dry Wells, Tree Filters, Constructed Wetland Channels & Ponds, etc., contact City Staff to determine requirements to exhibit the LID facility has been constructed and functions as intended per the approved drainage report. *Please provide photographic documentation of the installation of all stages of all LID facilities. **Please contact the City Stormwater Inspector at stormwaterinspection@fcgov.com to discuss inspection requirements for each LID facility and request inspections. ***All facilities being certified must be “clean” – free of sediment & construction debris – prior to certification or acceptance of the facility. Completed by: Name: Title: Email: Phone: Company: Address: 1/19 Page 1 of 2 Permeable Interlocking Concrete Pavers Item/Activity Yes No N/A Submittal Requirements Submitted?/Response Stormwater Inspection Pre-construction meeting was held with City-Stormwater Inspector to discuss installation, inspection, checklist, and protection from sedimentation ☐☐☒ Record date, inspector name, meeting location (i.e. DCP, initial erosion control inspection, etc.) Sub-surface inspection(s):Installation of this facility was verified via inspection by a City-Stormwater Inspector at the point of installation of the outlet, underdrain, geomembrane layer, and sub-base courses (per design in Final Plan Documents) ☐☐☒ Record date(s) of inspection and inspector’s name Surface inspection(s): Installation of this facility was verified via inspection by a City-Stormwater Inspector at the point of installation of the pavers and joint fill material ☐☐☒ Record date(s) of inspection and inspector’s name Excavation Heavy equipment did not encroach into the excavated area (prevents over-compaction)☐☐☒ Bottom of cell was “ripped” after excavation ☐☐☒Provide photographs before and after “ripping” Bottom surface of cell is flat and level ☐☐☒Provide photograph Impermeable Liner Impermeable liner meets design specifications ☐☐☒Provide specifications of delivered material Impermeable liner is attached to concrete perimeter wall ☐☐☒Provide photograph Impermeable liner is buried with no exposure ☐☐☒ Any penetrations of the impermeable liner have been sealed and checked for water-tightness ☐☐☒Provide photograph (if necessary) Edge Restraint and Concrete Cut-Off Wall The required edge restraint meets design specifications ☐☐☒Provide specification of installation Concrete cut-off wall meets design specifications for:☐☐☒Provide specification of installation - Dimensions ☐☐☒ - Reinforcement ☐☐☒ - Footings ☐☐☒ Underdrain System Underdrain pipe meets design specifications ☐☐☒Provide photograph At least one cleanout is provided per underdrain lateral ☐☐☒Provide photograph 1/19 Page 2 of 2 Cleanout pipe is solid (not perforated/slotted)☐☐☒Provide photograph Cleanout covers are installed and watertight ☐☐☒Provide photograph Verify the underdrain is NOT wrapped in geotextile fabric ☐☐☒Provide photograph Verify there is no orifice plate on the underdrain outfall ☐☐☒Provide photograph Underdrain integrity tested after backfilling using TV and/or water test ☐☐☒Provide documentation of test results Aggregate Sub-base Course(e.g., #2/4): - Has 90% fractured faces - Is thoroughly washed (virtually free of fine sediment) - Is installed to the required design depth ☐☐☒ Provide load ticket, photographs, and record depth installed Basecourse (e.g., #57): - Has 90% fractured faces - Is thoroughly washed (virtually free of fine sediment) - Is installed to the required design depth ☐☐☒ Provide load ticket, photographs, and record depth installed Leveling Course / Joint Fill (e.g., crushed #89): - Has 90% fractured faces - Is thoroughly washed (virtually free of fine sediment) - Is dry screened - Is installed to the required design depth and to the top of the paver joints ☐☐☒ Provide load ticket, photographs, and record depth installed Aggregate materials are installed and compacted according to manufacturer’s and/or design specifications ☐☐☒Provide photographs and documentation of compaction Protection During Construction PICP area is protected from construction site sediment, including runoff from the upstream catchment and construction equipment traffic ☐☐☒ Specify how the area was covered and/or otherwise protected to prevent construction runoff from entering the pavement Close Out Cracked/broken paver units have been removed and replaced ☐☐☒ Paver height offsets are no more than 1/4” between adjacent units & surface contains no deformations (depressions/settlement) exceeding 1/2" ☐☐☒ Upstream catchment is stabilized prior to diverting runoff into PICP system ☐☐☒ 1/19 Page 1 of 3 Bioretention Cells (Rain Gardens) Item/Activity Yes No N/A Submittal Requirements Submitted?/Response Stormwater Inspection Pre-construction meeting was held with City-Stormwater Inspector to discuss installation, inspection, checklist, and protection from sedimentation ☐☐☒ Record date, inspector name, meeting location (i.e. DCP, initial erosion control inspection, etc.) Underdrain and basecourse inspection(s):Installation of this facility was verified via inspection by a City-Stormwater Inspector at the point of installation of the outlet, underdrain, geomembrane layer, and base course (per design in Final Plan Documents) ☐☐☒ Record date(s) of inspection and inspector’s name Pea gravel and BSM inspection(s):Installation of this facility was verified via inspection by a City-Stormwater Inspector at the point of installation of the pea gravel and bioretention sand media ☐☐☒ Record date(s) of inspection and inspector’s name Excavation Heavy equipment did not encroach into the excavated area (prevents over-compaction)☐☐☒ Bottom of cell was “ripped” after excavation ☐☐☒Provide photographs before and after “ripping” Bottom surface of cell is flat and level ☐☐☒Provide photograph Excavated area is protected/surrounded by sediment/runoff control measures during construction ☐☐☒Provide photograph Intake Upstream catchment drains to inlet/bioretention cell per plan and flows are fully captured ☐☐☒ Forebay Forebay is installed according to design specifications ☐☐☒Provide photograph There is a minimum 3” drop at the forebay entrance ☐☐☒Provide photograph Forebay will drain fully and not hold standing water ☐☐☒ Outlet Structure/Overflow Emergency overflow elevation is confirmed ☐☐☒ Measure and record distance from overflow to top of media filter; provide photograph Overflow inlet elevation is set above bioretention media per plan ☐☐☒Provide photograph 1/19 Page 2 of 3 Overflow inlet invert elevation is at least 3 inches below containment wall/berm (to direct overflow into inlet)☐☐☒ Measure and record distance between inlet and top of containment wall/berm; provide photograph Overflow path and check dams, if used, are armored to protect from erosion and maintain elevations ☐☐☒Provide photograph Impermeable Liner Impermeable liner meets design specifications ☐☐☒Provide specifications of delivered material Impermeable liner is appropriately anchored ☐☐☒Provide photograph Impermeable liner is buried with no exposure ☐☐☒ Any penetrations of the impermeable liner have been sealed and checked for water-tightness ☐☐☒Provide photograph (if necessary) Underdrain System Underdrain pipe meets design specifications ☐☐☒Provide photograph At least one cleanout is provided per underdrain lateral ☐☐☒Provide photograph Cleanout pipe is solid (not perforated/slotted)☐☐☒Provide photograph Cleanout covers are installed and watertight ☐☐☒Provide photograph Verify the underdrain is NOT wrapped in geotextile fabric ☐☐☒Provide photograph Verify there is no orifice plate on the underdrain outfall ☐☐☒Provide photograph Underdrain integrity tested after backfilling using TV and/or water test ☐☐☒Provide documentation of test results Filter Media and Aggregate Reservoir aggregate layer (ASTM #57 or #67): -meets design specifications -is installed to the required design depth ☐☐☒ Provide load ticket, photographs, and record depth installed Diaphragm aggregate layer (“Pea Gravel” with gradation ASTM #8, #89, or #9): -meets design specifications -is installed to the required design depth ☐☐☒ Provide load ticket, photographs, and record depth installed Bioretention Sand Media (BSM) composition: -meets design specifications -is installed to the required design depth ☐☐☒ Provide load ticket, photographs, and record depth installed BSM was “machine mixed” by supplier prior to delivery ☐☐☒Provide load ticket BSM is installed flat and level ☐☐☒Provide photograph Other Structural Components Containment wall/berm is continuous and level ☐☐☒ Landscaping 1/19 Page 3 of 3 Verify final landscaping is free of sod ☐☐☒If sod is used, it must be shown to be “sand-grown” Final landscaping (non-floatable mulch) is flat and level ☐☐☒Provide photograph Vegetation is planted according to landscape design specifications and final landscaping plan ☐☐☒Provide photograph Verify that weed barrier is NOT installed ☐☐☒ Temporary irrigation installed ☐☐☒ If N/A, then verify that permanent irrigation is installed to establish/maintain vegetation Close Out Upstream catchment stabilized prior to diverting runoff into bioretention cell ☐☐☒ 1/19 Page 1 of 1 Vegetated Buffers Item/Activity Yes No N/A Submittal Requirements Submitted?/Response Construction Buffer area was sectioned off to eliminate site disturbance and compaction during construction ☐☐☒Provide photograph(s) Level spreader has been installed per plan (if applicable)☐☐☒Provide photograph Soils in the buffer area have been amended ☐☐☒Record soil amendment certification with Environmental & Regulatory Affairs Vegetation is planted according to landscape design specifications and final landscaping plan ☐☐☒Provide photograph 1/19 Page 1 of 3 Sand Filters Item/Activity Yes No N/A Submittal Requirements Submitted?/Response Stormwater Inspection Pre-construction meeting was held with City-Stormwater Inspector to discuss installation, inspection, checklist, and protection from sedimentation ☐☐☒ Record date, inspector name, meeting location (i.e. DCP, initial erosion control inspection, etc.) Underdrain and basecourse inspection(s):Installation of this facility was verified via inspection by a City-Stormwater Inspector at the point of installation of the outlet, underdrain, geomembrane layer, and base course (per design in Final Plan Documents) ☐☐☒ Record date(s) of inspection and inspector’s name Pea gravel and filter media inspection(s):Installation of this facility was verified via inspection by a City-Stormwater Inspector at the point of installation of the pea gravel and filter media ☐☐☒ Record date(s) of inspection and inspector’s name Excavation Heavy equipment did not encroach into the excavated area (prevents over-compaction)☐☐☒ Bottom of cell was “ripped” after excavation ☐☐☒Provide photographs before and after “ripping” Bottom surface of cell is flat and level ☐☐☒Provide photograph Excavated area is protected/surrounded by sediment/runoff control measures during construction ☐☐☒Provide photograph Intake Upstream catchment drains to inlet/sand filter per plan and flows are fully captured ☐☐☒ Forebay (If Applicable) Forebay is installed according to design specifications ☐☐☒Provide photograph There is a minimum 3” drop at the forebay entrance ☐☐☒Provide photograph Forebay will drain fully and not hold standing water ☐☐☒ Outlet Structure/Overflow Overflow inlet elevation is set above sand filter media per plan (typically 1 to 3 feet)☐☐☒Provide photograph Overflow inlet invert elevation is at least 3 inches below containment wall/berm (to direct overflow into inlet)☐☐☒ Measure and record distance between inlet and top of containment wall/berm; provide photograph 1/19 Page 2 of 3 Overflow path and check dams, if used, are armored to protect from erosion and maintain elevations ☐☐☒Provide photograph Impermeable Liner (If Applicable) Impermeable liner meets design specifications ☐☐☒Provide specifications of delivered material Impermeable liner is appropriately anchored to the perimeter wall ☐☐☒Provide photograph Impermeable liner is buried with no exposure ☐☐☒ Any penetrations of the impermeable liner have been sealed and checked for water-tightness ☐☐☒Provide photograph (if necessary) Underdrain System Underdrain pipe meets design specifications ☐☐☒Provide photograph At least one cleanout is provided per underdrain lateral ☐☐☒Provide photograph Cleanout pipe is solid (not perforated/slotted)☐☐☒Provide photograph Cleanout covers are installed and watertight ☐☐☒Provide photograph Verify the underdrain is NOT wrapped in geotextile fabric ☐☐☒Provide photograph Verify there is no orifice plate on the underdrain outfall ☐☐☒Provide photograph Underdrain integrity tested after backfilling using TV and/or water test ☐☐☒Provide documentation of test results Filter Media Filter media composition (e.g. ASTM C 33 Sand): -meets design specifications -is installed to the required design depth ☐☐☒ Provide load ticket, photographs, and record depth installed Pea gravel layer: -meets design specifications -is installed to the required design depth ☐☐☒ Provide load ticket, photographs, and record depth installed Filter Media is installed flat and level ☐☐☒ Other Structural Components Containment wall/berm is continuous and level ☐☐☒ Landscaping Verify final landscaping is free of sod ☐☐☒ If sod is used, it must be shown to be “sand-grown” Final landscaping (non-floatable mulch) is flat and level ☐☐☒Provide photograph Vegetation is planted according to landscape design specifications and final landscaping plan ☐☐☒Provide photograph Verify that weed barrier is NOT installed ☐☐☒ 1/19 Page 3 of 3 Temporary irrigation installed ☐☐☒ If N/A, then verify that permanent irrigation is installed to establish/maintain vegetation Close Out Upstream catchment stabilized prior to diverting runoff into sand filter cell ☐☐☒ 1/19 Page 1 of 2 Underground Infiltration Item/Activity Yes No N/A Submittal Requirements Submitted?/Response Stormwater Inspection Manufacturer’s representative pre-construction meeting: A pre-construction meeting was completed with the manufacturer’s representative and installers ☐☐☒ Record date and who was present at the meeting Pre-construction meeting was held with City-Stormwater Inspector to discuss installation, inspection, checklist, and protection from sedimentation ☐☐☒ Record date, inspector name, meeting location (i.e. DCP, initial erosion control inspection, etc.) Inspection(s):Installation of this facility was verified via inspection by a City-Stormwater Inspector at the point at which the chambers had been laid/prior to backfilling. Correct fabric placement was confirmed. ☐☐☒ Record date(s) of inspection and inspector’s name Excavation Heavy equipment did not travel across underground cell area during excavation (prevents over-compaction)☐☐☒ Bottom of cell was “ripped” after excavation ☐☐☒Provide photographs before and after “ripping” Bottom of cell is flat and level, or graded per approved grading plans ☐☐☒Provide photograph Non-woven fabric is installed per manufacturer’s specifications and was not damaged during construction (around system)☐☐☒Provide photograph Woven fabric is installed per manufacturer’s specifications and was not damaged during construction (beneath chambers)☐☐☒Provide photograph Excavated area is protected/surrounded by sediment/runoff control BMPs during construction ☐☐☒Provide photograph Impermeable Liner Impermeable liner meets design specifications ☐☐☒Provide specifications of delivered material Impermeable liner is not exposed ☐☐☒ Any penetrations of the impermeable liner have been sealed and checked for water-tightness.☐☐☒Provide photograph (if necessary) Aggregate Foundation and embedment materials are installed and compacted according to design and manufacturer’s specifications ☐☐☒ Provide load ticket and photograph(s) Underdrain System 1/19 Page 2 of 2 Underdrain pipe meets design specifications ☐☐☒Provide photograph At least one cleanout is provided per underdrain lateral ☐☐☒Provide photograph Cleanout pipe is solid (not perforated/slotted)☐☐☒Provide photograph Cleanout covers are installed and watertight ☐☐☒Provide photograph Verify the underdrain is NOT wrapped in geotextile fabric ☐☐☒Provide photograph Verify there is no orifice plate on the underdrain outfall ☐☐☒Provide photograph Underdrain integrity tested after backfilling using TV and/or water test ☐☐☒Provide documentation of test results Manifold system Overflow weir elevation is set at/above water quality storm elevation ☐☐☒Record weir elevation on survey Maintenance access is provided for each Isolator Row ☐☐☒ At least one inspection port has been provided for each Isolator Row (located in middle third of each row)☐☐☒ Upstream catchment drains to inlet/intake properly ☐☐☒ Underground Detention Chambers All chambers were installed per approved Utility Plans and manufacturer’s specifications ☐☐☒Photograph Close Out Upstream catchment is stabilized prior to diverting runoff into Underground Detention system ☐☐☒ All Isolator Rows, chambers, and pipes are cleaned and sediment/debris has been removed ☐☐☒