The URL can be used to link to this page

Home My WebLink AboutO&M Manual 07-17-19 O&M MANUAL VALVOLINE INSTANT OIL CHANGE 9835 Michigan Road – Lot ‘1A’ of North Augusta Carmel, Indiana 46032 Job #: VIOC.001 Date: 07/17/19 Prepared by: Kyle Blanck Reviewed by: Brian Cross, P.E. 160 West Carmel Drive, Suite 240 Carmel, Indiana 46032 Phone: 317-423-3305 Fax: 317-423-3306 TABLE OF CONTENTS Section I: Manual A. About the BMP B. Contact Information for BMP owner C. BMP Owner Acknowledgement Agreement D. Right –of-Entry Statement E. BMP Description & Operation F. Maintenance Requirements G. Site Drawings H. Inspection Report I. Spills, Reporting, Containment & Response Per 327 IAC 2-6.1-1 Section II: Appendix A. BMP Owner Acknowledgment Agreement B. Right-of-Entry Statement C. Site Drawings D. Stormwater Quality Data E. Maintenance Guidelines F. Inspection Report SECTION I: MANUAL A. About the BMP A Water quality BMP is a device or methodology used to remove total suspended solids (TSS) and free oil (TPH) from storm water run-off. This device or methodology, with proper maintenance, will filter the storm water run-off, to help prevent downstream contamination of streams and waterways. There are multiple BMP’s that will be located on the subject site and will satisfy the post construction stormwater quality for the proposed improvements. B. Contact Information for the BMP Owner i. Midland Atlantic Properties (ATTN: Kelly Boyle) ii. Address: 9000 Keystone Crossing, Suite 800; Indianapolis, IN 46240 iii. Phone: 317-580-9900 iv. Email: kboyle@midlandatlantic.us C. BMP Owner Acknowledgement Agreement See appendix A. D. Right-of-Entry Statement Allows the City of Carmel to inspect and maintain the BMP structure as necessary. See appendix B. E. BMP Description & Operation The stormwater runoff from the site will discharge into a Stormwater Quality Treatment unit manufactured by Hydro-International known as a First Defense® Storm Water Quality Unit. This hydrodynamic separation method will capture the required Total Suspended Solids (TSS) along with floating debris and hydrocarbons prior to discharging into the existing master planned detention pond system. We have selected a 4-foot diameter model with a maximum Treatment Flow Rate for this sized structure 1.5 cfs. The calculated peak discharge treatment rate for the proposed site improvements routed through the 4-foot diameter models is 0.68 cfs. First Defense® is an approved Stormwater Quality Unit (SQU) in an off-line configuration and meets all the requirements of the City of Carmel Stormwater Technical Standard Manual; therefore, the Downstream Defender® Storm Water Quality Unit is an ideal fit for this development. The Connecting/Diversion Structure with Sump into the Downstream Defender should be periodically cleaned and maintained as a BMP. For more information concerning the BMP locations/structures, see appendix C. F. Maintenance Requirements i. See appendix E ii. See appendix E iii. See appendix E iv. See appendix E v. Property Management Company – Convenience Centers, LLC G. Site Drawings i. See appendix C ii. See appendix C iii. See appendix C iv. See appendix C H. Inspection Reports The first inspection report is due one year after construction is completed, with subsequent reports due each year within the same month of the initial report. If there are any deficiencies found during the inspection, these should be addressed. If the inspection report is not received within the month it is due, if there are deficiencies which were not included in the report, or if any deficiencies included in the report are not addressed in a timely manner, the BMP owner faces enforcement action from the City. See appendix D for inspection form. A written yearly inspection report must be submitted to: City Hall – Department of Engineering Attn: Stormwater Administrator One Civic Square Carmel, IN 46032 I. Spills, Reporting, Containment & Response Per 327 IAC 2-6.1-1 327 IAC 2-6.1-1 Applicability Authority: IC 13-14-8-7 Affected: IC 13-11-2; IC 13-18-1; IC 13-18-3; IC 13-18-8; IC 13-18-17 Sec. 1. This rule applies to the reporting and containment of, and the response to those spills of hazardous substances, extremely hazardous substances, petroleum, and objectionable substances that are of a quantity, type, duration and in a location as to damage the waters of the state. Nothing in this rule is intended to affect reporting or clean-up requirements set forth by other Federal, State, or Local laws. (Water Pollution Control Board; 327 IAC 2-6.1-1; filed Feb 25, 1997, 1:00 p.m.: 20 IR 1731; readopted filed Jan 10, 2001, 3:23 p.m.: 24 IR 1518; readopted filed Nov 21, 2007, 1:16 p.m.: 20071219-IR-327070553BFA) "Spill" means any unexpected, unintended, abnormal, or unapproved dumping, leakage, drainage, seepage, discharge, or other loss of petroleum, hazardous substances, extremely hazardous substances, or objectionable substances. The term does not include releases to impermeable surfaces when the substance does not migrate off the surface or penetrate the surface and enter the soil. Spill Emergency Contact Midland Atlantic Properties ATTN: Kelly Boyle Address: 9000 Keystone Crossing, Suite 800; Indianapolis, IN 46240 Phone: 317-580-9900 Email: kboyle@midlandatlantic.us SECTION II: APPENDIX A. BMP Owner Acknowledgment Agreement Owner Acknowledgement Agreement (“Agreement”) For good and valuable consideration, the receipt and sufficiency of which are hereby acknowledged, the undersigned owner (“Owner”) hereby submits this Operation and Maintenance Manual (“Manual”) to the City of Carmel, Indiana (“City”) as a written acknowledgement of Owner’s warranty and agreement to institute, maintain, and follow the water quality Best Management Practices (“BMPs”) listed below, and to follow and abide by the inspection schedule and maintenance activities listed in this Manual. The Owner also hereby agrees to provide, at Owner’s cost, all additional maintenance, repair, and/or replacement services reasonably necessary to maintain the function and longevity of the BMPs from and including the date this Agreement is executed by Owner to and including the date on which a new Agreement is filed with the City by another party who assumes all of the obligations and responsibilities of Owner as set forth herein. BMPs: ___________________________________________________ ___________________________________________________ ___________________________________________________ _______________________________ ________________________ Owner Signature Date _______________________________ ______________________________ Printed Name Company STATE OF INDIANA ) ) SS: COUNTY OF HAMILTON ) BEFORE ME, the undersigned, a Notary Public in and for said County and State, personally appeared _________________________________ Owner subscribed and sworn before this ____ day of __________________, ________. ______________________________ ______________________________ County of Residence Signature ______________________________ Commission Expiration Date ______________________________ Printed Name B. Right-of-Entry Statement RIGHT-OF-ENTRY STATEMENT The current property owner and all heirs, successors, & assigns grants permission and allows the City of Carmel and their employees, contracted parties, and constituents the right-of-entry on 9835 Michigan Road (Lot ‘1A’ of North Augusta & West Carmel Marketplace Block ‘H’) to inspect and maintain the BMPs as noted on the Valvoline Instant Oil Change construction plans, Project Number VIOC.001, First Defense Structure BMP, Diversion Manhole Structure 100, as referenced on drawing sheet numbers C3.1 and C7.2, certified: 07/17/19. C. Site Drawings 2,077± G S F F.F.E. = 8 8 5. 2 5 EX. "NO BUILD" LINE E EXISTING POND "E" NORMAL POOL = 874.0 100-YR STAGE = 881.14 WA L N U T C R E E K D R I V E EX. CURB INLET T.C.=883.3 GUT=882.8 INV.=879.25 (SW - 15" RCP) EX. STORM MH T.C.=882.94 EX. END SECTION INV.=875.52 (W - 30" RCP) EX. STORM MH T.C.=883.35 INV.=876.48 (N - 30" RCP) INV.=876.46 (E - 30" RCP) INV.=877.50 (W - 18" RCP) NEW 5'Ø STORM MANHOLE (REMOVE/REPLACE EX. BEEHIVE INLET AS NECESSARY PER CARMEL STDS.) T.C.=883.15 INV.=877.55 (E - 18" RCP) INV.=878.15 (W - 12" RCP) INV.=878.10 (12" TO BMP) INV.=878.0 (12" FROM BMP) EX. 1 8" R C P MLAG DESIGN TOP OF CURB GRADE = 883.37 TBM #1 ELEV.=883.55' TBM #51 ELEV.=883.98' EX. 30" RC P 144'± O F 8 " Ø S D R 3 5 PVC @ 1 . 0 0 % M I N . (CON N E C T A L L R O O F DRAIN S T Y P . )MICHIGAN ROAD (US 421)WA L N U T C R E E K D R I V EWALNUT CREEK DRIVE 57'± O F 8 " Ø S D R 3 5 PVC @ 1 . 0 0 % M I N . (CON N E C T A L L R O O F DRAIN S T Y P . ) FL FL T T T W F FC F W FC PROJECT NUMBER DRAWING NUMBER SHEET OF SCALE: DATE: DWN BY: CHKD. BY:CIVIL SITE GROUP, INC.GROUP, INC.PROF E SS ION A L E NG INEERIND IA NA PE10910647 STATE OF -oNREGIS TER E DBR IA N S CR O SSVIOC.001 C3.0LEXINGTON, KY 40509100 VALVOLINE WAYVALVOLINE INSTANT OIL CHANGEGRADING & DRAINAGE PLANVALVOLINE INSTANT OIL CHANGE9835 MICHIGAN ROAD - LOT '1A' of NORTH AUGUSTACARMEL, INDIANA 46032REVISION RECORD 07/17/2019 NOTE REFER TO ARCHITECTURAL & FOUNDATION PLANS FOR ALL BUILDING DIMENSIONS. TOPOGRAPHIC & BOUNDARY NOTE UTILITY LOCATE NOTE LEGEND: 18 " OF VERTICAL SEPARATION MUST BE MAINTAINED FOR ALL UTILITY CROSSINGS. ALL CONCRETE PIPE JOINTS SHALL BE CONTINUOUS O-RING RUBBER GASKET CONFORMING TO ASTM C 443 FLOOD NOTE UTILITY VALVE NOTE STORM SEWER INLET NOTE ALL STORM WATER INLETS & CATCH BASIN CASTINGS SHALL BE LABELLED WITH ENVIRONMENTAL MESSAGING "NO DUMPING, DRAINS TO STREAM" CAST IN RAISED OR RECESSED LETTERS AT A MIN. 1-INCH HEIGHT. A SYMBOL OF A FISH SHALL ALSO BE CAST WITH THE LETTERS NOTE GRADING NOTES GENERAL NOTES CONTRACTOR TO KEEP EXISTING PAVEMENT SURROUNDING THE SITE (I.E. MICHIGAN ROAD AND WALNUT CREEK DRIVE) "BROOM CLEAN" AND FREE OF SOIL OR AGGREGATE THAT MIGHT BE BROUGHT OFF-SITE. DEPENDING ON THE CONSTRUCTION SEASON, MOISTURE CONTENT AND PROPERTIES OF THE SOILS ON SITE, CHEMICAL MODIFICATIONS AND/OR LIME STABILIZATION MAY BE REQUIRED. SEE SHEET C9.0 FOR SPECIFICATIONS. ALL CONCRETE PIPE JOINTS SHALL BE CONTINUOUS O-RING RUBBER GASKET CONFORMING TO ASTM C 443 CONTRACTOR (NOT THE PROJECT SITE OWNER) WILL BE RESPONSIBLE FOR THE DISPOSAL OF ANY SOIL, MATERIALS, ETC. NO OFF-SITE BORROWS OR STOCKPILES WILL BE NEEDED FOR THIS PROJECT. CONTRACTOR SHALL SUBMIT PRECAST STORM SEWER STRUCTURE SHOP DRAWINGS TO ENGINEER FOR REVIEW/APPROVAL PRIOR TO MANUFACTURING. EXISTING CONDITIONS NOTE CONTRACTOR TO VERIFY ALL EXISTING CONDITIONS, INCLUDING UTILITIES AND DRAINAGE INFRASTRUCTURE BEFORE COMMENCING WITH CONSTRUCTION. CONTRACTOR TO NOTIFY ENGINEER OF ANY DISCREPANCIES. EXISTING RIGHT-OF-WAY NOTE DAMAGE TO THE EXISTING RIGHT-OF-WAY SHALL BE RESTORED/REPAIRED TO THE SATISFACTION OF THE CITY AT THE COMPLETION OF THE PROJECT. THE CONTRACTOR IS ENCOURAGED TO INSPECT THE RIGHT-OF-WAY WITH THE CITY PRIOR TO THE START OF CONSTRUCTION TO DOCUMENT THE EXISTING CONDITION OF THE RIGHT-OF-WAY. BENCHMARK MINIMUM FLOOD PROTECTION GRADE & LOWEST ADJACENT GRADE DEFINITIONS This project is located at the northeast corner of the intersection of Michigan Road and 98th Street in Hamilton County, City of Carmel, Indiana. The site will consist of one (1) platted parcel totaling 0.98 +/- acres in size. There is no off-site or upstream acreage being routed through the site. The site is currently vacant and is covered entirely by greenspace with existing utility and storm infrastructure surrounding the site. The proposed improvements will consist of a new automobile service shop along with the associated utility and drainage infrastructure and new hard surface for parking and ingress / egress. Inlets and subsurface storm sewers will be used to convey storm water to the previously approved Walnut Creek Drive infrastructure. Storm water will be routed to and collected by the North Augusta Arm #1-Crooked Creek Regulated Drain. Approved design plans (11/2009) for the North Augusta Arm #1-Crooked Creek Regulated Drain are on file with the Hamilton County Surveyor's Office. The stormwater detention pond system of West Carmel Marketplace includes the subject site with post-developed conditions in an updated analysis performed by Woolpert, LLP in June, 2007 and reviewed / approved by the Hamilton County Surveyor's Office (Letter on File). The proposed improvements will result in a curve number (CN) of 88.8 and a runoff coefficient (C) of 0.57 for the 0.98 acre outlot; therefore, substantially less than the previously approved drainage master plan. Additional stormwater detention for the subject outlot is NOT required. The allowable release rates for the 0.98 +/- acre subject site would be 0.1 cfs and 0.29 cfs for the 10-year and 100-year storm events respectively. However, detention for the subject site is provided for within the West Carmel Marketplace Development. The developed 10-year and 100-year release rates from the subject site (prior to detention) are XXX cfs and XXX cfs respectively. The required detention volume for the subject site is provided for within the drainage master plan of West Carmel Marketplace (see drainage calculations referenced above prepared by Woolpert). The applicable pages from the Approved Master Plan are in the Appendix of the drainage report for this project. DRAINAGE SUMMARY We have shown three (3) top-of-curb grades on Michigan Road and four curb/gutter grades along Walnut Creek Drive. The lowest on each of two are 883.37 (Michigan Road T.O.C.) and 883.0 (Walnut Creek Drive gutter grade). The minimum F.F.E. is to be at 15” above the Michigan Road Grade (883.37 - highest of the two), which is 884.62. The F.F.E. has been set at 885.25. The local flood overflow route for the storm inlets is 883.50; therefore, one (1) foot above the aforementioned elevation would be 884.50, which represents the MFPG . The 100-year elevation of the off-site pond is 881.14 and does not come into play. Therefore, the MLAG/MFPG has been set at 884.50. The minimum F.F.E. shall be no less than 6" above finished grade around the building, which results in a minimum F.F.E. of 885.0. The MFPG and MLAG are calculated correctly and the set F.F.E. of 885.25 is in compliance with the STSM. STRUCTURE DATA TABLE ALL PROPERTY CORNER MONUMENTS SHOULD BE MARKED PRIOR TO COMMENCING WITH CONSTRUCTION AND PROTECTED DURING ALL CONSTRUCTION ACTIVITY. PROPERTY CORNER MONUMENTS NOTE STORM SEWER SYSTEM NOTE ALL STORM SEWER INFRASTRUCTURE TO BE CONSTRUCTED WITH THIS PROJECT SHALL BE PRIVATELY OWNED AND MAINTAINED BY CURRENT PROPERTY OWNER & ALL HEIRS, SUCCESSORS, & ASSIGNS. STRUCTURE DETAILS DETAILS OF THE PROPOSED STORMWATER QUALITY UNIT & THE DIVERSION MANHOLE STRUCTURE ARE LOCATED ON SHEET C7.2. BMP & DIVERSION PRELI MI NA RY NOT F O R C O NST R U CTI O N PLAN NOTES: T FL ENGINEER: SURVEYOR: OWNER: ARCHITECT: W F FC JL 11/5/15 SUMP DEPTH REVISION HISTORY REV BY DATE DESCRIPTION AA Parts List DESCRIPTIONSIZE (in)ITEM I.D. PRECAST MANHOLE481 SEPARATION MODULE 2 LEDGER SUPPORT 3 INLET PIPE (BY OTHERS)244 OUTLET PIPE (BY OTHERS)245 6 FRAME AND COVER (OR GRATE) (ROUND)30 Rev. Approved Scale C Hydro International CAD Ref: Project Drawn Date Title Checked No. No. Drawing 2014 Notes Any warranty made by Hydro International only applies to those items supplied by it. Hydro International does not accept and expressly disclaims any responsibility or liability for any structure, plant or equipment (or the performance thereof) designed, built, manufactured or supplied by any third-party. Hydro International has a policy of continuous product development and reserves the right to amend the specifications of any of its products or equipment at any time. Hydro International expressly disclaims any liability for the performance of its equipment (or any part thereof) used or made subject to conditions outside of the conditions set forth in Hydro International's design specifications. Hydro International owns the copyright in and to this drawing, which is supplied in confidence, and all intended recipients of the drawing, by their use thereof, agree to hold the drawing in confidence and not to use it for any purpose other than for which it was supplied and not reproduce, in whole or in part, the drawing or any of the equipment or structures depicted therein, without prior written permission of Hydro International. GENERAL ARRANGEMENT HIGH CAPACITY 1/4" = 1'0" F HC-MAX AF HCS1 xx-xxxx 11/25/14 RC 14 1 6 4 5 5 3 2 3 2 GENERAL NOTES: 1. General Arrangement drawings only. Contact Hydro International for site specific fabrication drawings. 2. The diameter of the inlet & outlet pipes may be no more than 24". 3. Multiple inlet pipes possible (refer to project plans). 4. Inlet/outlet pipe angle can vary to align with drainage network (refer to project plans). 5. Peak flow rate and minimum height limited by available cover and pipe diameter. 6. Larger sediment storage capacity may be provided with a deeper sump depth. PRODUCT SPECIFICATIONS: A.The treatment system shall use an induced vortex to separate pollutants from stormwater runoff. B.The treatment system shall fit within the limits of excavation (area and depth) as shown in the project plans and will not exceed the dimensions for the design flow rates specified herein. C.The treatment system shall remove greater than or equal to 90% of TSS based on the Target Particle Size (TPS) of 106 microns and/or 80% of TSS based on the TPS of 230 microns at 0.7 cfs and 1.2 cfs, respectively. D.The treatment system shall convey the Peak On-line Flow Rates of up to 18 cfs without causing upstream surcharge conditions. Full-scale independent laboratory scour testing shall demonstrate effluent control of less than or equal to 5 mg/L for all flows up to 200% of MTFR-106. E.The treatment system shall be capable of capturing and retaining fine silt and sand size particles. Analysis of captured sediment from full-scale field installations shall demonstrate particle sizes predominately in the 20-micron range SUMP: 0 in / 0.00 ft VARIES (SEE NOTE 5) PREASSEMBLY REFERENCE: 41 1/2 in / 3.46 ft PIPE INVERTS: 59 5/8 in / 4.97 ft SECTION A-A Inlet pipe(s) can enter anywhere within 240° arc. BOTTOM OF INTERNALS: 27 in / 2.25 ft A PROJECT NUMBER DRAWING NUMBER SHEET OF SCALE: DATE: DWN BY: CHKD. BY:CIVIL SITE GROUP, INC.GROUP, INC.PROF E SS ION A L E NG INEERIND IA NA PE10910647 STATE OF -oNREGIS TER E DBR IA N S CR O SSVIOC.001 C7.2LEXINGTON, KY 40509100 VALVOLINE WAYVALVOLINE INSTANT OIL CHANGEGENERAL DETAILSVALVOLINE INSTANT OIL CHANGE9835 MICHIGAN ROAD - LOT '1A' of NORTH AUGUSTACARMEL, INDIANA 4603207/17/2019 REVISION RECORD PAVEMENT MANHOLE PLAN VIEW STR.#100 - 5FT DIA. BMP DIVERSION MANHOLE INV.-878.15 INV.-877.55 2' SUMP REQ'D. STORM SEWER INLET NOTE ALL STORM WATER INLETS & CATCH BASIN CASTINGS SHALL BE LABELED WITH ENVIRONMENTAL MESSAGING "NO DUMPING, DRAINS TO STREAM" CAST IN RAISED OR RECESSED LETTERS AT A MIN. 1-INCH HEIGHT. A SYMBOL OF A FISH SHALL ALSO BE CAST WITH THE LETTERS. CURB MANHOLE D. Stormwater Quality Data BMP SIZING Simulation Basin Group Time Max Flow Max Volume Volume hrs cfs in ft3 -------------------------------------------------------------------------------------- 24HR BMP POST 12.05 0.68 0.595 2117 06/28/07 Exhibit 701-1: Curve Number Calculation for Water Quality Storm Event Water Quality Curve Number7072747678808284868890929496981000 102030405060708090100Percent ImperviousnessWater Quality Curve Number (CNwq) PROPOSED CONDITIONS Runoff Curve Coefficient Number Impervious Area =0.90 98 **Rooftop Open Area =0.10 73.9 **Open Space (Good Condition) Impervious Area =0.85 98.0 **Pavement Crosby SIlt Loam (CrA - 99.1% Site) Type "C" Soil Brookston Silty Clay Loam (Br - 0.9% Site) Type "B" Soil ON SITE (PR1) Impervious Area Open Area Impervious Area Total Total Composite Composite Roof (ft^2)(ft^2)Pavement (ft^2)(ft^2)(Acres)"CN""C" 2100 16331 24199 42630 0.98 88.8 0.57 Overland flow seg. 1 Shallow Concentrated Flow Basin Length S n T_t Length S Paved/Un Vel.T_t T_c name (ft)%(min)(ft)%(P or U)(ft/s)(min)(min) PR1 (SEE STORM SEWER SPREADSHEET)16 STORMWATER QUALITY Impervious Area Total Total Percent CNwq (ft^2)(ft^2)(Acres)Impervious (see Graph) 26299 42630 0.98 61.7%95.5 City of Indianapolis Stormwater Quality Unit (SQU) Selection Guide Pg. 1 1/23/18 Version 12.1 (Check http://www.indy.gov/eGov/City/DPW/Business/Specs/Pages/UpdatedStormWaterManual.aspx for current Selection Guide) Table 1 Rate Based SQUs Performance Matrix for Manufactured SQUs that remove 80% or more of Test Particles PLEASE NOTE: All SQUs shall be configured as off-line units unless approved for on-line use. On-line units must document the peak 10-year flow (per the Stormwater Design and Construction Specification Manual) is less than the approved maximum10-yr flow rate. Table 1 Manufactured SQU SQU System Model Max Treatment Flow (cfs) Max 10-yr On-Line Flow Rate (cfs) STC 450 0.37 N/A STC 900 0.83 N/A STC1200 0.83 N/A STC 1800 0.83 N/A STC 2400 1.38 N/A STC 3600 1.38 N/A STC 4800 2.30 N/A STC 6000 2.30 N/A STC 7200 3.22 N/A STC 11000 4.59 N/A STC 13000 4.59 N/A Stormceptor® 2,3 STC 16000 6.43 N/A 4 Foot Diameter 1.3 N/A 6 Foot Diameter 3.58 N/A 8 Foot Diameter 7.35 N/A Downstream Defender® 2 10 Foot Diameter 12.85 N/A VS30 0.28 N/A VS40 0.58 N/A VS50 1.01 N/A VS60 1.60 N/A VS70 2.35 N/A VortSentry®2,3 VS80 3.28 N/A 1000 0.49 N/A 2000 1.00 N/A 3000 1.75 N/A 4000 2.76 N/A Vortechs®2,3 5000 4.05 N/A City of Indianapolis Stormwater Quality Unit (SQU) Selection Guide Pg. 4 1/23/18 Version 12.1 Manufactured SQU SQU System Model Max Treatment Flow (cfs) Max 10-yr On-Line Flow Rate (cfs) STWQ-12 22.97 N/A STWQ-55 109.57 N/A STWQ-105 211.16 N/A STWQ-153 308.99 N/A STWQ-200 403.80 N/A STWQ-I 4.12 N/A STWQ-II 1.95 N/A STWQ-III 3.93 N/A STWQ-IV 1.85 N/A STWQ-V 1.85 N/A STWQ-VI 3.75 N/A STWQ-VII 1.76 N/A WQU3620 0.6 N/A WQU3640 1.28 N/A WQU4220 0.70 N/A WQU4240 1.49 N/A WQU4820 0.92 N/A WQU4840 1.95 N/A WQU6020 1.18 N/A Prinsco2 WQU6040 2.51 N/A 4 Foot Diameter 0.70 N/AFirst Defense 2,3 6 Foot Diameter 2.00 N/A SWQU 36X20-B 0.75 N/A SWQU 36X40-B 1.5 N/A SWQU 42X20-B 0.8 N/A SWQU 42X40-B 1.8 N/A SWQU 48X20-B 1.1 N/A SWQU 48X40-B 2.4 N/A SWQU 60X20-B 1.4 N/A Haviland2 SWQU 60X40-B 3.1 N/A 3 Foot Diameter 0.73 N/A 4 Foot Diameter 1.50 N/A 5 Foot Diameter 2.62 N/A 6 Foot Diameter 4.13 N/A 7 Foot Diameter 6.07 N/A First Defense High Capacity1,2,3 8 Foot Diameter 8.49 N/A 2-4 0.49 2.12 3-6 1.35 5.83 3-8 1.93 8.34 4-8 2.77 11.97 5-10 4.84 20.91 6-12 7.64 33.00 6-13.75 9.1 39.31 7-14 11.2 48.38 Suntree Nutrient Separating Baffle Box – Hydro- Variant Technology (NSBB-HVT)7-15 12.2 52.70 ICPR INPUT DATA – BMP SIZING ========================================================================================== ==== Basins ============================================================================== ========================================================================================== Name: BMP Node: BMP Status: Onsite Group: POST Type: SCS Unit Hydrograph CN Unit Hydrograph: Uh484 Peaking Factor: 484.0 Rainfall File: Storm Duration(hrs): 0.00 Rainfall Amount(in): 0.000 Time of Conc(min): 16.00 Area(ac): 0.980 Time Shift(hrs): 0.00 Curve Number: 95.50 Max Allowable Q(cfs): 999999.000 DCIA(%): 0.00 ========================================================================================== ==== Nodes =============================================================================== ========================================================================================== Name: BOUNDARY Base Flow(cfs): 0.000 Init Stage(ft): 100.000 Group: POST Warn Stage(ft): 100.000 Type: Time/Stage Time(hrs) Stage(ft) --------------- --------------- 0.00 100.000 12.00 100.000 24.00 100.000 ========================================================================================== ==== Hydrology Simulations =============================================================== ========================================================================================== Name: 24HR Filename: P:\VIOC.001 - 9835 N Michigan Rd.Carmel.IN\Drainage\ICPR\Sims\24HR.R32 Override Defaults: Yes Storm Duration(hrs): 24.00 Rainfall File: Scsii-24 Rainfall Amount(in): 1.00 Time(hrs) Print Inc(min) --------------- --------------- 30.000 5.00 ========================================================================================== ==== Routing Simulations ================================================================= ========================================================================================== Name: WAT-QUAL Hydrology Sim: 24HR Filename: P:\VIOC.001 - 9835 N Michigan Rd.Carmel.IN\Drainage\ICPR\Sims\WAT-QUAL.I32 Execute: Yes Restart: No Patch: No Alternative: No Max Delta Z(ft): 1.00 Delta Z Factor: 0.00500 Time Step Optimizer: 10.000 Start Time(hrs): 0.000 End Time(hrs): 25.00 Min Calc Time(sec): 0.5000 Max Calc Time(sec): 60.0000 Boundary Stages: Boundary Flows: Time(hrs) Print Inc(min) --------------- --------------- 999.000 15.000 Group Run --------------- ----- POST Yes E. Maintenance Guidelines Included Reference Documents First Defense® - Operation & Maintenance Manual First Defense® - High Capacity Details & Specifications Site Specific First Defense Unit Details Maintenance Routine Maintenance: In accordance with these requirements, maintenance will occur semi-annually (June & December) or as needed. The BMP owner will also be required to perform any maintenance specified at the City’s discretion. The following criteria shall be considered the minimum routine maintenance to be performed: 1. Direct maintenance access for appropriate equipment must be provided to the First Defense® structure. Remove sediment accumulated in the grit chamber at 24-inches of depth. This measurement shall be taken using a stadia rod, sludge judge or similar measuring device. All maintenance can be performed from one access point from the surface with no requirements for Confined Space Entry. If required, entry into the SQU should be considered an OSHA confined space and guidelines followed. Water and sediment from the cleaning procedures should NOT be dumped into a sanitary sewer. Disposal of all sediment must be in accordance with all federal, state and local requirements. 2. The connecting manhole and diversion weir shall be kept clean of sediment, debris and trash. Inspect and remove all sediment, debris and trash as needed. Water and sediment from the cleaning procedures should NOT be dumped into a sanitary sewer. Disposal of all sediment must be in accordance with all federal, state and local requirements. 3. Cleanout of the First Defense® structure with a vacuum truck shall be performed as needed. 4. See attached document from First Defense®. 5. Entry into the First Defense® unit is considered as an OSHA regulated confined space in which all requirements shall be strictly adhered. 6. Greenspace and landscaping on site shall be maintained to keep grass cover dense and vigorous. At a minimum, maintenance should include periodic mowing, occasional spot reseeding, and weed control. Grass must never be mowed close to the ground. Grass heights in the 4-6” range are recommended. Fertilization of grass shall be done when needed to maintain the health of the grass, with care not to over-apply the fertilizer. 7. Remove all trash and debris from storm sewers, inlets and manhole structures. 8. All waste should be disposed of by a certified waste hauler with documentation of the source and approved disposal location. Water and sediment from the cleaning procedures should NOT be dumped into a sanitary sewer. Disposal of all sediment must be in accordance with all federal, state and local requirements. 9. Using a vacuum truck, remove all accumulated oil and water from the sump manholes. Remedial Maintenance: Remedial maintenance shall occur whenever deemed necessary either by the BMP owner or the City of Carmel. (i.e. trash / debris removal, vacuum truck cleaning, etc…) A. City of Carmel Responsibilities: The City of Carmel will not be responsible for any required maintenance or associated costs for the BMP. BMP Inspection and Maintenance Requirements BMP INSPECTION REQUIREMENTS MAINTENANCE REQUIREMENTS FEES REFERENCE DOCUMENT(S) First Defense® 4’ Diameter Semi-annually (June & December) by owner and after every rain event > 1 inch over a 24hr-period. Remove sediment accumulated in the grit chamber reaches 24- inches of depth in the sump. Refer to the “Maintenance” section of the O&M Manual. Cleanout required a minimum of once per year. Annual Inspections & fees as required by the City Attached documents from First Defense®. City of Indianapolis Stormwater Quality Treatment Unit (SQTU) Selection Guide. Connecting Manhole & Diversion Weir with Sump Semi-annually (June & December) by owner and after every rain event > 1 inch over a 24hr-period or as directed by City. Remove sediment and trash as needed. Cleanout required a minimum of once per year. N/A N/A Responsibility Owner to perform semi-annual inspections of BMP for sedimentation levels. The BMP owner is responsible for all maintenance and costs associated there with. Owner is responsible for annual inspection fees as outlined in Section 103.04. Section 103.04 Pg 1-12 First Defense® INSPECTION CHECKLIST: 1. Maximum SQU sediment depth is 24-inches. Maintenance is required. 2. Sediment depth is done by taking 2 measurements with a sediment probe such as a Sludge Judge® or similar measuring device; to determine the depth of sediment build-up within the sump. Refer to Appendix A, Page 6 & Figure 5. 3. On-site Hydrocarbon spills (e.g. gasoline, oil, hydraulic fluids) that enter the subsurface stormwater collection system and travel to the First Defense® SQU shall require immediate mitigation by the owner. Absorbent pads or a vacuum truck should be utilized to remove the oily layer. 4. Entry into the First Defense® unit is considered as an OSHA regulated confined space in which all requirements shall be strictly adhered. 5. Water and sediment generated from the cleaning procedure shall NOT be dumped into a sanitary sewer. All waste should be disposed of by a certified waste hauler with documentation of the source and approved disposal location. Disposal of all sediment must be in accordance with all Federal, State, and Local requirements. 6. Inspection frequency of the First Defense® SQU shall occur every 6 months at a minimum. 7. Off-line BMP configurations require inspection and maintenance of the connecting & diversionary manhole structures/weirs. 8. Detail drawing of the First Defense® SQU is included in Appendix C & E of this O&M Manual. 9. On-site Hydrocarbon spills (e.g. gasoline, oil, hydraulic fluids) that enter the subsurface stormwater collection system and travel to the First Defense® SQU shall require immediate mitigation by the owner. Absorbent pads or a vacuum truck should be utilized to remove the oily layer. 10. Disposal of all sediment must be in accordance with all Federal, State, and Local requirements. 11. Cleanout of the First Defense® SQU shall occur once a year (minimum). Storm Sewer Inspection and Maintenance Requirements Storm Sewer Infrastructure INSPECTION REQUIREMENTS MAINTENANCE REQUIREMENTS Storm Inlets, Manholes, Storm Cleanouts Semi-annually (April & October) by owner and after every rain event > 1 inch over a 24hr-period. More frequent inspections should be performed in areas where there is higher potential for trash or litter (e.g. truck docks, trench drains) and during the Fall when leaves are present on the ground. Catch basins should also be inspected for sediment depth. A maximum sediment depth equal to 6-inches or no greater than ¼ of the pipe diameter is the point when the catch basin/pipe should be cleaned of sediment and debris. Pipes, Swales, Ditches Monthly by owner and after every rain event > 1 inch over a 24hr-period. Swales/Ditches should be clear of high plant growth (5-inches maximum); unobstructed by buildings, fences, vehicles, landscape debris; and have a uniform slope with 1.3% minimum preferred. More frequent inspections should be performed in areas where there is higher potential for trash or litter (e.g. truck docks, trench drains) and during the Fall when leaves are present on the ground. Pipes should also be inspected for sediment depth. A maximum sediment depth equal to 6-inches or no greater than ¼ of the pipe diameter is the point when the pipe should be cleaned of sediment and debris. Responsibility Owner to perform inspections of storm sewer infrastructure. The owner is responsible for all maintenance and costs associated therewith. Operation and Maintenance Manual First Defense® and First Defense®High Capacity Vortex Separator for Stormwater Treatment First Defense® Operation and Maintenance Manual Hydro International (Stormwater), 94 Hutchins Drive, Portland ME 04102 Tel: (207) 756-6200 Fax: (207) 756-6212 Web: www.hydro-int.com Table of Contents 3 First Defense® by Hydro International - Introduction - Operation - Pollutant Capture and Retention 4 Model Sizes & Configurations - First Defense® Components 5 Maintenance - Overview - Maintenance Equipment Considerations - Determining Your Maintenance Schedule 6 Maintenance Procedures - Inspection - Floatables and Sediment Clean Out 8 First Defense® Installation Log 9 First Defense® Inspection and Maintenance Log COPYRIGHT STATEMENT: The contents of this manual, including the graphics contained herein, are intended for the use of the recipient to whom the document and all associated information are directed. Hydro International plc owns the copyright of this document, which is supplied in confidence. It must not be used for any purpose other than that for which it is supplied and must not be reproduced, in whole or in part stored in a retrieval system or transmitted in any form or by any means without prior permission in writing from Hydro International plc. First Defense® is a trademarked hydrodynamic vortex separation device of Hydro International plc. A patent covering the First Defense® has been granted. DISCLAIMER: Information and data contained in this manual is exclusively for the purpose of assisting in the operation and maintenance of Hydro International plc’s First Defense®. No warranty is given nor can liability be accepted for use of this information for any other purpose. Hydro International plc has a policy of continuous product development and reserves the right to amend specifications without notice. Page | 2 First Defense® Operation and Maintenance Manual I. First Defense® by Hydro International Page | 3 Introduction The First Defense® is an enhanced vortex separator that combines an effective and economical stormwater treatment chamber with an integral peak flow bypass. It efficiently removes total suspended solids (TSS), trash and hydrocarbons from stormwater runoff without washing out previously captured pollutants. The First Defense® is available in several model configurations (refer to Section II. Model Sizes & Configurations, page 4) to accommodate a wide range of pipe sizes, peak flows and depth constraints. Operation The First Defense® operates on simple fluid hydraulics. It is self- activating, has no moving parts, no external power requirement and is fabricated with durable non-corrosive components. No manual procedures are required to operate the unit and maintenance is limited to monitoring accumulations of stored pollutants and periodic clean-outs. The First Defense® has been designed to allow for easy and safe access for inspection, monitoring and clean-out procedures. Neither entry into the unit nor removal of the internal components is necessary for maintenance, thus safety concerns related to confined-space- entry are avoided. Pollutant Capture and Retention The internal components of the First Defense® have been designed to optimize pollutant capture. Sediment is captured and retained in the base of the unit, while oil and floatables are stored on the water surface in the inner volume (Fig.1). The pollutant storage volumes are isolated from the built-in bypass chamber to prevent washout during high-flow storm events. The sump of the First Defense® retains a standing water level between storm events. This ensures a quiescent flow regime at the onset of a storm, preventing resuspension and washout of pollutants captured during previous events. Accessories such as oil absorbent pads are available for enhanced oil removal and storage. Due to the separation of the oil and floatable storage volume from the outlet, the potential for washout of stored pollutants between clean-outs is minimized. • Inlet options include surface grate or multiple inlet pipes • Integral high capacity bypass conveys large peak flows without the need for “offline” arrangements using separate junction manholes • Proven to prevent pollutant washout at up to 500% of its treatment flow • Long flow path through the device ensures a long residence time within the treatment chamber, enhancing pollutant settling • Delivered to site pre-assembled and ready for installation Advantages • Stormwater treatment at the point of entry into the drainage line • Sites constrained by space, topography or drainage profiles with limited slope and depth of cover • Retrofit installations where stormwater treatment is placed on or tied into an existing storm drain line • Pretreatment for filters, infiltration and storage Applications Oil Max Oil Storage Depth Sediment StorageSediment Fig.1 Pollutant storage volumes in the First Defense®. First Defense® Operation and Maintenance Manual Hydro International (Stormwater), 94 Hutchins Drive, Portland ME 04102 Tel: (207) 756-6200 Fax: (207) 756-6212 Web: www.hydro-int.com 1 4 6 7 2 3 5 8 II. Model Sizes & Configurations The First Defense® inlet and internal bypass arrangements are available in several model sizes and configurations. The components of the First Defense®-4HC and First Defense®-6HC have modified geometries as to allow greater design flexibility needed to accommodate various site constraints. Page | 4 First Defense® Components 1. Built-In Bypass 2. Inlet Pipe 3. Inlet Chute 4. Floatables Draw-off Port 5. Outlet Pipe 6. Floatables Storage a.b. 12 3 4 5 6 7 8 (not pictured) Fig.2a) First Defense®-4 and First Defense®-6; b) First Defense®-4HC and First Defense®-6HC, with higher capacity dual internal bypass and larger maximum pipe diameter. All First Defense® models include the internal components that are designed to remove and retain total suspended solids (TSS), gross solids, floatable trash and hydrocarbons (Fig.2a - 2b). First Defense® model parameters and design criteria are shown in Table 1. 7. Sediment Storage 8. Inlet Grate or Cover First Defense® High Capacity Model Number Diameter Typical TSS Treatment Flow Rates Peak Online Flow Rate Maximum Pipe Diameter1 Oil Storage Capacity Typical Sediment Storage Capacity2 Minimum Distance from Outlet Invert to Top of Rim3 Standard Distance from Outlet Invert to Sump Floor NJDEP Certified 106µm (ft / m)(cfs / L/s)(cfs / L/s)(cfs / L/s)(in / mm)(gal / L)(yd3 / m3)(ft / m)(ft / m) FD-3HC 3 / 0.9 0.84 / 23.7 1.60 / 45.3 15 / 424 18 / 457 125 / 473 0.4 / 0.3 2.0 - 3.5 / 0.6 - 1.0 3.71 / 1.13 FD-4HC 4 / 1.2 1.50 / 42.4 1.80 / 50.9 18 / 510 24 / 600 191 / 723 0.7 / 0.5 2.3 - 3.9 / 0.7 - 1.2 4.97 / 1.5 FD-5HC 5 / 1.5 2.34 / 66.2 2.94 / 82.1 20 / 566 24 / 609 300 / 1135 1.1 / .84 2.5 - 4.5 / 0.7 - 1.3 5.19 / 1.5 FD-6HC 6 / 1.8 3.38 / 95.7 4.73 / 133.9 32 / 906 30 / 750 496 / 1,878 1.6 / 1.2 3.0 - 5.1 / 0.9 - 1.6 5.97 / 1.8 FD-8HC 8 / 2.4 6.00 / 169.9 7.52 / 212.9 50 / 1,415 48 / 1219 1120 / 4239 2.8 / 2.1 3.0 - 6.0 / 0.9 -1.8 7.40 / 2.2 1Contact Hydro International when larger pipe sizes are required. 2Contact Hydro International when custom sediment storage capacity is required. 3Minimum distance for models depends on pipe diameter. First Defense® Operation and Maintenance ManualPage | 5 III. Maintenance Overview The First Defense® protects the environment by removing a wide range of pollutants from stormwater runoff. Periodic removal of these captured pollutants is essential to the continuous, long-term functioning of the First Defense®. The First Defense® will capture and retain sediment and oil until the sediment and oil storage volumes are full to capacity. When sediment and oil storage capacities are reached, the First Defense® will no longer be able to store removed sediment and oil. Maximum pollutant storage capacities are provided in Table 1. The First Defense® allows for easy and safe inspection, monitoring and clean-out procedures. A commercially or municipally owned sump-vac is used to remove captured sediment and floatables. Access ports are located in the top of the manhole. Maintenance events may include Inspection, Oil & Floatables Removal, and Sediment Removal. Maintenance events do not require entry into the First Defense®, nor do they require the internal components of the First Defense® to be removed. In the case of inspection and floatables removal, a vactor truck is not required. However, a vactor truck is required if the maintenance event is to include oil removal and/or sediment removal. Maintenance Equipment Considerations The internal components of the First Defense®-HC have a centrally located circular shaft through which the sediment storage sump can be accessed with a sump vac hose. The open diameter of this access shaft is 15 inches in diameter (Fig.3). Therefore, the nozzle fitting of any vactor hose used for maintenance should be less than 15 inches in diameter. Determining Your Maintenance Schedule The frequency of clean out is determined in the field after installation. During the first year of operation, the unit should be inspected every six months to determine the rate of sediment and floatables accumulation. A simple probe such as a Sludge-Judge® can be used to determine the level of accumulated solids stored in the sump. This information can be recorded in the maintenance log (see page 9) to establish a routine maintenance schedule. The vactor procedure, including both sediment and oil / flotables removal, for a 6-ft First Defense® typically takes less than 30 minutes and removes a combined water/oil volume of about 765 gallons. Fig.3 The central opening to the sump of the First Defense®-HC is 15 inches in diameter. 15-in Maintenance Access First Defense® Operation and Maintenance Manual Hydro International (Stormwater), 94 Hutchins Drive, Portland ME 04102 Tel: (207) 756-6200 Fax: (207) 756-6212 Web: www.hydro-int.com Inspection Procedures 1. Set up any necessary safety equipment around the access port or grate of the First Defense® as stipulated by local ordinances. Safety equipment should notify passing pedestrian and road traffic that work is being done. 2. Remove the grate or lid to the manhole. 3. Without entering the vessel, look down into the chamber to inspect the inside. Make note of any irregularities. Fig.4 shows the standing water level that should be observed. 4. Without entering the vessel, use the pole with the skimmer net to remove floatables and loose debris from the components and water surface. 5. Using a sediment probe such as a Sludge Judge®, measure the depth of sediment that has collected in the sump of the vessel. 6. On the Maintenance Log (see page 9), record the date, unit location, estimated volume of floatables and gross debris removed, and the depth of sediment measured. Also note any apparent irregularities such as damaged components or blockages. 7. Securely replace the grate or lid. 8. Take down safety equipment. 9. Notify Hydro International of any irregularities noted during inspection. Floatables and Sediment Clean Out Floatables clean out is typically done in conjunction with sediment removal. A commercially or municipally owned sump- vac is used to remove captured sediment and floatables (Fig.5). Floatables and loose debris can also be netted with a skimmer and pole. The access port located at the top of the manhole provides unobstructed access for a vactor hose and skimmer pole to be lowered to the base of the sump. Scheduling • Floatables and sump clean out are typically conducted once a year during any season. • Floatables and sump clean out should occur as soon as possible following a spill in the contributing drainage area. Recommended Equipment • Safety Equipment (traffic cones, etc) • Crow bar or other tool to remove grate or lid • Pole with skimmer or net (if only floatables are being removed) • Sediment probe (such as a Sludge Judge®) • Vactor truck (flexible hose recommended) • First Defense® Maintenance Log Fig.4 Floatables are removed with a vactor hose (First Defense model FD-4, shown). Page | 6 First Defense® Operation and Maintenance Manual Floatables and sediment Clean Out Procedures 1. Set up any necessary safety equipment around the access port or grate of the First Defense® as stipulated by local ordinances. Safety equipment should notify passing pedestrian and road traffic that work is being done. 2. Remove the grate or lid to the manhole. 3. Without entering the vessel, look down into the chamber to inspect the inside. Make note of any irregularities. 4. Remove oil and floatables stored on the surface of the water with the vactor hose (Fig.5) or with the skimmer or net (not pictured). 5. Using a sediment probe such as a Sludge Judge®, measure the depth of sediment that has collected in the sump of the vessel and record it in the Maintenance Log (page 9). 6. Once all floatables have been removed, drop the vactor hose to the base of the sump. Vactor out the sediment and gross debris off the sump floor (Fig.5). 7. Retract the vactor hose from the vessel. 8. On the Maintenance Log provided by Hydro International, record the date, unit location, estimated volume of floatables and gross debris removed, and the depth of sediment measured. Also note any apparent irregularities such as damaged components, blockages, or irregularly high or low water levels. 9. Securely replace the grate or lid. - Regularly during first year of installation - Every 6 months after the first year of installation - Once per year, with sediment removal - Following a spill in the drainage area - Once per year or as needed - Following a spill in the drainage area Activity FrequencyInspection Oil and Floatables Removal Sediment Removal Maintenance at a Glance NOTE: For most clean outs the entire volume of liquid does not need to be removed from the manhole. Only remove the first few inches of oils and floatables from the water surface to reduce the total volume of liquid removed during a clean out. Fig.5 Sediment is removed with a vactor hose (First Defense model FD-4, shown). Page | 7 First Defense® High Capacity A Simple Solution for your Trickiest Sites Product Profile The First Defense® High Capacity is an enhanced vortex separator that combines an effective stormwater treatment chamber with an integral peak flow bypass. It efficiently removes sediment total suspended solids (TSS), trash and hydrocarbons from stormwater runoff without washing out previously captured pollutants. The First Defense® High Capacity is available in several model configurations to accommodate a wide range of pipe sizes, peak flows and depth constraints (Table 1, next page). Stormwater Solutions hydro-int.com/firstdefensehc How it Works The First Defense® High Capacity has internal components designed to remove and retain gross debris, total suspended solids (TSS) and hydrocarbons (Fig.1). Contaminated stormwater runoff enters the inlet chute from a surface grate and/or inlet pipe. The inlet chute introduces flow into the chamber tangentially to create a low energy vortex flow regime (magenta arrow) that directs sediment into the sump while oils, floating trash and debris rise to the surface. Treated stormwater exits through a submerged outlet chute located opposite to the direction of the rotating flow (blue arrow). Enhanced vortex separation is provided by forcing the rotating flow within the vessel to follow the longest path possible rather than directly from inlet to outlet. Higher flows bypass the treatment chamber to prevent turbulence and washout of captured pollutants. An internal bypass conveys infrequent peak flows directly to the outlet eliminating the need for, and expense of, external bypass control structures. A floatables draw off slot functions to convey floatables into the treatment chamber prior to bypass. Components 1. Inlet Grate (optional) 2. Precast chamber 3. Inlet Pipe (optional) 4. Floatables Draw Off Slot (not pictured) 5. Inlet Chute 6. Internal Bypass 7. Outlet pipe 8. Oil and Floatables Storage 9. Outlet chute 10. Sediment Storage Sump Fig.1 The First Defense® High Capacity has internal components designed to efficiently capture pollutants and prevent washout at peak flows. Applications • Stormwater treatment at the point of entry into the drainage line • Sites constrained by space, topography or drainage profiles with limited slope and depth of cover • Retrofit installations where stormwater treatment is placed on or tied into an existing storm drain line • Pretreatment for filters, infiltration and storage • Inlet options include surface grate or multiple inlet pipes • Integral high capacity bypass conveys large peak flows without the need for “offline” arrangements using separate junction manholes • Proven to prevent pollutant washout at up to 450% of its treatment flow • Long flow path through the device ensures a long residence time within the treatment chamber, enhancing pollutant settling • Delivered to site pre-assembled and ready for installation Advantages Hydro International, 94 Hutchins Drive, Portland, ME 04102 Tel: (207) 756-6200 Fax: (207) 756-6212 Email: stormwaterinquiry@hydro-int.com Web: www.hydro-int.com 1 3 4 7 6 9 8 10 5 2 Verified by NJCAT and NJDEP First Defense® High Capacity Stormwater SolutionsHydro International, 94 Hutchins Drive, Portland, ME 04102 Tel: (207) 756-6200 Fax: (207) 756-6212 Email: stormwaterinquiry@hydro-int.com Web: www.hydro-int.com FDHCSS1703 Table 1. First Defense® High Capacity Design Criteria. First Defense® High Capacity Model Number Diameter Typical TSS Treatment Flow Rates Peak Online Flow Rate Maximum Pipe Diameter1 Oil Storage Capacity Typical Sediment Storage Capacity2 Minimum Distance from Outlet Invert to Top of Rim3 Standard Distance from Outlet Invert to Sump Floor NJDEP Certified 110µm (ft / m)(cfs / L/s)(cfs / L/s)(cfs / L/s)(in / mm)(gal / L)(yd3 / m3)(ft / m)(ft / m) FD-3HC 3 / 0.9 0.84 / 23.7 1.06 / 30.0 15 / 424 18 / 457 125 / 473 0.4 / 0.3 2.0 - 3.5 / 0.6 - 1.0 3.71 / 1.13 FD-4HC 4 / 1.2 1.50 / 42.4 1.88 / 53.2 18 / 510 24 / 600 191 / 723 0.7 / 0.5 2.3 - 3.9 / 0.7 - 1.2 4.97 / 1.5 FD-5HC 5 / 1.5 2.34 / 66.2 2.94 / 83.2 20 / 566 24 / 600 300 / 1135 1.1 / .84 2.5 - 4.5 / 0.7 - 1.3 5.19 / 1.5 FD-6HC 6 / 1.8 3.38 / 95.7 4.23 / 119.8 32 / 906 30 / 750 496 / 1,878 1.6 / 1.2 3.0 - 5.1 / 0.9 - 1.6 5.97 / 1.8 FD-8HC 8 / 2.4 6.00 / 169.9 7.52 / 212.9 50 / 1,415 48 / 1219 1120 / 4239 2.8 / 2.1 3.0 - 6.0 / 0.9 -1.8 7.40 / 2.2 1Contact Hydro International when larger pipe sizes are required. 2Contact Hydro International when custom sediment storage capacity is required. 3Minimum distance for models depends on pipe diameter. Sizing & Design This adaptable online treatment system works easily with large pipes, multiple inlet pipes, inlet grates and now, contains a high capacity bypass for the conveyance of large peak flows. Designed with site flexibility in mind, the First Defense® High Capacity allows engineers to maximize available site space without compromising treatment level. This simple online tool will recommend the best separatror, model size and online/offline arrangement based on site-specific data entered by the user. Go to hydro-int.com/sizing to access the tool. Sizing Calculator for Engineers hydro-int.com/firstdefensehc Fig 2. Works with multiple inlet pipes and grates Fig 3. Maintenance is done with a vactor truck Inspection and Maintenance Nobody maintains our systems better than we do. To ensure optimal, ongoing device performance, be sure to recommend Hydro International as a preferred service and maintenance provider to your clients. Call 1 (800) 848-2706 to schedule an inspection and cleanout or learn more at hydro-int.com/service Variable inlet angles First Defense® Installation Log HYDRO INTERNATIONAL REFERENCE NUMBER: SITE NAME: SITE LOCATION: OWNER: CONTRACTOR: CONTACT NAME: CONTACT NAME: COMPANY NAME: COMPANY NAME: ADDRESS: ADDRESS: TELEPHONE: TELEPHONE: FAX: FAX: INSTALLATION DATE: / / MODEL SIZE (CIRCLE ONE): FD-4 FD-4HC FD-6 FD-6HC INLET (CIRCLE ALL THAT APPLY): GRATED INLET (CATCH BASIN) INLET PIPE (FLOW THROUGH) Hydro International (Stormwater), 94 Hutchins Drive, Portland ME 04102 Tel: (207) 756-6200 Fax: (207) 756-6212 Web: www.hydro-int.com First Defense® Operation and Maintenance ManualNotes PLAN VIEW SECTION A-A PARTS LIST DESCRIPTIONSIZE (mm)SIZE (in)QTYITEM I.D. PRECAST MANHOLE12004811 INTERNAL COMPONENTS (PRE-INSTALLED) 12 FRAME AND COVER (ROUND)7503013 OUTLET PIPE (BY OTHERS)600 (MAX)24 (MAX)14 INLET PIPE (BY OTHERS)600 (MAX)24 (MAX)15 A A ANY WARRANTY GIVEN BY HYDRO INTERNATIONAL WILL APPLY ONLY TO THOSE ITEMS SUPPLIED BY IT. ACCORDINGLY HYDRO INTERNATIONAL CANNOT ACCEPT ANY RESPONSIBILITY FOR ANY STRUCTURE, PLANT, OR EQUIPMENT, (OR THE PERFORMANCE THERE OF) DESIGNED, BUILT, MANUFACTURED, OR SUPPLIED BY ANY THIRD PARTY. HYDRO INTERNATIONAL HAVE A POLICY OF CONTINUOUS DEVELOPMENT AND RESERVE THE RIGHT TO AMEND THE SPECIFICATION. HYDRO INTERNATIONAL CANNOT ACCEPT LIABILITY FOR PERFORMANCE OF ITS EQUIPMENT, (OR ANY PART THEREOF), IF THE EQUIPMENT IS SUBJECT TO CONDITIONS OUTSIDE ANY DESIGN SPECIFICATION. HYDRO INTERNATIONAL OWNS THE COPYRIGHT OF THIS DRAWING, WHICH IS SUPPLIED IN CONFIDENCE. IT MUST NOT BE USED FOR ANY PURPOSE OTHER THAN THAT FOR WHICH IT IS SUPPLIED AND MUST NOT BE REPRODUCED, IN WHOLE OR IN PART, WITHOUT PRIOR PERMISSION IN WRITING FROM HYDRO INTERNATIONAL. 2019 HYDRO INTERNATIONAL DO NOT SCALE DRAWING UNLESS OTHERWISE SPECIFIED, DIMENSIONS ARE IN INCHES. TOLERENCES ARE: FRACTIONS 1/16 DECIMALS .06 ANGLES 1 APPROX WEIGHT: N/A SHEET SIZE: B SHEET: 1 OF 1 DRAWING NO.: 12-34567-4FDHC_FDHC GA STD NEXT ASSEMBLY: 12-34567-NEXT ASSY 94 Hutchins Drive Portland, ME 04102 Tel: +1 (207) 756-6200 Fax: +1 (207) 756-6212 hydro-int.com Rev: - Title 4-ft DIAMETER FIRST DEFENSE HIGH CAPACITY DRAWN BY: ER CHECKED BY: MRJ APPROVED BY DATE: 5/31/2019 SCALE: 1:30 COMMENTS: PROJECTION MATERIAL: GENERAL ARRANGEMENT REVISION HISTORYREVBYDESCRIPTION DATE- FIRST RELEASE 5 1. MANHOLE WALL AND SLAB THICKNESSES ARE NOT TO SCALE. 2. CONTACT HYDRO INTERNATIONAL FOR A BOTTOM OF STRUCTURE ELEVATION PRIOR TO SETTING FIRST DEFENSE MANHOLE. 3. CONTRACTOR TO CONFIRM RIM, PIPE INVERTS, PIPE DIA. AND PIPE ORIENTATION PRIOR TO RELEASE OF UNIT TO FABRICATION. PRODUCT SPECIFICATION: 1. PEAK HYDRAULIC FLOW: 18.0 cfs (510 l/s) 2. MIN SEDIMENT STORAGE CAPACITY: 0.7 cu. yd. (0.5 cu. m.) 3. OIL STORAGE CAPACITY: 191 gal. (723 liters) 4. MAXIMUM INLET/OUTLET PIPE DIAMETERS: 24 in. (600 mm) 5. THE TREATMENT SYSTEM SHALL USE AN INDUCED VORTEX TO SEPARATE POLLUTANTS FROM STORMWATER RUNOFF. 6. OK110 110 MICRON 80% TSS REMOVAL 1.88 cfs (53.2 l/s) (NJDEP TEST PROTOCOL) 7. NJDEP CERTIFIED 80% TSS REMOVAL AT 1.5 cfs (42.4 l/s) GENERAL NOTES: 1. General Arrangement drawings only. Contact Hydro International for site specific drawings. 2. The diameter of the inlet and outlet pipes may be no more than 24". 3. Multiple inlet pipes possible (refer to project plan). 4. Inlet/outlet pipe angle can vary to align with drainage network (refer to project plan.s) 5. Peak flow rate and minimum height limited by available cover and pipe diameter. 6. Larger sediment storage capacity may be provided with a deeper sump depth. 4 1 1 3 2 4 2 Pipe DetailsPIPEMATERIALLENGTHINV IN INV OUT SLOPEOUTLETft%INLET 1 ft %INLET 2 ft %INLET 3 ft %INLET 4 ft %.00 ft [.000 m]BOTTOM OF INTERNALS: .00 ft [.000 m]PREASSEMBLY REFERENCE: 4.97 ft [1.515 m]PIPE ELEV: (MINIMUM) 8.07 ft [2.460 m]T.O.S ELEV.: (MINIMUM) RIM: VARIES .00 ft [.000 m]SUMP ELEV: 5 HYDRO FRAME AND COVER (INCLUDED) GRADE RINGS BY OTHERS AS REQUIRED NOTE: ADDITIONAL HEIGHT MAYBE REQUIRED DEPENDING ON PIPE SIZE 2.25 ft [.685 m]BOTTOM OF INTERNALS: 3.47 ft [1.057 m]PREASSEMBLY REFERENCE: F. Inspection Report First Defense® Inspection and Maintenance Log Initials Depth of Floatables and Oils Sediment Depth Measured Volume of Sediment Removed Site Activity and Comments Date Hydro International (Stormwater), 94 Hutchins Drive, Portland ME 04102 Tel: (207) 756-6200 Fax: (207) 756-6212 Web: www.hydro-int.com Hydro International (Stormwater), 94 Hutchins Drive, Portland ME 04102 Tel: (207) 756-6200 Fax: (207) 756-6212 Web: www.hydro-int.com INSPECTION & MAINTENANCE LOG Diversion Structure VALVOLINE INSTANT OIL CHANGE SITE NAME: LOT '1A' of NORTH AUGUSTA & WCM BLOCK 'H' JOB LOCATION: 9835 Michigan Rd; Carmel, IN 46032 INSPECTION DATE: INSPECTED: Diversion Structure #100 Depth of Depth of Floatables/Oil Sediment Site Activity & Date Initials in Structure(in)in Structure(in)Comments Inspector Signature Printed