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HomeMy WebLinkAboutStormwaterReport_03-04-21 THE FLATS SITE PLAN LOT 1, BLOCK 16 BAXTER MEADOWS SUB. PH. 2A STORMWATER DESIGN REPORT A. Introduction This design report will give an overview of the proposed stormwater system for the proposed 0.42-acre site plan for ‘The Flats’ located in Lot 1, Block 16 of Baxter Meadows Sub. Ph. 2A, Section 34, T01 S., R05 E., Bozeman, Montana. The development proposes a live-work concept with general office units located on the first floor and residential units located on the second floor. There are two proposed buildings, each with four office units and four residential units. The proposed storm water management system consists of overland sheet flow and roof drains that will direct stormwater to on site ADS Stormtech SC-740 infiltration basins. There is also a surface retention/infiltration basin located at the southwest corner of the site that will consist of oversize cobbles to serve the driveways located in Basin C. The infiltration basin will be excavated to native gravels to permit maximum infiltration. The following references were used in the preparation of this report: a. COB Design Standards and Specifications Policy, 2004. Addendum #7 b. COB Modifications to Montana Public Works Standard Specifications (MPWSS) The delineated basins, drainage plan, and grading plan are displayed on the sheets in Appendix A of this report. B. Runoff and Basin Estimates 10-year, 2-hour design rainfall frequencies were used for calculating the pertinent basins utilizing the rational method in accordance with the COB design standards. A runoff coefficient C of 0.90 was used for impervious areas and a C value of 0.20 was used for landscaped areas. The tables below illustrate the calculated runoff coefficients for each basin. Basin A Area (SF) C Total Area 2,718 NA Impervious 2,718 0.90 Weighted C NA 0.90 Basin B Area (SF) C Total Area 5,595 NA Impervious 5,595 0.90 Weighted C NA 0.90 Basin C Area (SF) C Total Area 4,025 NA Impervious 3,145 0.90 Landscaped 880 0.20 Weighted C 4,025 0.75 C. Conveyance Capacity The proposed infrastructure improvements were designed to convey runoff per the City of Bozeman standards. The conveyance structures include 8” ADS roof drains that direct runoff to the infiltration basins located throughout the site. Runoff from Basins A & B enters 8” ADS roof drains and is then piped to underground Stormtech SC-740 infiltration chambers. The storm drain piping was sized to be 8” diameter based on the small area of the site and the relatively low stormwater flows. Runoff from Basin C will sheet flow to the west into the infiltration basin located at the southwest corner of the site. E. Native Gravel Infiltration Rates Soils on the subject property are typical for the area, including enbar loam and blackdog silt loam. Both ADS Stormtech SC-740 infiltration systems and the infiltration basin consisting of oversize cobbles should be excavated to native gravels to permit maximum infiltration of stormwater. Backfill above the ADS chambers to consist of clean, crushed angular stone and well-graded aggregate mixtures. Refer to Detail 1 on Sheet C1.3 for more information. NRCS soil data is included in Appendix B. F. Stormwater Detention/Retention Volumes and Infiltration System Calculations All of the runoff is proposed to be conveyed to retention basins and ultimately infiltrate into native gravels. Two types of underground systems are proposed: ADS infiltration chambers and a gravel infiltration basin. Groundwater monitoring from a nearby project (Four Points Subdivision, approximately 0.20 miles north of subject property) was used to determine the seasonal high groundwater levels. Three test pits were used (TP4-6) that were closest to the subject property to determine the average groundwater depth of 5.75 ft. Groundwater monitoring data can be found in Appendix B. Table 1 below shows the finished grade elevations of each ADS infiltrator basin and the depth to the bottom of gravel for each basin. Table 1: Groundwater Depth vs. Proposed FG Elevations Basin A Basin B Proposed Finish Grade Ele (ft): 4706.75 4708.75 Bottom of Gravel Ele (ft): 4701.50 4703.5 Dist. From FG to Bottom of Gravel (ft): 5.25 5.25 Average Depth to Groundwater (ft): 5.75 5.75 There is a total of 5.25 ft. from the finish grade elevation to the bottom of the gravel for the ADS infiltration systems. The average depth to groundwater is 5.75 ft., which means that the bottom of the gravel for the ADS infiltrator systems will be above the high groundwater mark. The retention storage volumes were sized based on the 10- year 2-hour design rainfall frequency per the City Design Standards. The rational method was used to determine post-development stormwater flows. The calculations for all stormwater storage facilities are included in Appendix C. The proposed stormwater facilities reduce the post-development runoff rate to zero. All impervious surface runoff is conveyed to the infiltration retention and detention systems and then infiltrates into the ground. G. Stormwater Facility Maintenance The proposed storm drainage facilities will be privately operated and maintained by the property owner(s) of the on-site development. Included in Appendix D is a proposed maintenance program for the ADS Stormtech infiltration systems. Appendices A. Drawings and Details B. NRCS Soil Data and Groundwater Monitoring Data C. Retention System Calculations and ADS Stormtech SC-740 Chamber Design D. Stormwater Maintenance Plan Appendices Appendix A – Drawings and Details Appendix B – NRCS Soil Data and Groundwater Monitoring Data The Flats - Basin A (North)2/4/2021 Lot 1 Block 16 - Baxter Meadows Sub PH 2A Stormwater Run-off Calculation Calculation of Required Volume for Storm Water Retention & Infitration System Design Rainfall Freq. 10 year - 2 Hour event IDF coefficient a 0.64 IDF coefficient b IDF coefficient n 0.65 Post-development Calculations: C Areas (ft2):Roof Area 2,282 0.90 Impervious 436 0.90 Sidewalk Total: 2,718 0.90 Retention Basin Calculation: Q = CIA C = 0.90 (post-development) I = 0.41 in/hr (10-yr, 2-hr storm) A = 0.06 acres Qpost =0.02 cfs Required retention storage (ft3) =166 ft3 (10-yr, 2-hr storm) Retention Basin - A User Inputs Chamber Model: SC-740 Outlet Control Structure: No Project Name: The Flats - Basin A (North) Engineer: Chris Budeski Project Location: Montana Measurement Type: Imperial Required Storage Volume: 150 cubic ft. Stone Porosity: 40% Stone Foundation Depth: 6 in. Stone Above Chambers: 6 in. Average Cover Over Chambers: 18 in. Design Constraint Dimensions:(8 ft. x 24 ft.) Results System Volume and Bed Size Installed Storage Volume: 211.12 cubic ft. Storage Volume Per Chamber: 45.90 cubic ft. Number Of Chambers Required: 2 Number Of End Caps Required: 2 Chamber Rows: 1 Maximum Length:17.83 ft. Maximum Width: 6.25 ft. Approx. Bed Size Required: 111.46 square ft. System Components Amount Of Stone Required: 11.05 cubic yards Volume Of Excavation (Not Including Fill): 14.45 cubic yards Project: Chamber Model - SC-740 Units -Imperial Number of chambers - 3 Voids in the stone (porosity) - 40 % Base of Stone Elevation - 4702.00 ft Amount of Stone Above Chambers - 6 in Amount of Stone Below Chambers - 6 in 9 Area of system - 146 sf Min. Area - Height of System Incremental Single Chamber Incremental Total Chamber Incremental Stone Incremental Ch & St Cumulative Chamber Elevation (inches) (cubic feet) (cubic feet) (cubic feet) (cubic feet) (cubic feet) (feet) 42 0.00 0.00 4.87 4.87 287.11 4705.50 41 0.00 0.00 4.87 4.87 282.24 4705.42 40 0.00 0.00 4.87 4.87 277.38 4705.33 39 0.00 0.00 4.87 4.87 272.51 4705.25 38 0.00 0.00 4.87 4.87 267.64 4705.17 37 0.00 0.00 4.87 4.87 262.78 4705.08 36 0.05 0.16 4.80 4.97 257.91 4705.00 35 0.16 0.49 4.67 5.16 252.95 4704.92 34 0.28 0.85 4.53 5.37 247.79 4704.83 33 0.60 1.81 4.14 5.95 242.41 4704.75 32 0.80 2.41 3.90 6.31 236.46 4704.67 31 0.95 2.85 3.73 6.58 230.15 4704.58 30 1.07 3.22 3.58 6.80 223.57 4704.50 29 1.18 3.54 3.45 6.99 216.77 4704.42 28 1.27 3.80 3.35 7.14 209.78 4704.33 27 1.36 4.07 3.24 7.31 202.63 4704.25 26 1.45 4.36 3.12 7.48 195.33 4704.17 25 1.52 4.57 3.04 7.61 187.84 4704.08 24 1.58 4.75 2.97 7.71 180.23 4704.00 23 1.64 4.93 2.90 7.82 172.52 4703.92 22 1.70 5.10 2.83 7.93 164.69 4703.83 21 1.75 5.26 2.76 8.02 156.77 4703.75 20 1.80 5.41 2.70 8.11 148.75 4703.67 19 1.85 5.56 2.64 8.21 140.64 4703.58 18 1.89 5.68 2.59 8.27 132.43 4703.50 17 1.93 5.80 2.55 8.35 124.16 4703.42 16 1.97 5.92 2.50 8.42 115.81 4703.33 15 2.01 6.03 2.45 8.48 107.39 4703.25 14 2.04 6.13 2.41 8.55 98.90 4703.17 13 2.07 6.22 2.38 8.60 90.35 4703.08 12 2.10 6.31 2.34 8.66 81.75 4703.00 11 2.13 6.40 2.31 8.70 73.10 4702.92 10 2.15 6.46 2.28 8.74 64.39 4702.83 9 2.18 6.53 2.25 8.79 55.65 4702.75 8 2.20 6.60 2.23 8.82 46.86 4702.67 7 2.21 6.62 2.22 8.84 38.04 4702.58 6 0.00 0.00 4.87 4.87 29.20 4702.50 5 0.00 0.00 4.87 4.87 24.33 4702.42 4 0.00 0.00 4.87 4.87 19.47 4702.33 3 0.00 0.00 4.87 4.87 14.60 4702.25 2 0.00 0.00 4.87 4.87 9.73 4702.17 1 0.00 0.00 4.87 4.87 4.87 4702.08 StormTech SC-740 Cumulative Storage Volumes The Flats - Basin A 101 sf min. area Include Perimeter Stone in Calculations Click Here for Metric The Flats - Basin B (South)2/4/2021 Lot 1 Block 16 - Baxter Meadows Sub PH 2A Stormwater Run-off Calculation Calculation of Required Volume for Storm Water Retention & Infitration System Design Rainfall Freq. 10 year - 2 Hour event IDF coefficient a 0.64 IDF coefficient b IDF coefficient n 0.65 Post-development Calculations: C Areas (ft2):Roof Area 2,282 0.90 Roof Area 2,202 0.90 Garage Impervious 1,111 0.90 Sidewalk Total: 5,595 0.90 Retention Basin Calculation: Q = CIA C = 0.90 (post-development) I = 0.41 in/hr (10-yr, 2-hr storm) A = 0.13 acres Qpost =0.05 cfs Required retention storage (ft3) =341 ft3 (10-yr, 2-hr storm) Retention Basin - B User Inputs Chamber Model: SC-740 Outlet Control Structure: No Project Name: The Flats - Basin B (South) Engineer: Chris Budeski Project Location: Montana Measurement Type: Imperial Required Storage Volume: 341 cubic ft. Stone Porosity: 40% Stone Foundation Depth: 6 in. Stone Above Chambers: 6 in. Average Cover Over Chambers: 18 in. Design Constraint Dimensions:(8 ft. x 40 ft.) Results System Volume and Bed Size Installed Storage Volume: 390.74 cubic ft. Storage Volume Per Chamber: 45.90 cubic ft. Number Of Chambers Required: 4 Number Of End Caps Required: 2 Chamber Rows: 1 Maximum Length:32.07 ft. Maximum Width: 6.25 ft. Approx. Bed Size Required: 200.42 square ft. System Components Amount Of Stone Required: 19.18 cubic yards Volume Of Excavation (Not Including Fill): 25.98 cubic yards Project: Chamber Model - SC-740 Units -Imperial Number of chambers -3 Voids in the stone (porosity) - 40 % Base of Stone Elevation -4704.00 ft Amount of Stone Above Chambers - 6 in Amount of Stone Below Chambers - 18 in 9 Area of system - 146 sf Min. Area - Height of System Incremental Single Chamber Incremental Total Chamber Incremental Stone Incremental Ch & St Cumulative Chamber Elevation (inches)(cubic feet)(cubic feet)(cubic feet)(cubic feet)(cubic feet)(feet) 54 0.00 0.00 4.87 4.87 345.51 4708.50 53 0.00 0.00 4.87 4.87 340.64 4708.42 52 0.00 0.00 4.87 4.87 335.78 4708.33 51 0.00 0.00 4.87 4.87 330.91 4708.25 50 0.00 0.00 4.87 4.87 326.04 4708.17 49 0.00 0.00 4.87 4.87 321.18 4708.08 48 0.05 0.16 4.80 4.97 316.31 4708.00 47 0.16 0.49 4.67 5.16 311.35 4707.92 46 0.28 0.85 4.53 5.37 306.19 4707.83 45 0.60 1.81 4.14 5.95 300.81 4707.75 44 0.80 2.41 3.90 6.31 294.86 4707.67 43 0.95 2.85 3.73 6.58 288.55 4707.58 42 1.07 3.22 3.58 6.80 281.97 4707.50 41 1.18 3.54 3.45 6.99 275.17 4707.42 40 1.27 3.80 3.35 7.14 268.18 4707.33 39 1.36 4.07 3.24 7.31 261.03 4707.25 38 1.45 4.36 3.12 7.48 253.73 4707.17 37 1.52 4.57 3.04 7.61 246.24 4707.08 36 1.58 4.75 2.97 7.71 238.63 4707.00 35 1.64 4.93 2.90 7.82 230.92 4706.92 34 1.70 5.10 2.83 7.93 223.09 4706.83 33 1.75 5.26 2.76 8.02 215.17 4706.75 32 1.80 5.41 2.70 8.11 207.15 4706.67 31 1.85 5.56 2.64 8.21 199.04 4706.58 30 1.89 5.68 2.59 8.27 190.83 4706.50 29 1.93 5.80 2.55 8.35 182.56 4706.42 28 1.97 5.92 2.50 8.42 174.21 4706.33 27 2.01 6.03 2.45 8.48 165.79 4706.25 26 2.04 6.13 2.41 8.55 157.30 4706.17 25 2.07 6.22 2.38 8.60 148.75 4706.08 24 2.10 6.31 2.34 8.66 140.15 4706.00 23 2.13 6.40 2.31 8.70 131.50 4705.92 22 2.15 6.46 2.28 8.74 122.79 4705.83 21 2.18 6.53 2.25 8.79 114.05 4705.75 20 2.20 6.60 2.23 8.82 105.26 4705.67 19 2.21 6.62 2.22 8.84 96.44 4705.58 18 0.00 0.00 4.87 4.87 87.60 4705.50 17 0.00 0.00 4.87 4.87 82.73 4705.42 16 0.00 0.00 4.87 4.87 77.87 4705.33 15 0.00 0.00 4.87 4.87 73.00 4705.25 14 0.00 0.00 4.87 4.87 68.13 4705.17 13 0.00 0.00 4.87 4.87 63.27 4705.08 12 0.00 0.00 4.87 4.87 58.40 4705.00 11 0.00 0.00 4.87 4.87 53.53 4704.92 10 0.00 0.00 4.87 4.87 48.67 4704.83 9 0.00 0.00 4.87 4.87 43.80 4704.75 8 0.00 0.00 4.87 4.87 38.93 4704.67 7 0.00 0.00 4.87 4.87 34.07 4704.58 6 0.00 0.00 4.87 4.87 29.20 4704.50 5 0.00 0.00 4.87 4.87 24.33 4704.42 4 0.00 0.00 4.87 4.87 19.47 4704.33 3 0.00 0.00 4.87 4.87 14.60 4704.25 2 0.00 0.00 4.87 4.87 9.73 4704.17 1 0.00 0.00 4.87 4.87 4.87 4704.08 StormTech SC-740 Cumulative Storage Volumes The Flats - Basin B 101 sf min. area Include Perimeter Stone in Calculations Click Here for Metric The Flats - Basin C 2/4/2021 Lot 1 Block 16 - Baxter Meadows Sub PH 2A Stormwater Run-off and Basin Capcity Calculation Calculation of Required Volume for Storm Water Retention & Infitration System Design Rainfall Freq. 10 year - 2 Hour event IDF coefficient a 0.64 IDF coefficient b IDF coefficient n 0.65 Post-development Calculations: C Areas (ft2):Impervious 3,145 0.90 Landscaped 880 0.20 Total: 4,025 0.75 Retention Basin Calculation: Q = CIA C = 0.75 (post-development) I = 0.41 in/hr (10-yr, 2-hr storm) A = 0.09 acres Qpost =0.03 cfs Required retention storage (ft3) =204 ft3 (10-yr, 2-hr storm) Volume held between contours: Cumulative Contour Area (ft2) Delta V (ft 3) Volume (ft 3) 4706.00 40 4706.50 96 34 34 4707.00 220 79 113 4707.35 364 102 215 Design storage at 1.35' depth (ft3) =215 ft3 Retention Basin - C Piezometer Original Top of Casing*Allied Well Ground Elevation Elevation 02.15.14 02.15.14 Elevation 04.08.14*04.26.14*05.09.14*05.21.14*06.24.14*07.30.14*09.06.14*10.17.14*12.12.14*01.14.15* #4 4698.12 4699.03 6.00 4692.12 5.30 5.70 5.76 5.58 5.65 6.77 6.00 6.77 6.16 6.14 #5 4699.24 4700.43 5.50 4693.74 5.31 5.70 5.63 5.61 5.74 6.40 5.90 6.67 5.85 5.87 #6 4698.7 4700.22 5.50 4693.20 5.80 5.80 5.90 5.90 5.85 6.19 5.95 6.86 5.79 5.70 Average 5.47 5.73 5.76 5.70 5.75 6.45 5.95 6.77 5.93 5.90 Dewatering taking place. TP 10-12 had mud instead of groundwater. Elevation marked indicates level of mud. These TPs were near the dewatering. Four Points Major Subdivision - Depth to Groundwater Appendix C – Retention System Calculations And ADS Storm Chamber Design Appendix D – Stormwater Maintenance Plan STORMWATER MAINTENANCE PLAN The Flats The recommended stormwater facility maintenance is displayed below. It is the Property Owner’s Associations responsibility for routine inspection and maintenance of the following items: 1. Keep roof drains and storm drain manholes free of leaves, litter, and other debris. 2. Keep the inlets of the facilities free of leaves, rocks, and other debris. 3. Quarterly inspect and clean roof drains and infiltration systems. 4. Follow the O&M procedures for the Isolator Row Plus and ADS Stormtech SC-740 infiltration system. _______________________________ Property Owners Association