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Home My WebLink About211404 - SANITARY SEWER DEMAND CALCS (Signed) 2022.09.08 SANITARY SEWER DEMAND CALCULATIONS LOT 2 MINOR SUBDIVISION NO. 437 Prepared for: VISSER ARCHITECTS, P.C. 163 QUIET WATER WAY Manhattan, MT 59741 Prepared by: *IMEG Engineering and Surveying Inc. Project Number: 211404 September 2022 INTRODUCTION The Evergreen Shops Site Plan project proposes to develop Lot 2,Minor Subdivision No.437 into a commercial shop building consisting of three units. The property is located within the City of Bozeman and is zoned as M-2 (manufacturing and industrial district). The property is fronted by a city street, with Evergreen Drive being adjacent to the west property boundary. Water and sanitary sewer mains are located within Evergreen Drive to which a single water and sanitary sewer service will connect to the proposed building as shown on civil sheet C3.0. No fire lines are proposed. Sanitary Sewer Design Load The flow rates used herein are according to the City of Bozeman Design Standards and Specifications Policy (DSSP) dated March 2004 with approved Addendum No. 7 approved March 13, 2020. Based on Table V-1, the sewer discharge rate for a manufacturing and industrial use property (M-2) is 960 gallons/acre/day. As such, this 1.040-acre lot would result in a sanitary sewer discharge rate of 998.40 gallons per day.The peaking factor for the design area is determined by figuring the equivalent and inserting the population into the Harmon Formula. An estimated total of 32 employees and customers is assumed. Harmon Formula: Peaking Factor= (18 +Po s)/(4 +Po.$) where: P =Population in thousands Peaking Factor= (18 + 0.0160-5)/(4 + 0.0160.$) Peaking Factor=4.39 Assumed infiltration rate = 150 gallons/acre/day= 150 (1.040 acres) = 156 gal/day The peak flow rate is calculated by multiplying the City's design generation rate by the peaking factor, and adding the infiltration rate: Peak Flow Rate = (998) (4.39) + 156 gpd = 4,542 gpd = 3.15 gpm = 0.007 cfs The capacity of a 4-inch service is checked using Manning's Equation: Qf,u = (1.486/0.013)AR2i3Sv2 For an 4-inch service: Manning's n = 0.013 for PVC Pipe Minimum Slope = 0.02 ft/ft A=area= (3.14/4)d 2= (3.14/4)(4/12)2= 0.0873 ft2 P =perimeter=2(3.14)r=2(3.14)(2/12) = 1.0472 ft R=hydraulic radius =A/P = 0.0872/1.046 = 0.0834 ft R2i3 = 0.1908 ft S = 0.02 ft/ft Sia = 0.1414ft/ft Qf,n = (1.486/0.013)(0.0873)(0.1908)(0.1414) = 0.2692 cfs Q75%= 0.75*Qf ii = 0.75*0.2692 cfs = 0.2019 cfs Connection: Q/Qf„u = 0.007/0.2692 =0.026 or 2.6% Based on these calculations, a 4-inch sewer line has adequate capacity to carry the design flows for the project. The City of Bozeman will confirm that their wastewater system has the capacity to handle this peak flow downgradient of the project.