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Home My WebLink About010-Hydrant Flow TestFIRE HYDRANT FLOW TEST Location:Catalyst Street - COB Hydrant #:1889 Date:2/17/2023Time: Weather and Temp: Headwaters #:1086.019 Data collected during the test: Flowed Hydrant 1889 Static Pressure, Ps (psi)120 Pitot Pressure, P (psi)86 Flowrate during test, Qt (gpm)1555 Residual Hydrant 1890 Static Pressure (psi)120 Residual Pressure during test (psi)110 Calculations: Discharge Coefficient, Cd 0.85 Outlet diameter, D (in)2.5 Unit conversion factor, Cf (29.8 English)29.8 Hydrant discharge, Q (gpm)=Cf*Cd*D2(P)1/2 1468 Residual Pressure @ flowed hydrant, Pt (psi)110 Hazen-Williams Formula: QR=Qt*((Ps-Pr)/(Ps-Pt))0.54 Desired residual pressure, Pr (psi)20 Fire flow at residual pressure, QR (gpm) =5,091 Pressure vs. Flow curve data points at flowed hydrant: P (psi)Head Q (gpm) 120 277 0 92 213 2,545 Pr = Ps-(Ps-Pt)(Qr/Qt)1.85 20 47 5,091 Note: Hydrant discharge, Q, is calculated as a check for the reliability of Qt above Note: QR is calculated to evaluate the capacity of the distribution system near the tested hydrant at a given residual pressure. Note: Rearrange the Hazen-Williams formula to provide a rough estimate of residual pressure at a flow data point near the average of 0 gpm and flow at 20 psi and enter that data point into the graph above for water modeling purposes. 0, 277 2,545, 213 5,091, 47 0 50 100 150 200 250 300 0 1,000 2,000 3,000 4,000 5,000 6,000Pressure, P (psi)Flow, Q (gpm) Water Main Pressure vs. Flow Capacity H:\1086\019\DOCS\DESIGN\WATER\Hydrant Flow Test.xls Printed: 2/20/2023