As shown in Figure D, three water reservoirs are connected by three pipes. The diameters in each pipe is 1 ft and the Fanning friction factor in each pipe is 0.02. The effective lengths of each pipe...


As shown in Figure D, three water reservoirs are connected by three pipes.<br>The diameters in each pipe is 1 ft and the Fanning friction factor in each pipe<br>is 0.02. The effective lengths of each pipe are given in the Figure along with<br>other relevant data. Determine the flow rate into or out of each reservoir as<br>well as the Reynolds number in each pipe.<br>(Hint: Start the computations by assuming that the water flows into reservoir<br>B).<br>

Extracted text: As shown in Figure D, three water reservoirs are connected by three pipes. The diameters in each pipe is 1 ft and the Fanning friction factor in each pipe is 0.02. The effective lengths of each pipe are given in the Figure along with other relevant data. Determine the flow rate into or out of each reservoir as well as the Reynolds number in each pipe. (Hint: Start the computations by assuming that the water flows into reservoir B).
figure D<br>A<br>Elevation : 100ft<br>La=lo0oft<br>A<br>S= 6 2. 3 Wm<br>fit 3<br>Le: Sooft<br>Elevation : 20 ft<br>0.000 672<br>fts<br>Elevatiou: O ft<br>し- 4o04<br>

Extracted text: figure D A Elevation : 100ft La=lo0oft A S= 6 2. 3 Wm fit 3 Le: Sooft Elevation : 20 ft 0.000 672 fts Elevatiou: O ft し- 4o04

Jun 09, 2022
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