Water at 60° F flows by gravity from a large reservoir at a high elevation to a smaller one at a lower elevation through a 60-ft-long, 2-in-diameter cast iron piping system that includes four 90° flanged elbows, a well-rounded entrance, a sharp-edged exit, and a fully open gate valve. Taking the free surface of the lower reservoir as the reference level, determine the required elevation z1 of the higher reservoir if the flow rate is 13 ft/min. Use a = = 1.04.
Water at 60° F flows by gravity from a large reservoir at a high elevation to a smaller one at a lower elevation through a 60-ft-long, 2-in-diameter cast iron piping system that includes four 90° flanged elbows, a well-rounded entrance, a sharp-edged exit, and a fully open gate valve. Taking the free surface of the lower reservoir as the reference level, determine the required elevation z1 of the higher reservoir if the flow rate is 13 ft/min. Use a = = 1.04.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:Water at 60° F flows by gravity from a large reservoir at a high elevation to a smaller one at a lower elevation
through a 60-ft-long, 2-in-diameter cast iron piping system that includes four 90° flanged elbows, a well-rounded
entrance, a sharp-edged exit, and a fully open gate valve. Taking the free surface of the lower reservoir as the
reference level, determine the required elevation zi of the higher reservoir if the flow rate is 13 ft/min. Use a= 1.04.
l a
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