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9:39 PM Wed Nov 1 < X ESET 300-... G Q O Q O O MMET 376... 2.25 in ... MMET 303... 1.50 in T-in
9:39 PM Wed Nov 1 < X ESET 300-... G Q O Q O O MMET 376... 2.25 in ... MMET 303... 1.50 in T-in OD E- HW2 3. As shown in the figure below, ethylene glycol (sg= 1.10) at 77F flows around the tubes and inside the rectangular passage. Calculate the volume flow rate of ethylene glycol in gal/min required for the flow to have a Reynolds number of 8000. Then, compute the energy loss over a length of 128 in. All surfaces are brass. The dynamic viscosity of ethylene glycol is 3.38104 lbf-s/ft. Note that Ywater = 62.4 lbf/ft, g-32.2 ft/s2, 1 ft = 12 in, and 1 ft/sec = 449 gal/min. (25 Points) 1 P=2.132 16/f43 Re = 0.049-in-wall-thickness brass tubes 8000= - 8 O PUL M X 2.132 U 100% 2 380+Hw7_1
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Applied Fluid Mechanics
Authors: Robert L. Mott, Joseph A. Untener
7th edition
132558920, 9780133414622 , 978-0132558921
