The piping system shown in the figure is to move ethylene glycol at a flow rate of 50 gpm. Follow the suggested design procedure and select a suitable pipe size and pump for the system. A A: Globe valves (2 of them) B: Union fittings (4 with 2 not shown) C: Plate welded to tank to suppress air entrainment in pump inlet D: Elbows: there are five 90° elbows and two 45° elbows The pipe is all wrought iron, with threaded fittings, schedule 40. Pipe lengths total 35.36 m. Total inlet pipe length from tank to pump is 1.22 m. z1 = 1.22 m and z2 = 3.66 m.

The piping system shown in the figure is to move ethylene glycol at a flow rate of 50 gpm. Follow the suggested design procedure and select a suitable pipe size and pump for the system. A A: Globe valves (2 of them) B: Union fittings (4 with 2 not shown) C: Plate welded to tank to suppress air entrainment in pump inlet D: Elbows: there are five 90° elbows and two 45° elbows The pipe is all wrought iron, with threaded fittings, schedule 40. Pipe lengths total 35.36 m. Total inlet pipe length from tank to pump is 1.22 m. z1 = 1.22 m and z2 = 3.66 m.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Question

The piping system shown in the figure is to move ethylene glycol at a flow rate of 50 gpm.
Follow the suggested design procedure and select a suitable pipe size and pump for the system.
A
B
A: Globe valves (2 of them)
B: Union fittings (4 with 2 not shown)
C: Plate welded to tank to suppress air entrainment in pump inlet
D: Elbows: there are five 90° elbows and two 45° elbows
The pipe is all wrought iron, with threaded fittings, schedule 40.
Pipe lengths total 35.36 m.
Total inlet pipe length from tank to pump is 1.22 m.
z1 = 1.22 m and z2 = 3.66 m.

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