The system in Fig. below consists of 1200 m of 5 cm cast iron pipe, two 45° and four 90° flanged long-radius elbows a fully open flanged globe valve, and a sharp exit into a reservoir. If the elevation at point 1 is 400 m, what a fully open flanged globe valve, and a sharp exit gage pressure is required at point 1 to deliver 0.005 m'/s of water at 20°C into the reservoir? Take ( u = 0.001 Pa.s) and the minor losses may be listed as follows:
The system in Fig. below consists of 1200 m of 5 cm cast iron pipe, two 45° and four 90° flanged long-radius elbows a fully open flanged globe valve, and a sharp exit into a reservoir. If the elevation at point 1 is 400 m, what a fully open flanged globe valve, and a sharp exit gage pressure is required at point 1 to deliver 0.005 m'/s of water at 20°C into the reservoir? Take ( u = 0.001 Pa.s) and the minor losses may be listed as follows:
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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![The system in Fig. below consists of 1200 m of 5 cm cast iron pipe, two 45° and four
90° flanged long-radius elbows a fully open flanged globe valve, and a sharp exit into a
reservoir. If the elevation at point 1 is 400 m, what a fully open flanged globe valve, and
a sharp exit gage pressure is required at point 1 to deliver 0.005 m'/s of water at 20°C
into the reservoir?
Take ( u = 0.001 Pa.s) and the minor losses may be listed as follows:](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F09dc5fba-d792-4375-903c-7c44a46afd05%2F87c11bc5-081a-4298-a8b5-b52d9ea24fc8%2Fw3wd4o_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The system in Fig. below consists of 1200 m of 5 cm cast iron pipe, two 45° and four
90° flanged long-radius elbows a fully open flanged globe valve, and a sharp exit into a
reservoir. If the elevation at point 1 is 400 m, what a fully open flanged globe valve, and
a sharp exit gage pressure is required at point 1 to deliver 0.005 m'/s of water at 20°C
into the reservoir?
Take ( u = 0.001 Pa.s) and the minor losses may be listed as follows:
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