A petroleum crude oil having a density of 892 kg/m3 is flowing through the piping arrangement shown at a total rate of 1.388 x 10-3 m3/s entering pipe 1. The flow divides equally in each of pipes 3. The steel pipes are schedule 40 pipe. Calculate the following SI units. (a) The total mass flow rate in pipes 1 and 3. Ans. 1.238 kg/s, 0.619 kg/s (b) The average velocity in 1, 2 and 3. Ans. 0.641 m/s (pipe 1), 0.528 m/s (pipe 3) (c) The mass velocity G in 1. Ans. 572 kg/m-s2 Pipe 1: 2-in pipe, D1 = 2.067 in Pipe 2: 3-in pipe, D2 = 3.068 in Pipe 3: 1 ½ - in pipe, D3=1.610 in
A petroleum crude oil having a density of 892 kg/m3 is flowing through the piping arrangement shown at a total rate of 1.388 x 10-3 m3/s entering pipe 1. The flow divides equally in each of pipes 3. The steel pipes are schedule 40 pipe. Calculate the following SI units. (a) The total mass flow rate in pipes 1 and 3. Ans. 1.238 kg/s, 0.619 kg/s (b) The average velocity in 1, 2 and 3. Ans. 0.641 m/s (pipe 1), 0.528 m/s (pipe 3) (c) The mass velocity G in 1. Ans. 572 kg/m-s2 Pipe 1: 2-in pipe, D1 = 2.067 in Pipe 2: 3-in pipe, D2 = 3.068 in Pipe 3: 1 ½ - in pipe, D3=1.610 in
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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A petroleum crude oil having a density of 892 kg/m3 is flowing through the piping arrangement shown at a total rate of 1.388 x 10-3 m3/s entering pipe 1. The flow divides equally in each of pipes 3. The steel pipes are schedule 40 pipe. Calculate the following SI units.
(a) The total mass flow rate in pipes 1 and 3. Ans. 1.238 kg/s, 0.619 kg/s
(b) The average velocity in 1, 2 and 3. Ans. 0.641 m/s (pipe 1), 0.528 m/s (pipe 3)
(c) The mass velocity G in 1. Ans. 572 kg/m-s2
Pipe 1: 2-in pipe, D1 = 2.067 in Pipe 2: 3-in pipe, D2 = 3.068 in Pipe 3: 1 ½ - in pipe, D3=1.610 in
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