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1. Water is flowing through a 0.75 m diameter pipe. The velocity distribution in the pipe is given by: =10[1-6] where r is the radial distance from the centreline and R is the radius of the pipe. Determine the volumetric flow rate and average velocity of water in the pipe. [Ans. Q = 2.2 m³s-1, V = 5 ms ¹] Ux

1. Water is flowing through a 0.75 m diameter pipe. The velocity distribution in the pipe is given by: =10[1-6] where r is the radial distance from the centreline and R is the radius of the pipe. Determine the volumetric flow rate and average velocity of water in the pipe. [Ans. Q = 2.2 m³s-1, V = 5 ms ¹] Ux

Introduction to Chemical Engineering Thermodynamics
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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2. Water is pumped into a storage tank at a velocity of 6 m s-¹ through a 60 mm diameter pipe and is discharged from the tank at a rate of 0.003 m³ s-1. Calculate the rate of accumulation of water in the tank. [Ans. 0.014 m³ s¹]
Transcribed Image Text:2. Water is pumped into a storage tank at a velocity of 6 m s-¹ through a 60 mm diameter pipe and is discharged from the tank at a rate of 0.003 m³ s-1. Calculate the rate of accumulation of water in the tank. [Ans. 0.014 m³ s¹]
1. Water is flowing through a 0.75 m diameter pipe. The velocity distribution in the pipe is given by: A where r is the radial distance from the centreline and R is the radius of the pipe. Determine the volumetric flow rate and average velocity of water in the pipe. [Ans. Q = 2.2 m³s-¹, V = 5 ms-¹] = T (A)² 4 = -10[1-6] Ux= 10 I (0.76)* -0.44 m² 4 Q=JuxdA
Transcribed Image Text:1. Water is flowing through a 0.75 m diameter pipe. The velocity distribution in the pipe is given by: A where r is the radial distance from the centreline and R is the radius of the pipe. Determine the volumetric flow rate and average velocity of water in the pipe. [Ans. Q = 2.2 m³s-¹, V = 5 ms-¹] = T (A)² 4 = -10[1-6] Ux= 10 I (0.76)* -0.44 m² 4 Q=JuxdA
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