Q3: The parallel piping gas system shown below is designed for flow rate of 3x10 m³/day.B CDEAB is 1.7 km in length with inside Diameter (Di) = 16 inch, BGE is 2.9 km with Di= 12 inch, CD is 2.2 km withDi= 10 inch, BC is 0.2 km with Di= 10 inch, DE is 0.2 km with Di= 10 inch, CHD is 2.5 km with Di = 8 inchand EF has Di-16 inch. If the gas gravity is 0.7, and the outlet pressure at point F= 6000 kPa, calculate the lengthof pipe EF and individual flow rates for parallel pipes. Other given values are inlet pressure A= 6800 kPa, flowingtemperature= 300 K, base temperature = 288 K, base pressure 101.3 kPa, Z=0.9, and f=(0.02).

Answered: Image /qna-images/answer/0f3eaa67-08dc-4fa2-9b25-5d9fbc3ddf91.jpg

Q3: The parallel piping gas system shown below is designed for flow rate of 3x10 m/day. BC DE AB is 1.7 km in length with inside Diameter (Di) = 16 inch, BGE is 2.9 km with Di= 12 inch, CD is 2.2 km with 10 inch, CHD is 2.5 km with Di = 8 inch Di= 10 inch, BC is 0.2 km with Di= 10 inch, DE is 0.2 km with Di and EF has Di-16 inch. If the gas gravity is 0.7, and the outlet pressure at point F= 6000 kPa, calculate the length of pipe EF and individual flow rates for parallel pipes. Other given values are inlet pressure A= 6800 kPa, flowing temperature= 300 K, base temperature = 288 K, base pressure 101.3 kPa, Z=0.9, and f-(0.02).

Q3: The parallel piping gas system shown below is designed for flow rate of 3x10 m/day. BC DE AB is 1.7 km in length with inside Diameter (Di) = 16 inch, BGE is 2.9 km with Di= 12 inch, CD is 2.2 km with 10 inch, CHD is 2.5 km with Di = 8 inch Di= 10 inch, BC is 0.2 km with Di= 10 inch, DE is 0.2 km with Di and EF has Di-16 inch. If the gas gravity is 0.7, and the outlet pressure at point F= 6000 kPa, calculate the length of pipe EF and individual flow rates for parallel pipes. Other given values are inlet pressure A= 6800 kPa, flowing temperature= 300 K, base temperature = 288 K, base pressure 101.3 kPa, Z=0.9, and f-(0.02).

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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Question

Q3: The parallel piping gas system shown below is designed for flow rate of 3x10 m³/day.
B C
DE
AB is 1.7 km in length with inside Diameter (Di) = 16 inch, BGE is 2.9 km with Di= 12 inch, CD is 2.2 km with
Di= 10 inch, BC is 0.2 km with Di= 10 inch, DE is 0.2 km with Di= 10 inch, CHD is 2.5 km with Di = 8 inch
and EF has Di-16 inch. If the gas gravity is 0.7, and the outlet pressure at point F= 6000 kPa, calculate the length
of pipe EF and individual flow rates for parallel pipes. Other given values are inlet pressure A= 6800 kPa, flowing
temperature= 300 K, base temperature = 288 K, base pressure 101.3 kPa, Z=0.9, and f=(0.02).

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