Natural gas at 70°F is flowing at a steady mass rate through a steel pipe with an inside diamete of 12 inches. Absolute pressure drops from 30 to 15 atm in 400 miles of horizontal pipe. 1. Calculate Ne a. 44,000 b. 66,000 c. 83,000 d. None of the above 2. Calculate the volumetric flow rate (ft³h ¹) at 70°F and normal barometric pressure a. 38,000 b. 130,000 c. 390,000 d. None of the above 3. Calculate linear velocity (ft-s-¹) a. 13 b. 26 C. 39 d. None of the above
Natural gas at 70°F is flowing at a steady mass rate through a steel pipe with an inside diamete of 12 inches. Absolute pressure drops from 30 to 15 atm in 400 miles of horizontal pipe. 1. Calculate Ne a. 44,000 b. 66,000 c. 83,000 d. None of the above 2. Calculate the volumetric flow rate (ft³h ¹) at 70°F and normal barometric pressure a. 38,000 b. 130,000 c. 390,000 d. None of the above 3. Calculate linear velocity (ft-s-¹) a. 13 b. 26 C. 39 d. None of the above
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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Transcribed Image Text:Natural gas at 70°F is flowing at a steady mass rate through a steel pipe with an inside diameter
of 12 inches. Absolute pressure drops from 30 to 15 atm in 400 miles of horizontal pipe.
1. Calculate NRe
a. 44,000
b. 66,000
c. 83,000
d. None of the above
2. Calculate the volumetric flow rate (ft³h-¹) at 70°F and normal barometric pressure
a. 38,000
b. 130,000
c. 390,000
d. None of the above
3. Calculate linear velocity (ft-s-¹)
a. 13
b. 26
C. 39
d. None of the above
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