Methane enters a 3.00-cm ID pipe at 30.0°C and 10.0 bar with an average velocity of 8.00 m/s and emerges at a point 200.0 m higher than the inlet at 30.0°C and 9.00 bar. Calculate ΔE⋅k and ΔE⋅p, assuming that the methane behaves as an ideal gas.
Methane enters a 3.00-cm ID pipe at 30.0°C and 10.0 bar with an average velocity of 8.00 m/s and emerges at a point 200.0 m higher than the inlet at 30.0°C and 9.00 bar. Calculate ΔE⋅k and ΔE⋅p, assuming that the methane behaves as an ideal gas.
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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Methane enters a 3.00-cm ID pipe at 30.0°C and 10.0 bar with an average velocity of 8.00 m/s and emerges at a point 200.0 m higher than the inlet at 30.0°C and 9.00 bar.
Calculate ΔE⋅k and ΔE⋅p, assuming that the methane behaves as an ideal gas.
Transcribed Image Text:Estimate Edotk and Edotp
X Check significant figures and signs throughout the calculations.
Make sure that you have the correct units for R (pressures are in bar).
Calculate AEr and AE,, assuming that the methane behaves as an ideal gas.
ΔΕ : i
70.36
AEp: i
0.2695
Hint
Assistance Used
1. Calculate the mass flow rate of methane using ideal-gas behavior
2. Calculate A(mgh)
3. Calculate the exit velocity.
4. Calculate 1/2 m Av²
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