Q: The working fluid, in a steady flow process flows at a rate of 220 kg/min. the fluid rejects 100 kj/s passing through the system. The conditions of the fluid at inlet and outlet are given as: c1- 320 m/s, pl-6.0 bar, ul- 2000 kg/kg, v1- 0.36m3/kg and c2= 140 m/s, p2-1.2 bar, u2= 1400 kj/kg, v2= 1.3 m3/kg. Determine the power capacity of the system in MW. The change in potential energy may be neglected.
Q: The working fluid, in a steady flow process flows at a rate of 220 kg/min. the fluid rejects 100 kj/s passing through the system. The conditions of the fluid at inlet and outlet are given as: c1- 320 m/s, pl-6.0 bar, ul- 2000 kg/kg, v1- 0.36m3/kg and c2= 140 m/s, p2-1.2 bar, u2= 1400 kj/kg, v2= 1.3 m3/kg. Determine the power capacity of the system in MW. The change in potential energy may be neglected.
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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Q: The working fluid, in a steady flow process flows at a rate of 220 kg/min. the
fluid rejects 100 kj/s passing through the system. The conditions of the fluid at inlet
and outlet are given as: cl= 320 m/s, pl=6.0 bar, ul= 2000 kg/kg, vl= 0.36m3/kg
and c2= 140 m/s, p2= 1.2 bar, u2= 1400 kj/kg, v2= 1.3 m3/kg. Determine the power
capacity of the system in MW. The change in potential energy may be neglected.
O O
A
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