Using the appropriate Thermodynamic Properties Table, determine the state (Superheated Vapor, Compressed Liquid, Saturated Liquid-Vapor mixture, etc.) and the requested properties for each case below. a. CO2 at 1000 kPa, u = 341 kJ/kg. Find T and v. b. R-134a at 30°C, 0.0130 m3/kg. Find x and h. c. Water at 20 lbf/in2, h = 433 Btu/lbm. Find P and v. d. R-410A at -40°C, 500 kPa. Find v and x. e. Ammonia at 95 lbf/in2, 4.5 ft3/lbm. Find T and h.
Using the appropriate Thermodynamic Properties Table, determine the state (Superheated Vapor, Compressed Liquid, Saturated Liquid-Vapor mixture, etc.) and the requested properties for each case below. a. CO2 at 1000 kPa, u = 341 kJ/kg. Find T and v. b. R-134a at 30°C, 0.0130 m3/kg. Find x and h. c. Water at 20 lbf/in2, h = 433 Btu/lbm. Find P and v. d. R-410A at -40°C, 500 kPa. Find v and x. e. Ammonia at 95 lbf/in2, 4.5 ft3/lbm. Find T and h.
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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Using the appropriate
state (Superheated Vapor, Compressed Liquid, Saturated Liquid-Vapor
mixture, etc.) and the requested properties for each case below.
a. CO2 at 1000 kPa, u = 341 kJ/kg. Find T and v.
b. R-134a at 30°C, 0.0130 m3/kg. Find x and h.
c. Water at 20 lbf/in2, h = 433 Btu/lbm. Find P and v.
d. R-410A at -40°C, 500 kPa. Find v and x.
e. Ammonia at 95 lbf/in2, 4.5 ft3/lbm. Find T and h.
Also please explain your answer.
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