Consider the piston-cylinder arrangement shown, in which the friction-free piston is free to move between two sets of bumpers. When the piston remains at the bottom stops, the volume is 400L. When the piston reaches the upper stops the volume is 600L. The cylinder initially contains water at 100 kPa, and 20% quality. The cylinder is heated until eventually the water exists as saturated steam. If the mass of The piston requires 300 kPa to move against the outside atmospheric pressure. Determine the final pressure in the cylinder, heat transfer. Plot the process on a P-T-v diagram. Answer: 361.2 kPa, 2079.18 kJ

Consider the piston-cylinder arrangement shown, in which the friction-free piston is free to move between two sets of bumpers. When the piston remains at the bottom stops, the volume is 400L. When the piston reaches the upper stops the volume is 600L. The cylinder initially contains water at 100 kPa, and 20% quality. The cylinder is heated until eventually the water exists as saturated steam. If the mass of The piston requires 300 kPa to move against the outside atmospheric pressure. Determine the final pressure in the cylinder, heat transfer. Plot the process on a P-T-v diagram. Answer: 361.2 kPa, 2079.18 kJ

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

Consider the piston-cylinder arrangement shown, in which the
friction-free piston is free to move between
two sets of bumpers. When the piston remains at the bottom
stops, the volume is 400L. When the
piston reaches the upper stops the volume is 600L. The
cylinder initially contains water at 100 kPa, and 20%
quality. The cylinder is heated until eventually the water exists
as saturated steam. If the mass of
The piston requires 300 kPa to move against the outside
atmospheric pressure. Determine the final pressure in the
cylinder, heat transfer. Plot the process on a P-T-v diagram.
Answer: 361.2 kPa, 2079.18 kJ

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