40 kg of air at 345 kPa is contained a rigid vessel at temperature 20 deg.C, heat is then applied until the temperature reaches 320 deg.C. Determine the final pressure, work done, and heat. A P2 = 698.2 kPa; W done = - 3950.57 K); Q = 12074.4 KJ B P2 = 698.2 kPa; W done = 0; Q = 8623.2 KJ P2 = 5520 kPa; W done = 3950.57 KJ; Q = 12074.4 KJ 5520 kPa; W done = 0; Q = 8623.2 KJ

40 kg of air at 345 kPa is contained a rigid vessel at temperature 20 deg.C, heat is then applied until the temperature reaches 320 deg.C. Determine the final pressure, work done, and heat. A P2 = 698.2 kPa; W done = - 3950.57 K); Q = 12074.4 KJ B P2 = 698.2 kPa; W done = 0; Q = 8623.2 KJ P2 = 5520 kPa; W done = 3950.57 KJ; Q = 12074.4 KJ 5520 kPa; W done = 0; Q = 8623.2 KJ

Refrigeration and Air Conditioning Technology (MindTap Course List)

8th Edition

ISBN:9781305578296

Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson

Publisher:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson

Chapter2: Matter And Energy

Section: Chapter Questions

Problem 29RQ: If 3000 ft3 of air is crossing an evaporator coil and iscooled from 75F to 55F, what would be the...

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Concept explainers

Work and Heat Transfer

It is generally related to thermal engineering which tells about the use, creation, conversion and transfer of heat energy between the systems. It is also considered that to transfer heat from one source to another, transfer of masses is also required. There are various mechanisms by which, transfer of heat takes place i.e. thermal conduction, convection, radiation or by change of phase. All these mechanisms have their own specific features which sometimes occur simultaneously within the same system.

Question

40 kg of air at 345 kPa is contained a rigid vessel at temperature 20 deg.C, heat is then applied until the temperature reaches 320 deg.C.
Determine the final pressure, work done, and heat.
A P2 = 698.2 kPa; W done = - 3950.57 K); Q = 12074.4 KJ
B P2 = 698.2 kPa; W done = 0; Q = 8623.2 KJ
P2 = 5520 kPa; W done = 3950.57 KJ; Q = 12074.4 KJ
5520 kPa; W done = 0; Q = 8623.2 KJ

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