A rigid tank is divided into two parts by a partition as shown in Figure 1. Initially, one side of the tank contains 0.01 m3 of Refrigerant-134a that exists as a saturated liquid at 0.8 MPa while the other side is evacuated. The partition is then removed, and the refrigerant expands into the entire tank. The refrigerant is allowed to exchange heat with its surroundings until the temperature and pressure in the tank achieve the value of 30 °C and 200 kPa respectively. Calculate the total vohlume of the tank. Evacuated tank
A rigid tank is divided into two parts by a partition as shown in Figure 1. Initially, one side of the tank contains 0.01 m3 of Refrigerant-134a that exists as a saturated liquid at 0.8 MPa while the other side is evacuated. The partition is then removed, and the refrigerant expands into the entire tank. The refrigerant is allowed to exchange heat with its surroundings until the temperature and pressure in the tank achieve the value of 30 °C and 200 kPa respectively. Calculate the total vohlume of the tank. Evacuated tank
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Subject : Thermofluid
Transcribed Image Text:A rigid tank is divided into two parts by a partition as shown in Figure 1. Initially, one
side of the tank contains 0.01 m3 of Refrigerant-134a that exists as a saturated liquid at
0.8 MPa while the other side is evacuated. The partition is then removed, and the
refrigerant expands into the entire tank. The refrigerant is allowed to exchange heat with
its surroundings until the temperature and pressure in the tank achieve the value of 30
°C and 200 kPa respectively.
Calculate the total volume of the tank.
Evacuated
tank
Figure 1. Partition tank.
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