30 tonnes of ice from and at 0°C is produced in a day of 24 hours by an ammonia refrigerator. The temperature range in the compressor is from 298 K to 258 K. The vapour is dry saturated at the end of compression and expansion valve is used. Assume a co-efficient of performance of 60% of the theoretical and calculate the power in kW required to drive the compressor. Latent heat of ice is 334.72 kJ/kg. Entropy of liquid kJlkg K Entropy of vapour kJ/ kg Тетр. Enthalpy kJ/ kg K Liquid Vapour 298 100.04 1319.22 0.3473 4.4852 258 -54.56 1304.99 - 2.1338 5.0585

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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11. 30 tonnes of ice from and at 0°C is produced in a day of 24 hours by an ammonia refrigerator. The
temperature range in the compressor is from 298 K to 258 K. The vapour is dry saturated at the end of
compression and expansion valve is used. Assume a co-efficient of performance of 60% of the theoretical
and calculate the power in kW required to drive the compressor. Latent heat of ice is 334.72 kJ/kg.
Enthalpy
Entropy of liquid
Entropy of vapour
kJ/kg
Тетр.
K
kJ/ kg
kJ/ kg K
Liquid
Vapour
298
100.04
1319.22
0.3473
4.4852
258
-54.56
1304.99
- 2.1338
5.0585
[Ans. 21.59 kW]
Transcribed Image Text:11. 30 tonnes of ice from and at 0°C is produced in a day of 24 hours by an ammonia refrigerator. The temperature range in the compressor is from 298 K to 258 K. The vapour is dry saturated at the end of compression and expansion valve is used. Assume a co-efficient of performance of 60% of the theoretical and calculate the power in kW required to drive the compressor. Latent heat of ice is 334.72 kJ/kg. Enthalpy Entropy of liquid Entropy of vapour kJ/kg Тетр. K kJ/ kg kJ/ kg K Liquid Vapour 298 100.04 1319.22 0.3473 4.4852 258 -54.56 1304.99 - 2.1338 5.0585 [Ans. 21.59 kW]
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