ld storage uses R134a, the evaporator temperature is -7C and the condenser temperature is 32C. The cooling load is 5.3103 kJ/min. The cycle is ideal. Determine: 1. Mass flowrate of the refrigerant. 2. Coefficient of Performance (COP). - If
ld storage uses R134a, the evaporator temperature is -7C and the condenser temperature is 32C. The cooling load is 5.3103 kJ/min. The cycle is ideal. Determine: 1. Mass flowrate of the refrigerant. 2. Coefficient of Performance (COP). - If
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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Cold storage uses R134a, the evaporator temperature is -7C and the condenser temperature is 32C. The cooling load is 5.3103 kJ/min. The cycle is ideal. Determine:
1. Mass flowrate of the refrigerant.
2. Coefficient of Performance (COP).
- If the water condenser is used that enter at 24C and exit at 30C. determine the
water flowrate.
Transcribed Image Text:Q4/ Cold storage uses R134a, the evaporator temperature is -7°C and the condenser
temperature is 32°C. The cooling load is 5.3×10³ kJ/min. The cycle is ideal. Determine:
1. Mass flowrate of the refrigerant.
2. Coefficient of Performance (COP).
If the water condenser is used that enter at 24°C and exit at 30°C. determine the
water flowrate.
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