B) Calculate the useful energy and the efficiency if collector area is (2 m²), flow rate is 0.03 kg/s, (tA) = 0.8, the global solar radiation for 1 h is 3.88 MJ/m², the collector operates at a temperature difference of 7 °C, and C, = 4180 kJ/kg°C.
B) Calculate the useful energy and the efficiency if collector area is (2 m²), flow rate is 0.03 kg/s, (tA) = 0.8, the global solar radiation for 1 h is 3.88 MJ/m², the collector operates at a temperature difference of 7 °C, and C, = 4180 kJ/kg°C.
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![B)
Calculate the useful energy and the efficiency if collector area is (2 m²), flow rate is
0.03 kg/s, (tA) = 0.8, the global solar radiation for 1 h is 3.88 MJ/m², the collector operates at a
temperature difference of 7 °C, and C, = 4180 kJ/kg°C.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc9282ac9-89d1-4826-a7d7-c476874ff062%2F4503554a-b7b6-4b9a-8e26-f292e20c8d2f%2Fgnsvi7c_processed.png&w=3840&q=75)
Transcribed Image Text:B)
Calculate the useful energy and the efficiency if collector area is (2 m²), flow rate is
0.03 kg/s, (tA) = 0.8, the global solar radiation for 1 h is 3.88 MJ/m², the collector operates at a
temperature difference of 7 °C, and C, = 4180 kJ/kg°C.
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