a.) The expansion ratio during the isobaric heat addition process in an Ericsson Cycle is 3.5. Determine the Thermal Efficiency in (%) b.) The pressure ratio during the constant volume heat addition of a Stirling Cycle is 4. What is the thermal efficiency in (%)? c.) The Pressure ratio during the constant volume heat addition of a Stirling Cycle is 4. Heat is rejected at 90°C. What is the highest temperature in the cycle in (Celcius)?
SOLVE: ANSWERS SHOULD BE IN SIX SIGNIFICANT FIGURES:
a.) The expansion ratio during the isobaric heat addition process in an Ericsson Cycle is 3.5. Determine the Thermal Efficiency in (%)
b.) The pressure ratio during the constant volume heat addition of a Stirling Cycle is 4. What is the thermal efficiency in (%)?
c.) The Pressure ratio during the constant volume heat addition of a Stirling Cycle is 4. Heat is rejected at 90°C. What is the highest temperature in the cycle in (Celcius)?
d.) A Stirling cycle operates on a thermal efficiency of 70%. The lowest temperature in the cycle is recorded to be at 50°C, Determine the highest temperature in the cycle in (Kelvin)
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SOLVE: ANSWERS SHOULD BE IN SIX SIGNIFICANT FIGURES:
FOLLOW UP QUESTION
d.) A Stirling cycle operates on a thermal efficiency of 70%. The lowest temperature in the cycle is recorded to be at 50°C, Determine the highest temperature in the cycle in (Kelvin)