Water with mass of 9.7 kg is initially at 800 kPa with entropy of 7.957 kJ/kg. K. It then undergoes an isobaric process until the enthalpy becomes 2500 kJ/kg. The process is then followed by an isometric compression until the pressure reaches 900 kPa. Finally, the refrigerant undergoes an isothermal process until it becomes saturated liquid. Assume the system to be adiabatic and neglect all changes in kinetic and potential energies. Analyze the temperature
Water with mass of 9.7 kg is initially at 800 kPa with entropy of 7.957 kJ/kg. K. It then undergoes an isobaric process until the enthalpy becomes 2500 kJ/kg. The process is then followed by an isometric compression until the pressure reaches 900 kPa. Finally, the refrigerant undergoes an isothermal process until it becomes saturated liquid. Assume the system to be adiabatic and neglect all changes in kinetic and potential energies. Analyze the temperature
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Water with mass of 9.7 kg is initially at 800 kPa with entropy of 7.957 kJ/kg. K. It then undergoes an isobaric process until the enthalpy becomes 2500 kJ/kg. The process is then followed by an isometric compression until the pressure reaches 900 kPa. Finally, the refrigerant undergoes an isothermal process until it becomes saturated liquid. Assume the system to be adiabatic and neglect all changes in kinetic and potential energies.
- Analyze the temperature, pressure, specific volume, quality (if any) and phase state for each stage of the processes.
- Illustrate a t-v diagram with respect to saturation lines by indicating all temperature, pressure and specific volume obtained in (a).
- Compute the changes of internal energy, ΔU, during the isometric process
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