A refrigerating system using R - 22 is used to keep the refrigerated space at –30°C. The refrigeration load is 15 kJ/s. The refrigerant leaves the evaporator with 5-degree superheat and at 160 kPa. The refrigerant enters the condenser at 1200 kPa and 60°C and exits at 28°C. Determine the mass flow rate of R- 22 required by the system, in kg/min.

Instructions:

• Demonstrates thorough understanding of the problem and precisely identifies and collects all
  significant data and requirements of the problem.
• A realistic diagram/illustration of the physical system indicating relevant information in the figure.
• Assumptions and approximations are sufficiently and clearly stated.
• Selects an effective and efficient problem – solving strategy that will lead to a valid and accurate
  solution to the problem. Relevant physical laws and principles were identified. Realistic constraints were
  considered and well-defined before solutions are implemented.
• Accurately implements the problem – solving strategy to achieve a valid and accurate solution. No
  errors are present.
• Provides concise and insightful justification to the solution using appropriate data.

Transcribed Image Text:

A refrigerating system using R - 22 is used to keep the refrigerated space at –30°C. The refrigeration load is 15 kJis. The refrigerant leaves the evaporator with 5-degree superheat and at 160 kPa. The refrigerant enters the condenser at 1200 kPa and 60°C and exits at 28°C. Determine the mass flow rate of R- 22 required by the system, in kg/min.