Refrigeration Cycle Design Project This assignment is a collaborative learning assignment. Work in teams assigned. Teams may consult each other but each team must prepare a project results poster presentation in PowerPoint and submit a letter report done up in WordTM Problem Statement A refrigeration system is to be designed to maintain the temperature in the range Tlowmin to ThOWmax, while the outside temperature varies from THIOHmin to THIGHmax, as given in the team assignment matrix below. The total thermal load on the storage unit is given as 36 kW. Obtain an initial design for the vapor compression refrigeration system shown in Figure 1. Choose a safe and suitable refrigerant. For safe operation and other factors, such as additional energy transfer, design the system using a safety factor of 1.25. The compressor efficiency could range from 60 to 80 percent In the course of your design you will need to specify or/and determine the temperatures and pressures at the different states and show the cycle with the vapor dome on a temperature entropy (T-s) diagram or pressure enthalpy (p-H) diagram, or both. Also, you must determine the coefficient of performance value and the mass flow rate of the working fluid. Further guidance on the expectations for the presentation and letter report will be provided during this week. The team assignments and design condition are shown in the table. The temperature ranges for the LOW and HIGH operating temperatures for the cycle give the range of values that may be expected for Tlow and THIGH, respectively. Significant insight to the design strategy can be gained by reviewing the paper published by Mulaweh and Arfad. Thermodynamic data is a crucial requirement for success in this design activity. There are various sources of such data readily available. You may need to do some searching to find data for a suitable refrigerant for your assigned conditions Refrigeration Cycle Design Project This assignment is a collaborative learning assignment. Work in teams assigned. Teams may consult each other but each team must prepare a project results poster presentation in PowerPoint and submit a letter report done up in WordTM Problem Statement A refrigeration system is to be designed to maintain the temperature in the range Tlowmin to ThOWmax, while the outside temperature varies from THIOHmin to THIGHmax, as given in the team assignment matrix below. The total thermal load on the storage unit is given as 36 kW. Obtain an initial design for the vapor compression refrigeration system shown in Figure 1. Choose a safe and suitable refrigerant. For safe operation and other factors, such as additional energy transfer, design the system using a safety factor of 1.25. The compressor efficiency could range from 60 to 80 percent In the course of your design you will need to specify or/and determine the temperatures and pressures at the different states and show the cycle with the vapor dome on a temperature entropy (T-s) diagram or pressure enthalpy (p-H) diagram, or both. Also, you must determine the coefficient of performance value and the mass flow rate of the working fluid. Further guidance on the expectations for the presentation and letter report will be provided during this week. The team assignments and design condition are shown in the table. The temperature ranges for the LOW and HIGH operating temperatures for the cycle give the range of values that may be expected for Tlow and THIGH, respectively. Significant insight to the design strategy can be gained by reviewing the paper published by Mulaweh and Arfad. Thermodynamic data is a crucial requirement for success in this design activity. There are various sources of such data readily available. You may need to do some searching to find data for a suitable refrigerant for your assigned conditions