Why is the reversed Carnot cycle executed within the saturation dome not a realistic model for refrigeration cycles?
Why is the reversed Carnot cycle executed within the saturation dome not a realistic model for refrigeration cycles.
Explanation of Solution
A reversed Carnot cycle consists of an isentropic and isothermal process. Generally, the reversed Carnot cycle cannot be used an ideal model for refrigeration purpose since the isentropic process needed a maximum operational speed, but the isothermal process needed a very less operational speed.
The reversed Carnot cycle performed with the saturation dome for refrigeration cycles since the process of compression comprises the mixture of liquid-vapor compression and that needed a compressor to take care of two phases, and the process of expansion comprises the expansion of refrigerant having large moisture content.
Hence, the reversed Carnot cycle performed within the saturation dome.
Want to see more full solutions like this?
Chapter 11 Solutions
EBK THERMODYNAMICS: AN ENGINEERING APPR
Additional Engineering Textbook Solutions
Electric Circuits. (11th Edition)
Fluid Mechanics: Fundamentals and Applications
SURVEY OF OPERATING SYSTEMS
Vector Mechanics for Engineers: Statics and Dynamics
Mechanics of Materials (10th Edition)
Automotive Technology: Principles, Diagnosis, And Service (6th Edition) (halderman Automotive Series)
- Refrigerators currently being manufactured in the United States are using______as their refrigerant.arrow_forwardCondensers in these refrigerators are all_______cooled.arrow_forwardThe operating condition for the single compressor in a household refrigerator is the lowest box temperature, which is typically A. 0F B. -20F C. 20F D. 40Farrow_forward
- The defrost cycle in a domestic refrigerator may be terminated by two methods: ___and___.arrow_forwardDefine net refrigeration effect as it applies to the refrigeration cycle.arrow_forwardA split air conditioning unit operating on vapor compression cycle uses Refrigerant (R-134a). The various state points of refrigerant (R-134a) are shown on the TS diagram. Determine the following a) The refrigerating effect 3 (b) Compressor work 3 (c) The heat rejected in the condenser 2 (d) The COP of heating 2 (e) The tonnage capacity of the unit for the refrigerant mass flow of 0.025 Kg/s.arrow_forward
- Need help with parts f, g, and harrow_forwardyou design a custom refrigeration system using 1,1,2-tetrafluoroethane (R-134a) as refrigerant.You design your ideal compression-based refrigeration cycle to operate between 2 bar and 9 bar. Before enteringthe ideal butterfly valve (delta H = 0), the refrigerant is a saturated liquid. Before entering the compressor, therefrigerant is saturated vapor. In fact, in isentropic operation, the refrigerant which leaves the compressor is alsosaturated vapor. The operation of the compressor and the evaporator is isobaric. Assuming a mass flow rate of1.5 kg / s, determine the compressor efficiency required to achieve a coefficient of performance of 6.96. Whatis ?? ̇ et ?? ̇ to this performance.arrow_forwardAn ideal ammonia (R – 717) vapor-compression refrigeration cycle has an evaporator temperature of –20 C and a condenser pressure of 12 bar. Saturated vapor enters the compressor, and saturated liquid exits the condenser. The mass flow rate of the refrigerant is 3 kg/min. Determine the compressor work, kW.arrow_forward
- Please only answer question 4 Parts C and Darrow_forwardA vapor-compression refrigeration cycle with Refrigerant 134a as the working fluid operates with an evapo-rator temperature of 50◦F and a condenser pressure of 180 lbf/in2Saturated vapor enters the compressor. Refrigerantenters the condenser at 140◦F and exits as saturated liquid. The cycle has a refrigeration capacity of 5 tons (a) the refrigerant mass flow rate, in lb/min. b) the compressor isentropic efficiency. (c) the compressor power, in horsepower. (d) the coefficient of performance.arrow_forwardAn ideal ammonia (R – 717) vapor-compression refrigeration cycle has an evaporator temperature of –20 C and a condenser pressure of 12 bar. Saturated vapor enters the compressor, and saturated liquid exits the condenser. The mass flow rate of the refrigerant is 3 kg/min. Determine the coefficient of performance.arrow_forward
- Refrigeration and Air Conditioning Technology (Mi...Mechanical EngineeringISBN:9781305578296Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill JohnsonPublisher:Cengage Learning