A refrigeration cycle removes heat at a rate of 250kJ/min from a cold space maintained at...

A refrigeration cycle extracts heat QL from a refrigeration space that needs to be maintained at...

A refrigeration cycle extracts heat QL from a refrigeration space that needs to be maintained at TL=275K and rejects the heat QH through a condenser to a sink at TH=400K. For all of the cases mentioned below, determine whether the refrigeration cycle is a reversible, irreversible or is an impossible one. You must show proper working in support of your response. COPR=6 Wnet,in=200kJ,QH=1575kJ Wnet,in=80kJ,QL=1000kJ QL=1200kJ,QH=2000kJ

A refrigeration cycle receives energy QL from a low temperature body at TL = 250 K...

A refrigeration cycle receives energy QL from a low temperature body at TL = 250 K and rejects energy QH to a high temperature body at TH = 300 K. For each of the following cases determine whether the cycle operates reversibly, irreversible, or is impossible. (a) QL = 1000 kJ, Wcycle = 400 kJ. (b) QL =1500kJ,QH =1800kJ. (c) QH = 1500 kJ, Wcycle = 200 kJ. (d) COP=4.

A vapor-compression refrigeration cycle operates at steady state with Refrigerant 134a as the working fluid. Saturated...

A vapor-compression refrigeration cycle operates at steady state with Refrigerant 134a as the working fluid. Saturated vapor enters the compressor at 2 bar, and saturated liquid exits the condenser at 8 bar. The isentropic compressor efficiency is 80%. The mass flow rate of refrigerant is 7 kg/min. Determine: (a) the compressor power, in kW, (b) the refrigeration capacity, in tons, (1 ton = 3.5168 kW) and, (c) the coefficient of performance, (d) rate of entropy production in kW/K, for the...

A cooling plant adopted a two-stage cascade refrigeration system to meet the required cooling load. In...

A cooling plant adopted a two-stage cascade refrigeration system to meet the required cooling load. In both upper and lower cycles, the refrigerant leaves condenser as saturated liquid and enters compressor as saturated vapor. The isentropic efficiency of the upper cycle compressor is 80 %, while the lower cycle compressor is 70% efficient. The pressure limits of the upper and lower cycles are 1 MPa and 0.2 MPa with refrigerant-134a, respectively. Heat rejection from the lower cycle to the upper...

Refrigerant 134a is the working fluid in an ideal vapor-compression refrigeration cycle operating at steady state....

Refrigerant 134a is the working fluid in an ideal vapor-compression refrigeration cycle operating at steady state. Refrigerant enters the compressor at 1 bar, -12°C, and the condenser pressure is 9 bar. Liquid exits the condenser at 32°C. The mass flow rate of refrigerant is 7 kg/min. Determine: (a) the magnitude of the compressor power, in kW. (b) the refrigeration capacity, in tons. (c) the coefficient of performance.

An ideal vapor-compression refrigeration cycle operates at steady state with Refrigerant 134a as the working fluid....

An ideal vapor-compression refrigeration cycle operates at steady state with Refrigerant 134a as the working fluid. Saturated vapor enters the compressor at 1 bar, and saturated liquid exits the condenser at 4 bar. The mass flow rate of refrigerant is 8.5 kg/min. Determine the compressor power, in kW.

Consider a commercial refrigerator which operates on the refrigeration cycle. R- 134a is used as the...

Consider a commercial refrigerator which operates on the refrigeration cycle. R- 134a is used as the working uid and the refrigerated space is kept at -25oC by rejecting its waste heat to cooling water that enters the condenser at room temperature, that is 20oC, at a rate of 0.1 kg/s and leaves at 40oC. The refrigerant enters the condenser at 1.2 MPa and 70oC and leaves at 40oC. The inlet state of the compressor is saturated vapor at 100 kPa...

A two-stage cascade refrigeration system is shown below. The refrigerant is R134a. It consists of two...

A two-stage cascade refrigeration system is shown below. The refrigerant is R134a. It consists of two ideal vapor-compression cycles with heat exchange between the condenser of the lowertemperature cycle and the evaporator of the higher-temperature cycle. The hotter cycle operates between 0.7 MPa and 0.35 MPa, while the cooler cycle operates between 0.35 MPa and 0.12 MPa. If the flow rate in the hotter cycle is 0.5 mol/s, determine the following: What is the flow rate in the cooler cycle?...

2) A heat engine operates between two fixed temperature reservoirs, TH = 127 0C, TC =...

2) A heat engine operates between two fixed temperature reservoirs, TH = 127 0C, TC = 7 0C. In each cycle 5 J are extracted from the hot reservoir and 4 J are deposited into the cold reservoir. [ 0 0C = 273 K] (a) How much work is performed by the engine per cycle ? (4) (b) What is the efficiency of the engine ? (4) (c) What is the entropy change of the hot reservoir during one cycle...

1. An aluminum rod conducts 9.70 cal/s from a heat source maintained at 245 ∘C to...

1. An aluminum rod conducts 9.70 cal/s from a heat source maintained at 245 ∘C to a large body of water at 23 ∘C. Calculate the rate at which entropy increases in this process. 2. The working substance of a certain Carnot engine is 1.90 mol of an ideal monatomic gas. During the isothermal expansion portion of this engine's cycle, the volume of the gas doubles, while during the adiabatic expansion the volume increases by a factor of 5.7. The...