Question

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.

Answer #1

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.

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...

An idea vapor-compression refrigeration cycle, with refrigerant
R-22 as the working fluid, has an evaporator temperature of -12 °C
and a condenser pressure of 15 bar. Saturated vapor enters the
compressor, and saturated liquid exits the condenser. The
refrigerating capacity is 4 tons.
a.Determine the compressor power (in kW).
b.Determine the mass flow rate of the refrigerant (in
kg/min).
c.Determine the coefficient of performance.

Refrigerant 134a is the working fluid in a vapor-compression
heat pump that provides 35 kW to heat a dwelling on a day when the
outside temperature is below freezing. Saturated vapor enters the
compressor at 2.6 bar, and saturated liquid exits the condenser,
which operates at 8 bar. Determine for an isentropic compressor
efficiency of 85%: (a) the refrigerant mass flow rate, in kg/s. (b)
the magnitude of the compressor power, in kW. (c) the coefficient
of performance.

Consider a 280 kJ/min refrigeration system that operates on an
ideal vapor-compression refrigeration cycle with refrigerant-134a
as the working fluid. The refrigerant enters the compressor as
saturated vapor at 140 kPa and is compressed to 800 kPa. The
saturated refrigerant-134a—pressure table (in SI units) is given
below. Determine the quality of the refrigerant at the end of the
throttling process.

An ice-making machine operates on the ideal vapor-compression
cycle, using R-134a. The refrigerant enters the compressor as
saturated vapor at 140 kPa and leaves the condenser as saturated
liquid at 600 kPa. Water enters the ice machine at 13oC and leaves
as ice at -4oC, while removing heat at 393 kJ per kg of water.
Estimate the mass flow rate of the refrigerant and the power input
to the ice machine for an ice production rate of 7 kg/h.

Refrigerant 134a is the working fluid in a vapor-compression
heat pump system with a heating capacity of 60,000 Btu/h. The
condenser operates at 240 lbf/in.2, and the evaporator temperature
is 0°F. The refrigerant is a saturated vapor at the evaporator exit
and a liquid at 110°F at the condenser exit. Pressure drops in the
flows through the evaporator and condenser are negligible. The
compression process is adiabatic, and the temperature at the
compressor exit is 180°F. Determine (a) the mass...

An air conditioner using refrigerant-134a as the working fluid
and operating on the ideal vapor-compression refrigeration cycle is
to maintain a space at 36°C while operating its condenser at 1600
kPa. Determine the COP of the system when a temperature difference
of 4°C is allowed for the transfer of heat in the evaporator. (Take
the required values from saturated refrigerant-134a tables.)

An ice-making machine operates on the ideal vapor-compression
cycle, using refrigerant-134a. The refrigerant enters the
compressor as saturated vapor at 20 psia and leaves the condenser
as saturated liquid at 80 psia. Water enters the ice machine at
55°F and leaves as ice at 25°F. For an ice production rate of 15
lbm/h, determine the power input to the ice machine (169 Btu of
heat needs to be removed. Compressor's efficiency is 90 percent

an ideal vapor compression refrigeration cycle using
refrigerant-134a as the working fluid is used to cool a brine
solution to -5degrees Celsius. This solution is pumped to various
buildings for the purpose of air-conditioning. The refrigerant
evaporates at -10 degrees Celsius with a total mass flow rate of
7kg/s and condenses at 600kPa
Determine
a) the COP of the cycle and
b) The total cooling load

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