To study refrigeration cycle, determine of coefficient of performance of cycle & determine of tonnage capacity of refrigeration unit.
Apparatus used: –
Refrigeration test Rig consists of (Compressor (rotary), Air cooler condenser, Capillary tube, Evaporator coil, voltmeter, current meter, voltmeter, energy meter, Thermocouple pressure gauge, vacuum gauge, and freezer
Description of the Test Rig:-
The experimental refrigeration cycle test rig consist of a compressor unit, condenser, evaporator, cooling chamber, controlling devices and measuring instruments those are fitted on a stand and a control panel. The apparatus is fabricated in such a way; to refrigeration system hermetically sealed compressor is fitted on stand with the help of flexible foundation bolts to minimize vibrations. Electric power input to the compressor is given through thermostatic switch.
Temperature sensor details: –
1. T1 = Temperature Sensor : Fixed at Compressor Discharge Line
2. T2 = Temperature Sensor : Fixed after Condenser
3. T3 = Temperature Sensor : Fixed after Capillary Tube
4. T4 = Temperature Sensor : Inside freezer
5. T5 = Temperature Sensor: Fixed at Compressor Suction Line.
Theory: –
The coefficient of performance of refrigeration plant is given by the ratio of heat absorbed, by the refrigerant when passing through the evaporator or the system, to the working input to the compressor to compress the refrigeration.
Co-efficient of Performance =
Heat removed by refrigerant / Power input Cop plant
= m Cp ΔT / K. Wh
Where
m = mass of water kept in cooling chamber
Cp = specific heat of water = 4.18 Kj /Kg K
ΔT = temperature of cooling water (K)
Kwh = 1000 x V.I x 60 x 60 KJ = V.I x KJ = V.I x 3600 KJ KWH = reading of energy meter.
Co-efficient of refrigeration cycle is given by the ratio of net refrigeration effect to the power required to run the compressor.
COP (cycle) Net refrigerant effect in unit time / Power input in unit time = m CpΔT / KwH
Where
(Q), = mass flow rate of the refrigerant m3 / sec Cp = Specific heat of refrigerant
ΔT = Temperature difference (T1-T3)
KWH = Kilowatt hours energy meter reading.
The co-efficient of performance of a refrigeration system is given by the ratio of heat absorb, to the work input.
COP = Heat removed by refrigerant / Power input
= m x CpΔT / K.Wh
Where,
m = mass of water kept in cooling chamber
Cp = specific heat of water = 4.18 Kj /Kg K
ΔT = temperature of cooling water K
Kwh = power consumed by the compressor in unit time. Tonnage capacity:
The capacity of a refrigeration machine is the refrigeration effect in a given time from a body. This capacity of machine is given by standard commercial ton of refrigeration. This is called as refrigerating effect i.e. melting of 1 ton of ice at 0°C in 24 hours.
TR = 336 x 1000 / 24 x 60 x 60 = 3.88 Kj / sec.
Tonnage capacity of the machine
= Net refrigerating effect of machine / 3.88
= m x CpΔT / 3.88
Procedure:
Switch on the compressor and let it run for considerable time. Say for automatic cut off by thermostatic switch at normal position. Fill a measured quantity of water in ice cane (100 gm) and put it into cooling chamber. Measure initial temperature of water before putting into cooling chamber by noting the value of T4 as T4i note down the energy meter reading. Wait till compressor starts. Compressor shall be started automatically as and when temperature of cooling chamber falls up to adjusted temperature.
After starting the compressor note down the temperature T4 at the interval of every 15 minutes and note it down as T4C.
Note down the power consumed by compressor till ice forms i.e. temperature T4 should reach O°C. At 0°C of ice cane note down all the temperature i.e. T1, T2, T3,
T4 and T5. Also note down the suction and discharge pressure by the respective gauges. Note down the flow rate of refrigerant by rotometer.
Hence Refrigeration effect TR = 336 x 1000 / 24 x 14000 KJ / hour
Where latent heat of fusion of ice = 336 KJ / kg.
Tonnage capacity of the plant
= Net refrigerant effect of plant / 14000 KJ / hour = m x CpΔT / 14000
Where,
m = mass of water kept in cooling chamber
Cp = initial and final heat of water = 4.18
ΔT = initial temp. T1- T2
T1 = initial temperature of water.
Tc = final temperature of water
Tonnage capacity of cycle
= Net refrigerating effect produced by refrigerant / 14000 Kj /h
= m x CpΔT / 14000 tones
Where, m = mass flow rate of refrigerant
Cp = Specific heat of refrigerant
ΔT = Temperature of refrigerant at discharge and suction = T1, T5
Observation Table
Calculation:
1 – COP (plant) = m x CpΔT / KWH
Where
m = Mass of water kept in ice cane (kg)
Cp = Specific heat of water = 4.18
AT = T4i – T4C
KWH = Total energy meter reading
(Final value – initial value of energy meter.)
Sample Calculation
COP = m. CpΔT / KWh = (20 x 4.187 x 12) /( 245 x 3.9)
Tonnage capacity = COP / 3.88 TR Result: –
Viva Question: –
1. Mention the advantages of vapour compression refrigeration system?
2. Describe the mechanism of a simple vapour compression refrigeration system?
3. What is sub cooling?
4. What is superheating?
5. Why is superheating considered to be good in certain cases?