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7. Mollier diagram
7.1 Refrigerant state transition on Mollier diagram
1) Refrigerant changes iso-barically and iso-thermally in evaporator, so enthalpy (the heat absorbed from evapora-
tor) increases as shown in Figure 7.1 below.
2) In compressor, as the running speed of compressor is fast, it is thought there is no thermal input/output from or
to the outside within a short time, which is regarded as an adiabatic change. Accordingly the compression
process rises upto the discharge pressure along the iso-entropic line and the amount of energy of the
compressor is the same as the enthalpy change of refrigerant between compressor cylinder inlet and outlet.
3) In condenser, the overheated vapor is cooled as much as the
degree of overheat, saturated, and then condensed and
somewhat over-cooled. The process is established by an isobar
process, so an enthalpy down (the calorie emitted from
condenser) happens horizontally on diagram.
4) Expansion process is a throttle expansion which there is no
enthalpy change before and after the expansion valve and the
pressure and temperature drop, so the process changes
vertically downward.
7.2 How to draw a refrigerating cycle
For example, draw a refrigerating cycle under the following operating condition.
1) Evaporation & condensation temperature :
Find an evaporation temperature 8°C on the saturated
liquid line or saturated vapor line in Mollier diagram
and draw a horizontal line, isobar line (pressure 6.54
kg/cm
abs) from that point. In the same manner, draw
2
a isobar line at condensation temperature 46°C, and
the evaporation and condensation process changes
states between two isobar lines.
P
2
P
=18.1kg/cm, abs
d
P
= 6.54kg/
s
2
cm, abs
Figure 7.2 Evaporation & condensation temperature
2) Suction gas state of compressor : The state of compressor suction gas is the same as that of refrigerant at
evaporator outlet, and the evaporation temperature and is 8°C and the degree of superheat is 8°C, so the
temperature of suction gas is to be 16°C Accordingly the state point of compressor suction gas is the
intersection between pressure 6.54 kg/cm
pressure 6.54 kg/cm
Kcal/kg °K. (See Figure 7.3)
TCL Air Conditioner Service Manual
tc = 46 C
tc = 8 C
i
abs, temperature 16°C, enthalpy 152.0 Kcal/kg, non-volume 0.0024m
2
Refrigerant
Evaporation temp.
Condensation temp.
Overheat temp. of suction gas.
Temp. just before expansion valve.
P
s
P
Figure 7.3 Suction gas state of compressor
abs at wet vapor 8°C and superheat vapor 16°C, and is a point of
2
10
Condensation
P
Expansion
Evaporation
Figure 7.1 Refrigerating cycle
tc = 16°C
Evaporation
i
i
R-22
8°C
46°C
8°C
40°C
A
16°C
8°C
152kcal/kg
/kg, entropy 1.182
3
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Troubleshooting
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Do you have a question about the TAC-07CS and is the answer not in the manual?
Questions and answers
Cual es la conexión de la entrada de corriente de split tcl
The power input connection for the TCL TAC-07CS split air conditioner is as follows:
- For the indoor unit: Connect terminals 1 (WHITE), 2 (BLUE), and 3 (BROWN) to the corresponding terminals on the outdoor unit.
- The power supply connects to terminals L (BROWN) and N (BLUE) on the indoor unit.
- A GREEN/YELLOW wire is used for grounding.
- A 25A circuit breaker or time delay fuse should be installed between the main power source and the unit if a power plug is not used.
This answer is automatically generated