- 26
- Sep
Operation steps of venting of industrial chiller of freon system
Operation steps of venting of industrial chiller of freon system
1. The venting operation steps of the industrial chiller of the Freon system
1. Close the outlet valve of the accumulator or the outlet valve of the condenser;
2. Start the compressor and collect the refrigerant in the low-pressure section into the condenser or accumulator;
3. After the low pressure system pressure drops to a stable vacuum state, the machine will stop;
4. Loosen the screw plug of the bypass hole of the exhaust shut-off valve and turn it about half a turn. Block the exhaust airflow with the palm of your hand. When the hand feels cold air and oil stains on your hand, it means that the air has been basically exhausted. Tighten the screw plug, reverse the exhaust valve stem, and close the bypass hole.
5. It should be noted that the time of each deflation should not be too long, and it can be performed continuously for 2 to 3 times to avoid wasting refrigerant. If there is a backup shut-off valve on the top of the condenser or accumulator, the air can also be discharged directly from the valve.
2. Operation steps of venting industrial chiller of refrigerant refrigeration system
1. When using an air separator to discharge air, place the return valve of the air separator in a normally open state to reduce the pressure of the air separator to the suction pressure, and all other valves should be closed.
2. Properly open the mixed gas inlet valve to allow the mixed gas in the chiller refrigeration system to enter the air separator.
3. Slightly open the liquid supply valve to throttle the refrigerant into the air separator to vaporize and absorb heat to cool the mixed gas.
4. Connect the rubber hose used for the air release valve interface so that one end is inserted into the water in the water container. When the refrigerant in the mixed gas is cooled into ammonia liquid, frost will form on the bottom of the air separator. At this time, the air valve can be slightly opened to discharge the air through the water container. If the bubbles are round in the process of rising in the water, and there is no volume change, the water is not turbid and the temperature does not rise, then air is released. At this time, the opening of the air release valve should be appropriate.
5. The refrigerant in the mixed gas is gradually condensed into refrigerant liquid and accumulated at the bottom. The liquid level can be seen from the frosting condition of the shell. When the liquid level reaches 12, close the liquid supply throttle valve and open the liquid return throttle valve. The bottom refrigerant liquid is returned to the air separator to cool the mixed gas. When the bottom frost layer is about to melt, close the liquid return throttle valve and open the liquid supply throttle valve.
6. When stopping the air discharge, first close the air discharge valve to prevent the refrigerant from leaking out, and then close the liquid supply throttle valve and the mixed gas inlet valve. In order to prevent the pressure in the air release device from increasing, the return valve should not be closed.