SU1645632A1 - Method of compressing air in a screw compressor - Google Patents

Abstract

The invention improves the efficiency of the compressor. The gas coming from the suction chamber 3 is compressed in the cavity (P) 2 of compression and through the injection port 6 enters the discharge line. At the same time, sealing coolant 8 is supplied to P 2, both through nozzles 5 in housing 1 and through injection window 6, for which it is necessary that the pressure of fluid 8 supplied through window 6 exceeds the pressure in P 2, for example, during compressor operation external doge mode, i.e. when the pressure in the discharge line has reached the maximum pressure for certain geometrical parameters of the compressor. The delivery of fluid 8 to P 2 seals the gaps between P 2 and the next operating P., which prevents flow and increases the efficiency of the compressor. 1 il.

Description

The invention relates to compressor engineering and can be used in a screw compressor.

The purpose of the invention is improving efficiency.

The drawing schematically shows a screw compressor.

The screw compressor comprises a housing 1, compression cavities 2, a suction chamber 3, rotors 4, nozzles 5 made in the housing 1 and connected to the liquid supply systems, and a discharge window 6. The compression method is carried out by supplying liquid to the compression cavity 2 through the injection window 6, for which it is necessary that the pressure of the supplied liquid exceeds the pressure in the compression cavity 2.

The compression method can be carried out in the external compression mode, i.e. when the gas pressure in the discharge line reaches the maximum pressure for certain geometrical parameters of the compressor, and the compressor continues to operate. In this case, for the implementation of the method, it is sufficient to fill the injection chamber 7 with a lubricating coolant 8. The injection chamber 7 can be combined with an oil separator. In this case, the method is as follows.

The rotors 4 rotating in the housing 1 capture gas from the suction chamber 3 and compress it in the compression cavities 2, while the latter is supplied with sealing and cooling liquid from the fluid supply system through the nozzles 5. Compressed gas through the injection window 6, periodically communicating with various cavities 2 compression, enters the pressure chamber 7. At the moment of communication of the compression cavity 2 with the injection window 6 during external compression, the liquid 8 from the injection chamber 7 rushes into the compression cavity 2 together with the compressed gas of the injection chamber 7 and under the action of the pressure of this gas exceeding the gas pressure in the compression cavity 2. The liquid 8. getting into the compression cavity 2 seals the gaps between the compression cavity 2 and the adjacent working cavity. With further rotation of the rotors 4, the gas-oil mixture from the compression cavity 2 is forced into the discharge chamber 7 and then into the discharge line (not shown), increasing the pressure in the latter.

Thus, leakage in the compressor is reduced, which reduces the energy consumption for gas compression.

Claims (1)

Claim The method of compression of gas in a screw compressor containing a compression cavity and a discharge window, including the flow of liquid into the compression cavity, characterized in that. in order to improve efficiency by compacting the working gaps in the compressor, part of the liquid is supplied to the compression cavity through the discharge window at the moment of its opening.