RU2011140740A - LIQUID-RING COMPRESSOR (OPTIONS) AND UNDERWATER COMPRESSOR UNIT - Google Patents

Abstract

1. A liquid-ring compressor comprising a shaft, an inner casing of the main body located around the shaft to form a chamber located between the shaft and the casing, an inlet part configured to remove part of the liquid from the moist gas and direct the wet gas into the chamber, and rotatable in the chamber and configured to direct the remaining portion of the liquid in the moist gas to the inner casing of the main body to form a liquid ring in the chamber to compress wet gas. 2. The liquid ring compressor of claim 1, wherein the inlet portion is a toroidal scroll inlet portion. The liquid-ring compressor according to claim 1, wherein the inlet part comprises an inlet inner casing with an inner part adapted to receive wet gas, an inlet outer casing located around the inlet inner casing to form a liquid collecting chamber therebetween, and an opening in the inlet inner casing, designed to ensure the direction of the separated part of the liquid in the chamber for collecting liquid. 4. The liquid-ring compressor according to claim 3, wherein the inlet inner casing is connected to the shaft to direct moist gas into the inlet chamber located inside the shaft. The liquid-ring compressor according to claim 1, wherein the shaft is a hollow shaft, and the inner casing of the main body is rotatable together with the impeller. The liquid ring compressor according to claim 1, wherein the shaft is rotatable together with the impeller, and the inner casing of the main body remains

Claims (20)

1. A liquid ring compressor comprising shaft, the inner casing of the main body located around the shaft with the formation of the chamber located between the shaft and the specified casing, an inlet portion configured to remove part of the liquid from the wet gas and direct the wet gas into the chamber, and an impeller rotatably disposed in the chamber and configured to direct the remaining portion of the liquid in the moist gas to the inner casing of the main body to form a liquid ring in said chamber for compressing the wet gas. 2. The liquid ring compressor of claim 1, wherein the inlet portion is a toroidal scroll inlet portion. 3. The liquid-ring compressor according to claim 1, in which the inlet part contains an inlet inner casing with an inner part configured to receive wet gas, an inlet outer casing located around the inlet inner casing with the formation of a liquid collection chamber between them, and openings in the inlet inner casing, configured to direct the separated portion of the fluid to the fluid collection chamber. 4. The liquid-ring compressor according to claim 3, in which the inlet inner casing is connected to the shaft to direct moist gas into the inlet chamber located inside the shaft. 5. The liquid-ring compressor according to claim 1, in which the shaft is a hollow shaft, and the inner casing of the main body is made to rotate together with the impeller. 6. The liquid-ring compressor according to claim 1, in which the shaft is made to rotate together with the impeller, and the inner casing of the main body remains stationary. 7. The liquid-ring compressor according to claim 1, comprising an outer casing of the main body located around the inner casing of the main body with the formation of a volume for collecting liquid between them. 8. A liquid ring compressor comprising shaft, an inner casing located around the shaft to form a chamber between the shaft and the inner casing, an impeller rotatably disposed in the chamber and configured to direct the liquid to the inner casing to form a liquid ring in said chamber to compress the wet gas, openings for removing part of the liquid from the liquid ring, a gas-discharging portion connected to the chamber and for directing compressed wet gas from the liquid ring compressor, and a liquid-discharging part connected to the holes and intended to guide the liquid to be removed from the liquid ring compressor. 9. The liquid-ring compressor of claim 8, in which at least several holes are located in the inner casing. 10. The liquid-ring compressor of claim 8, containing a pair of end plates located on opposite ends of the inner casing, at least several holes are located in at least one of the end plates. 11. The liquid-ring compressor of claim 8, containing an outer casing located around the inner casing with the formation of a volume for collecting liquid between them, and these holes are located in the inner casing and are designed to direct the removed part of the liquid from the chamber to the volume for collecting liquid. 12. The liquid-ring compressor of claim 8, in which the inner casing is made to rotate together with the impeller, and the gas-emitting part contains an exhaust chamber located inside the shaft. 13. The liquid ring compressor of claim 8, wherein the shaft is rotatable together with the impeller. 14. An underwater compressor unit comprising a liquid ring compressor configured to remove liquid from the wet gas, and a conventional compressor located downstream of the liquid ring compressor and designed to compress the wet gas obtained from the liquid ring compressor. 15. The underwater compressor unit of claim 14, wherein the liquid ring compressor is configured to compress moist gas. 16. The underwater compressor installation according to 14, in which the liquid-ring compressor is configured to reduce fluctuations in the volume of liquid in the wet gas entering a conventional compressor. 17. The underwater compressor unit of claim 14, wherein the conventional compressor is a centrifugal compressor. 18. The underwater compressor unit of claim 14, wherein the liquid ring compressor and the conventional compressor are driven by a common shaft. 19. An underwater compressor unit according to claim 18, comprising a gearbox connected to the shaft between the liquid ring compressor and a conventional compressor. 20. The underwater compressor unit of claim 14, comprising stages of conventional compressors and / or liquid ring compressors.