RU2012111481A - TWO-ROTOR AIR COMPRESSOR FOR STEAM-GAS PLANTS - Google Patents

Abstract

1. Air two-rotor compressor mainly for combined cycle plants, containing a single housing, inside which is located the rotor of the low-pressure compressor and the rotor of the high-pressure compressor with the corresponding guide devices, thrust bearings and thrust bearings, characterized in that the compressor rotors are driven by fundamentally different turbines - steam and gas located on different sides of the compressor (steam - from the intake side of atmospheric air, and gas - from the discharge side ), The degree of air compression in the compressor low pressure εopredelyaetsya by equating the power utilization of the steam turbine power the low pressure compressor, and the degree of compression of the air in the high pressure compressor εravnagde ε - total degree of air compression by double kompressore.2. The air two-rotor compressor according to claim 1, characterized in that the low-pressure compressor is high-speed with a speed of 75 ÷ 100 Hz at air flow rates not exceeding its flow rate in compressors of powerful modern gas turbine units, and low-speed with a frequency of 25 Hz, if the air flow in compressor exceed the ultimate performance of existing powerful compressors.

Claims (2)

1. Air two-rotor compressor mainly for combined cycle plants, containing a single housing, inside which is located the rotor of the low-pressure compressor and the rotor of the high-pressure compressor with the corresponding guide devices, thrust bearings and thrust bearings, characterized in that the compressor rotors are driven by fundamentally different turbines - steam and gas located on different sides of the compressor (steam - from the intake side of atmospheric air, and gas - from the discharge side ), The degree of low pressure air compression in the compressor ε ₁ is determined from the condition that the capacity utilization of the steam turbine power the low pressure compressor, and the degree of compression of the air in the high pressure compressor is equal to ε ₂ $${\epsilon }_2=\raisebox{1ex}{$\epsilon $}\!\left/ \!\raisebox{-1ex}{${\epsilon }_{\mathrm{one}}$}\right.,$$

where ε is the total air compression ratio of a two-rotor compressor. 2. The air two-rotor compressor according to claim 1, characterized in that the low-pressure compressor is high-speed with a speed of 75 ÷ 100 Hz at air flow rates not exceeding its costs in compressors of powerful modern gas turbine plants, and low-speed with a frequency of 25 Hz, if the costs air in the compressor exceeds the ultimate performance of existing powerful compressors.