RU2005113866A - COMPRESSOR SYSTEM FOR GAS COMPRESSION (OPTIONS) - Google Patents

Claims (11)

1. A compressor system for compressing gas, which includes an engine-driven compressor having at least a first inlet stage through which a stream of compressible gas flows to the compressor inlet from a gas source; compressor output for supplying gas to the discharge pipe; a gas dehumidification step that comprises a desiccant layer located along the gas flow path through the compressor during the gas compression cycle; a condenser that is located along the path of the gas flow through the compressor during the gas compression cycle, said condenser not working during the gas compression cycle; temperature control means for controlling the temperature of the desiccant layer and the condenser, which does not work during the gas compression cycle and is switched on when entering the regeneration cycle in order to heat the desiccant layer and cool the condenser; and a valve for switching the gas flow from the discharge outlet for recirculation through the compressor, due to which, during the regeneration cycle that occurs when the valve is activated, the gas trapped in the compressor, desiccant layer and condenser is sent from the compressor outlet for circulation in a closed loop as recirculation gas flow through the compressor, and at least a portion of such recirculation gas flow passes through the desiccant layer and the condenser, which allows you to remove the released moisture from the desiccant layer with the help of gas irkulyatsii the condenser where it condenses due to the low temperature maintained in the condenser with the temperature control means. 2. The compressor system according to claim 1, wherein the compressor is a multi-stage compressor having at least first and second stages, said system also comprising a desiccant layer and a condenser installed in series between said stages, preferably between the first and second stages of the compressor. 3. The compressor system according to claim 2, in which the condenser produces water in the form of condensate, and which further comprises a semipermeable membrane through which condensed water can evaporate into the environment. 4. The compressor system according to claim 3, in which the membrane is made in the form of a tube filled by gravity. 5. The compressor system according to claim 1, in which the compressor has a sealed metal casing with an internal volume connected to the specified gas supply inlet and to the first inlet stage of the compressor, the internal volume further comprising a motor for driving said compressor; and a supply valve at the gas inlet, which closes when the valve switches the gas flow to recirculation through the compressor, and opens when the compressed gas is passed into the discharge pipe, due to which, in accordance with the valve on state, gas can be sucked into the internal volume of the housing using the first stage of the compressor either from the specified gas supply inlet or from the specified compressor output. 6. The compressor system according to claim 5, which contains a main logic controller connected to an engine control circuit for controlling the engine rotation speed so that the engine and compressor operate at a reduced speed, and this speed is controlled during regeneration so that gas flow is limited recirculation through the condenser, which allows the gas stream to cool when it exits the condenser, whereby moisture is transferred from the desiccant layer to the condenser. 7. The compressor system according to claim 6, in which the motor is an asynchronous AC motor, and the motor control circuit generates an AC signal with a varying frequency, whereby the speed of the engine changes in accordance with the indicated changing frequency. 8. The compressor system according to claim 5, which contains a main logic controller connected to a bypass valve in the bypass line, which passes recirculation gas, so that it deviates and does not pass through the specified desiccant layer and capacitor, as a result, during regeneration, the recirculation gas flow passing through the condenser is limited, which allows cooling the gas flow when it leaves the condenser, due to which moisture is transferred from the desiccant layer to the condenser. 9. The compressor system according to claim 5, which contains an engine control circuit installed in the housing for supplying current to the engine, said circuit being connected to the engine using wires that are shielded by said housing, resulting in electromagnetic radiation resulting from the flow of current from the engine control circuit to the engine is not transmitted to the outside of the metal casing. 10. A compressor system for compressing gas, which comprises a compressor having at least one inlet of a first stage for receiving a stream of compressible gas from a gas source; an engine for driving said compressor; compressor output for supplying gas to the discharge pipe; sealed metal casing surrounding the engine; and an engine control circuit installed in the housing and intended for supplying current to the engine, wherein the engine control circuit is connected to the engine using wires that are shielded by the housing, due to which electromagnetic radiation arising from the flow of current from the engine control circuit to the engine is not transmitted to the outside of the metal case. 11. The compressor system of claim 10, in which the shielded metal casing forms an internal volume connected to the inlet of the gas supply and to the input of the first stage of the compressor, which allows the compressor to suck in gas from the internal volume.