RU2456061C1 - Method of multistage gas mix processing to parameters of its consumption - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: method relates to gas mix separation by means of semipermeable membranes. Proposed method comprises feeding initial gas mix into high-pressure chamber of the first gas-separation membrane module. Portion of gas flow not penetrated through membrane is fed from high-pressure chamber of said module into that of second module. Another portion of gas flow not penetrated through membrane is fed for blowing first module low-pressure chamber. Gas flow penetrated through low-pressure chamber of first module is directed for recovery. Gas flow not penetrated through second membrane module is fed to consuming appliance. Note here that gas flow penetrated through low-pressure chamber of second membrane module is directed into initial gas flow feed pipeline. Pressure is reduced by vacuum-compressor in second module low-pressure chamber. Gas escaping therefrom is compressed.

EFFECT: higher process efficiency.

3 cl

Description

The invention relates to the field of separation of gas mixtures using semipermeable membranes and can be used in gas, oil, chemical and other industries.

From the description of Patent EP 0110858, a method for multi-stage purification of a gas mixture is known, comprising supplying a feed gas mixture through a pipeline to a high pressure cavity of a first membrane gas separation module, supplying a gas stream that has not penetrated through a membrane from a high pressure cavity of a first membrane gas separation module to a high pressure cavity of a second membrane gas separation the module and the permeated gas stream from the low-pressure cavity of the first membrane gas separation module for disposal, e.g. Adding the second non-permeate gas separation membrane module to the consumer gas stream and feeding the permeate gas stream from the cavity of the second membrane gas separation module in the low-pressure conduit feed the feed gas mixture.

The disadvantage of this method should include the insufficiently high efficiency of the gas separation process.

The technical result of the claimed technical solution is to increase the efficiency of the gas separation process.

This technical result is achieved due to the fact that in the method of multi-stage purification of the gas mixture to the parameters of its consumption, which includes supplying the initial gas mixture through the pipeline to the high pressure cavity of the first membrane gas separation module, supplying the gas stream that has not penetrated through the membrane from the high pressure cavity of the first membrane gas separation module into the high-pressure cavity of the second membrane gas separation module and the penetrated gas stream from the low-pressure cavity of the first the selected gas separation module for disposal, directing the non-penetrated gas stream in the second membrane gas separation module to the consumer and supplying the penetrated gas stream from the low pressure cavity of the second membrane gas separation module to the feed gas supply pipe, a portion of the non-penetrated gas stream is withdrawn from the outlet of the first membrane gas separation module and sent it to purge the low-pressure cavity of the first membrane gas separation module, while in the low-pressure cavity Nia second gas separation membrane module using the compressor suction pressure is reduced and this is compressed leaving the gas cavity. The capacity of the vacuum compressor is selected from the condition of ensuring the highest value of the pressure ratio on the gas separation membrane of the membrane module. The amount of gas going to purge is selected from the condition of ensuring the greatest efficiency of gas separation of the membrane module. Before direct supply of the gas mixture to the high-pressure cavity of the first membrane gas separation module, it is possible to carry out cooling and separation with filtering the gas mixture to remove released condensate and mechanical impurities. The condensate stream from the separator is directed to the condensate stabilization unit, which has four effluents, the first of which is supplied as a stabilization gas stream to the feed gas stream for recycling, the second waste gas stream is sent for disposal, and the third is sent from the stable hydrocarbon condensate for further the processing is either pumped into oil, the fourth - the stream of water condensate is sent for injection into the reservoir to maintain reservoir pressure or sent for disposal.

The method is as follows.

The source gas mixture, for example, associated gas, is piped into the high-pressure cavity of the first membrane gas separation module. From the high-pressure cavity of the first membrane gas separation module, the non-penetrated gas stream through the membrane is directed to the high pressure cavity of the second membrane gas separation module, and the penetrated gas stream from the low pressure cavity of the first membrane gas separation module with a high content of impurities, for example, heavy hydrocarbons, water and carbon dioxide, is directed for disposal. Non-penetrated in the second membrane gas separation module gas stream with a low content of impurities is supplied to the consumer. The penetrated gas stream from the low pressure cavity of the second membrane gas separation module is sent to the feed gas supply pipe, where it is mixed with the feed gas mixture. To increase the efficiency of gas separation, a portion of the non-penetrated gas stream is continuously diverted from the outlet of the first membrane gas separation module and directed to the low pressure cavity of the first membrane gas separation module, while the pressure in the low pressure cavity of the second membrane gas separation module is reduced and the pressure exiting this cavity is gas. In this case, the penetrated gas is compressed to a pressure not lower than the pressure of the initial gas mixture. The capacity of the vacuum compressor is selected from the condition of ensuring the highest value of the pressure ratio on the gas separation membrane of the membrane module. The amount of gas going to purge is selected from the condition of ensuring the greatest efficiency of gas separation of the membrane module. In some cases, before directly supplying the gas mixture to the high-pressure cavity of the first membrane gas separation module, it is possible to cool and separate it with filtering the gas mixture to remove condensate and mechanical impurities. The condensate stream from the separator is sent to the condensate stabilization unit, which has four effluents, the first of which is supplied as a stabilization gas stream to the feed gas stream for recycling, the second waste gas stream is sent for disposal, and the third is sent from the stable hydrocarbon condensate for further the processing is either pumped into oil, the fourth - the stream of water condensate is sent for injection into the reservoir to maintain reservoir pressure or sent for disposal.

Thus, by purging the low-pressure cavity of the first membrane gas separation module and at the same time maintaining the low pressure of the second membrane gas separation module under reduced pressure, efficient separation of the gas mixture is ensured, and therefore, the overall efficiency of the process is increased.

Claims (3)

1. A method of multi-stage purification of a gas mixture, comprising supplying an initial gas mixture through a pipeline to a high pressure cavity of a first membrane gas separation module, supplying a portion of a gas stream that has not penetrated through a membrane from a high pressure cavity of a first membrane gas separation module to a high pressure cavity of a second membrane gas separation module, continuous in this case, the removal of another part of the gas stream not penetrated through the membrane and its direction to purge the low-pressure cavity a membrane gas separation module, supplying the penetrated gas stream from the low pressure cavity of the first membrane gas separation module for disposal, directing the non-penetrated gas flow in the second membrane gas separation module to the consumer, and supplying the penetrated gas stream from the low pressure cavity of the second membrane gas separation module to the feed gas supply pipe while in the low-pressure cavity of the second membrane gas separation module using a pony vacuum compressor pressurize and compress the gas leaving this cavity. 2. The method according to claim 1, characterized in that before directly supplying the gas mixture to the high-pressure cavity of the first membrane gas separation module, it is cooled and separated with filtration to remove condensate and mechanical impurities. 3. The method according to claim 2, characterized in that the condensate stream from the separator is directed to a condensate stabilization unit having four outlet streams, the first of which is supplied as a stabilization gas stream to the feed gas mixture stream for recycling, the second waste gas stream is directed for disposal, the third - from stable hydrocarbon condensate is sent for further processing or pumped into oil, the fourth - the stream of water condensate is sent for injection into the reservoir to maintain reservoir pressure or pressure They are considered for disposal.