RU2576313C1 - Method of preparation of fuel gas - Google Patents

Abstract

FIELD: oil and gas industry; energy.

SUBSTANCE: invention relates to a process for the preparation of compressed fuel gas for gas turbine power plants and can be used in the petroleum industry and energetics. Method comprises compressing, cooling, and gas separation. Gas absorption before compression plunged circulating absorbent high pressure to obtain a low pressure absorber. Mixed gas of weathering and carrying absorbent high pressure. Obtained compressate is compressed, cooled and separated to give a condensate, which is reducing and is separated from the product gas weathering stability condensate and compressed gas, which is subjected to absorption cooled absorbent low pressure to obtain fuel gas and absorbent high pressure, partitioned into circulating and balance.

EFFECT: invention reduces the loss of hydrocarbon C₅₊ with a fuel gas and obtain stable condensate.

2 cl, 1 dwg

Description

The invention relates to methods for preparing compressed fuel gas, in particular for gas turbine power plants and can be used in the oil and gas industry and energy.

There is a method of gas preparation using a block-type turbocompressor installation for transporting hydrocarbon gas [RU 2464448, publ. October 20, 2012, IPC F04D 25/00], including multi-stage compression, cooling and gas separation to produce compressed gas and condensate at each stage of compression.

The disadvantages of this method are the large losses of heavy gas components (C ₅₊ hydrocarbons) with compressed gas.

Closest to the technical nature of the present invention, a method of compressing gas [RU 2524790, publ. 08/10/2014, IPC F25J 3/00], including gas compression, pre-cooling of the compress with unstable condensate under stabilization of the latter to produce stabilization gas, mixing it with a cooled compress, cooling the mixture under reflux and separating it to produce compressed gas and condensate directed to stabilization.

The main disadvantage of this method is also the large loss of C ₅₊ hydrocarbons with fuel gas, as well as the production of unstable condensate.

The objective of the invention is to reduce the loss of C ₅₊ hydrocarbons and obtain stable condensate.

When implementing the proposed method as a technical result, a reduction in C ₅₊ hydrocarbon losses is achieved by two-stage gas absorption before compression and after cooling and separation of the compress by high and low pressure absorbents, respectively, and recirculation of the weathering gas to the compression stage.

The specified technical result is achieved by the fact that in the known method including compression, cooling and gas separation, the feature is that the gas is subjected to compression before absorption by a circulating high pressure absorbent to obtain a low pressure absorbent, mixed with a weathering gas and high pressure balance absorbent, compressed , the resulting compress is cooled and separated to obtain condensate, which is reduced and separated to obtain a weathering gas and a stable condensate, as well as compressed ha and which is subjected to absorption cooled absorbent to obtain a low pressure fuel gas and the high-pressure absorber is separated into a circulating and balance.

If necessary, part of the stable condensate is mixed with the gas sent for compression, which reduces the energy consumption for gas compression due to the absorption of heat of compression by the liquid. A portion of the low pressure absorbent may be discharged as a commercial product.

The absorption can be carried out, for example, using a mixer with a separator, a nozzle, plate or film absorber or fractionating absorber. Cooling and separation can be carried out, for example, using a refrigerator and a separator.

The absorption by the circulating high-pressure absorbent, which is carried out before the gas is compressed at low pressure, allows the heavy components to be absorbed from the gas, the C ₅₊ hydrocarbons contained in the absorbent can be returned to the gas stream, and a low-pressure absorbent enriched with heavy gas components can be obtained.

Mixing gas with a high pressure balanced absorbent helps prevent the accumulation of heavy components in the cycle. Mixing gas with weathering gas prevents the loss of light gas components with condensate and produces stable condensate. Absorption of compressed gas by a cooled low-pressure absorbent makes it possible to absorb C ₅₊ hydrocarbons from the compressed gas and reduce their losses.

According to the proposed method, gas 1 is absorbed by a circulating high-pressure absorbent 2 in an absorption unit 3 to obtain a low-pressure absorbent 4 and gas, which is mixed with a high-pressure absorbent 5, a weathering gas 6 and compressed in a compressor 7, the compressor 8 is cooled, separated in a block 9 and get compressed gas 10 and condensate 11, which are reduced, separated in block 12 and get the weathering gas 6 and stable condensate 13. The compressed gas 10 is absorbed in the absorption block 15 by a low pressure absorbent I 4, cooled in the refrigerator 14, and receive fuel gas 16 and a high pressure absorbent 17. A part of the condensate 13 can be supplied to the inlet of the compressor 7, and a part of the low pressure absorbent 4 can be discharged as a commercial product (indicated by a dotted line).

When implementing the method of 10.0 thousand kg / h of gas containing 11% vol. C ₅₊ hydrocarbons, non-condensable gases and C _4- hydrocarbons - the rest is fed to an absorber at 124.2 ° C and 0.4 MPa, where 3.0 t / h of a high-pressure circulating absorbent is absorbed and 2.54 t / hour of low pressure absorbent and gas, which is mixed with 0.06 t / h of high pressure balance absorbent and 59 nm ³ / hour of weathering gas is compressed to 1.3 MPa, cooled to 35 ° C and fed to the bottom of the fractionating absorber, to the top which serves low-pressure absorbent cooled to 35 ° C and removes 6.96 thousand nm ³ / h of fuel gas containing 36.0 to g / h of C ₅₊ hydrocarbons and condensate, which is reduced to 0.4 MPa and separated to obtain a weathering gas and 3.91 t / h of stable condensate with a saturated vapor pressure of 53.0 kPa according to Reid.

According to the prototype, under similar conditions, 7.0 thousand nm ³ / h of fuel gas containing 371 kg / h of C ₅₊ hydrocarbons and unstable condensate with a saturated vapor pressure of 234 kPa were obtained.

The above example shows that the proposed method can reduce the loss of C ₅₊ hydrocarbons, obtain stable condensate and can be used in the oil and gas industry and energy.

Claims (2)

1. A method of preparing fuel gas, comprising compressing, cooling and separating the gas, characterized in that the gas is compressed before absorption by a circulating high pressure absorbent to obtain a low pressure absorbent, mixed with weathering gas and high pressure balance absorbent, compressed, the resulting compress is cooled and separated to obtain a condensate, which is reduced and separated to obtain a weathering gas and a stable condensate, as well as a compressed gas, which is subjected to absorption by chilled bsorbentom low pressure to obtain fuel gas and the high-pressure absorber is separated into a circulating and balance. 2. The method according to p. 1, characterized in that part of the stable condensate is mixed with gas directed to compression.

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