RU2577573C1 - Fractionating absorber - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to devices for cooling and separation of multicomponent compressed gases, in particular associated petroleum gas, and can be used in oil and gas industry. Disclosed is a fractionating absorber, including absorption section equipped with unit of mass-exchange elements equipped with nozzles of input/output of the coolant, zone of supply with associated oil gas feed branch pipe, upper separation zone with inlet branch pipes of stable oil and clean gas discharge and lower separation zone with unstable oil discharge branch pipe. During operation of the absorber compressate is delivered to the supply zone, in upper separation zone stable oil is fed, which in countercurrent contact with hot kompressatom under conditions of temperature gradient is created due to cooling by coolant, absorbs gas hydrocarbons C₄₊ and partially stabilises. Purified gas is removed from the top of the separation zone, and unstable oil is removed from the bottom of the separation zone.

EFFECT: technical result is simplification of the fractionating absorber and reducing power consumption.

3 cl, 1 dwg

Description

The invention relates to devices for cooling and separation of multicomponent gases, in particular, associated petroleum gas, and can be used in the oil and gas industry.

Known fractionation refrigerator-condenser [RU 2532057, IPC F25D 1/00, B01D 53/14, C10G 5/06, publ. 10.27.2014], including a reflux condenser equipped with a separation gas outlet line, equipped with a block of heat and mass transfer elements with coolant input / output lines, as well as a separation section equipped with unstable condensate and spent hydrate formation inhibitor output lines, and a feed zone equipped with a feed gas input line.

The main disadvantage of the known device during cooling and separation of associated petroleum gas is the loss of C ₄₊ hydrocarbons with gas separation at low pressure.

The closest in technical essence to the invention, the fractionating absorber [RU 2530133, IPC B01D 53/14, publ. 10.10.2014], including absorption and stripping sections, consisting of each of two subsections, each of which contains at least one block of heat and mass transfer elements forming internal and external spaces, equipped with inlet and outlet nozzles for a coolant or coolant, as well as a supply zone with a nozzle the input of the cleaned gas, the upper and lower separation zones with pipes for the input of the absorbent / output of the purified gas and the output of the absorbate, respectively, while the pipe of the output of the absorbate and the lower pipe of the stripping subsection, p adjacent to the feed zone, as well as the outlet pipe of the purified gas and the upper pipe of the absorption subsection adjacent to the feed zone, are pairwise connected by pipelines. The outer space of the heat and mass transfer blocks of the absorption section may be filled with a mass transfer nozzle.

The disadvantages of this fractionating absorber is a complex device, as well as increased energy consumption due to the need to heat the device with a third-party coolant.

The objective of the invention is to simplify the fractionating absorber and reduce energy consumption during separation of the associated petroleum gas compress.

The technical result is:

- simplification of the fractionating absorber by equipping it with one absorption section, as well as equipping a stable oil inlet pipe,

- reduction of energy costs due to equipping a fractionating absorber with a nozzle for introducing a compressor of associated petroleum gas.

The specified technical result is achieved by the fact that in the known fractionating absorber comprising an absorption section containing at least one block of heat and mass transfer elements forming internal and external spaces, equipped with refrigerant inlet / outlet pipes, a supply zone with a gas inlet pipe, upper and lower separation zones with nozzles for the input of the absorbent / outlet of the purified gas and the output of the absorbate, respectively, the peculiarity is that a nozzle is installed as the nozzle for the input of absorbent approx input stable oil, as a gas injection nozzle pipe installed kompressata input and output pipe as set absorbate output conduit unstability oil.

The block / blocks of heat and mass transfer elements, if necessary, can be equipped with distribution devices located above the block, but below the stable oil supply pipe, and / or below the block, but above the compressor supply pipe, which ensures favorable hydraulic flow of liquid and gas. The block / blocks can also be equipped with a mass transfer nozzle, which reduces the height of the apparatus due to the intensification of mass transfer.

Installing a stable oil inlet pipe as an absorbent inlet pipe, a compressor inlet always having a high temperature inlet, and a gas inlet pipe, and an unstable oil outlet pipe as an absorbate outlet pipe allows absorbing C ₄₊ hydrocarbons with stable oil supplied, for example, from the end stage of separation, and due to the temperature difference arising from the heating of the lower part of the fractionating absorber by the compress while cooling its upper part, reduce the energy cost, as well as to simplify the fractionating absorber by equipping it with one absorption section. Unstable oil is directed, for example, to the second stage of separation. An additional effect is an increase in oil yield due to the return of C ₄₊ hydrocarbons to the oil preparation stage.

Fractional absorber 1 includes an absorption section 2, equipped with a block of heat and mass transfer elements 3 (one block is conventionally shown), possibly with a nozzle 4, equipped with coolant I in / out pipes, supply zone 5 with associated petroleum gas inlet II, upper separation zone 6 s stubs for introducing stable oil III and outlet for purified gas IV and lower separation zone 7 with outlet port for unstable oil V.

During the operation of the fractionating absorber 1, the compressor II is fed into the feed zone 5, stable oil III is supplied to the upper separation zone 6, which, when countercurrently contacted with the hot compress, under the temperature gradient created by cooling with the refrigerant I, absorbs C ₄₊ hydrocarbons from the gas and partially stabilized. The purified gas IV is removed from the upper separation zone 6, and the unstable oil V is removed from the lower separation zone 7.

Thus, the invention allows to simplify the fractionating absorber, reduce energy consumption and can be used in the oil and gas industry.

Claims (3)

1. Fractional absorber comprising an absorption section containing at least one block of heat and mass transfer elements forming an internal and external space, equipped with coolant inlet / outlet pipes, a feed zone with a gas inlet pipe, upper and lower separation zones with absorbent / output inlet pipes cleaned gas and absorbate outlet, respectively, characterized in that a stable oil inlet branch pipe is installed as an absorbent inlet pipe, a pipe inlet is installed as a gas inlet pipe a compressor inlet, and an unstable oil outlet pipe is installed as an absorbate outlet pipe. 2. The absorber according to claim 1, characterized in that the blocks of heat and mass transfer elements are equipped with distribution devices located above the block, but below the stable oil supply pipe, and / or below the block, but above the compressor supply pipe. 3. The absorber according to claim 1, characterized in that the blocks of heat and mass transfer elements are equipped with a mass transfer nozzle.

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