RU2576934C1 - Fractioning refrigerator-condenser - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to design of separating devices and can be used for extraction of heavy components from multicomponent vapours and gases in oil and gas industry. Fractioning refrigerator-condenser, consisting of sequentially connected from bottom to top separation section with lines for discharge of unstable condensate and water condensate, feed zone with a raw gas feed line, gas distribution device and reflux section with reflux gas outlet line equipped with a heat-mass-exchange unit with cooling agent inlet/outlet lines. Between heat-and-mass exchange unit and gas-distributing device there is installed a contact device.

EFFECT: technical result: high quality of condensate due to reduction of saturated vapors pressure.

3 cl, 1 dwg

Description

The invention relates to the design of separation devices and can be used to separate heavy components from multicomponent vapors and gases in the oil and gas industry.

A known system for low-temperature gas separation of a gas condensate field [RU 2432535, publ. 10.27.2011, IPC F25J 3/00], which as a device for the final separation stage contains a fractionating capacitor with a spiral nozzle, in which mass transfer between gas and condensate is carried out.

The disadvantage of this device is the low efficiency due to temperature inversion arising due to the supply of cold gas of the final separation stage to the bottom, and the condensate of the first separation stage having a higher temperature to the top of the fractionating condenser. In this case, the gas of the final separation stage is enriched with heavy condensate components, which leads to a deterioration in the quality of commercial gas.

Closest to the technical nature of the claimed invention, a fractionating refrigerator-condenser [RU 2532057, publ. 10.27.2014, IPC F25D 1/00, B01D 53/14, C10G 5/06], which is a vertical apparatus consisting of a separation section sequentially arranged from bottom to top with unstable condensate and water condensate discharge lines, a feed zone with an input line raw gas, gas distribution device and reflux condenser (reflux condenser section) with a separation gas outlet line (reflux) and equipped with a block of heat and mass transfer elements (heat and mass transfer block) with commercial gas (refrigerant) input / output lines.

A disadvantage of the known fractionating condenser refrigerator is the low quality of the condensate obtained due to the low reflux temperature flowing into the separation section immediately after cooling in the heat and mass transfer unit, which results in an increased content of light gas components in the condensate and its high pressure of saturated steam.

The objective of the invention is to improve the quality of the condensate.

The technical result achieved by using the present invention is to improve the quality of the condensate by reducing the saturated vapor pressure by installing a contact device between the heat and mass transfer unit and the gas distribution device.

The specified technical result is achieved by the fact that in the known fractionating refrigerator-condenser, consisting of a separation section sequentially arranged from bottom to top with unstable condensate and water condensate discharge lines, a feed zone with a feed gas input line, a gas distribution device and a reflux section with a reflux gas output line, equipped with a heat and mass transfer unit with refrigerant input / output lines, a feature is that between the heat and mass transfer unit and gas distribution elitelnym device installed contact device.

The block of heat and mass transfer elements can be made of several heat and mass transfer sections for supplying one or more different refrigerants. The contact device can be either a plate or a nozzle type.

The installation of a contact device between the heat and mass transfer unit and the gas distribution device can increase the reflux temperature when it is in contact with the feed gas in the contact device, reduce the content of light gas components dissolved in the condensate, reduce the pressure of the saturated vapor of the condensate, and thereby improve its quality.

The fractional condenser-condenser 1 consists of a separation section 2 with at least one condensate discharge line 3, a feed zone 4 with a feed gas input line 5, a gas distribution device 6, a gas-liquid contact device 7, and a reflux section 8 with a reflux gas output line 9 equipped with a heat and mass transfer unit 10 with refrigerant inlet and outlet lines 11 (a single-section heat and mass transfer unit with one refrigerant is conventionally shown).

When the fractionating refrigerator-condenser 1 is operating, the feed gas enters the supply zone 4 and then, through the gas distribution device 6, the contact device 7, in which mass transfer with reflux flowing from the reflux section 8 takes place, is sent to the heat transfer unit 10, where due to cooling with the refrigerant supplied and discharged via lines 11, the heavy components of the feed gas condense, forming reflux flowing into the contact device 7. The reflux gas is discharged from the top of the reflux section along line 9, and phlegm (condensate) after mass transfer with raw gas is removed from the bottom of the separation section 2 along line 3. When a stratified condensate is formed, its phases can be discharged along separate lines (not shown in the diagram).

Thus, the proposed fractionating refrigerator-condenser can improve the quality of the condensate and can find application in the oil and gas industry.

Claims (3)

1. Fractional refrigerator-condenser, consisting of a separation section sequentially arranged from bottom to top with unstable condensate and water condensate discharge lines, a feed zone with a feed gas input line, a gas distribution device and a reflux condenser section with a reflux gas output line equipped with a heat and mass transfer unit with input / input lines refrigerant outlet, characterized in that between the heat and mass transfer unit and the gas distribution device, a contact device is installed. 2. Fractional refrigerator-condenser according to claim 1, characterized in that the contact device is made disk-shaped or packed. 3. The fractionating refrigerator-condenser according to claim 1, characterized in that the block of heat and mass transfer elements is made of several heat and mass transfer sections for supplying one or more refrigerants.