SU847559A1 - Method of deep drying of gases - Google Patents

Abstract

I. METHOD OF DEEPLY DRYING GASES by absorbing moisture with methanol followed by cooling the mixture to a temperature of (-70) (-110) С, which is so as to reduce the consumption and loss of methanol, as well as to simplify the process by exceptions. the absorber regeneration stages, the initial r3L3 is precontacted with the adsorbent, and the absorption is carried out with gaseous methanol introduced in 30-80 mg / nm gas. 2. A sporob according to claim 1,0, which is different with the fact that clinoptilolite is used as an adsor Q and bent. (L

Description

The invention relates to the deep drying of hydrocarbon gases and can be used in the gas, oil, oil refining, petrochemical, and chemical industries.

The known method of deep drying of hydrocarbon gases by absorption on solid sorbents, aluminum gels, zeolites, silica gels, which allows to obtain a dry pelvis only with a dew point (-30) - (-70) ° C.

Closest to the invention in technical terms and achieved results is a method of deep drying of gases by absorbing moisture by liquid methanol, followed by cooling the resulting mixture to a temperature.

The disadvantage of this known method is 4 4 SP of the high consumption of methanol, which during the subsequent regeneration of the methane-water solution enters the waste water and contaminates the surrounding water.

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QD

The purpose of the invention is to reduce the consumption and loss of methanol and simplify the process by eliminating the absorber regeneration stage.

The goal is achieved by the described method of deep drying of gases, which includes contacting the source gas with the adsorbent by absorbing moisture with gaseous methanol in an amount of 30 VO mg / nm gas and then cooling the resulting mixture to (-70) - (- 110) С. 3847 It is preferable to use clinoptilolite as an adsorbent. Distinctive features of the method are that the source gas is precontacted with the adsorbent (clinoptilolite), and the absorption is carried out with methanol introduced in an amount of 30-80 mg / nm gas. Most of the moisture from the gas (up to 99% by mass and more) is removed by adsorption on an adsorbent, for example, clinoptilolite, and the rest is microphenyl. the quality of moisture is removed by feeding; to the cooled gas stream of gaseous (evaporated) methanol in a quantity of 30-80 mg / nm gas. With the subsequent deep cooling of the gas stream (-70) - (-110), condensation of water, methanol and part of the hydrocarbon components of the gas occurs. With simultaneous condensation of methanol and water, their complete mutual dissolution occurs with the formation of a 90% aqueous solution. The resulting 90% methanol solution is completely dissolved in the hydrocarbon condensate, which eliminates the need to regenerate the methanol solution. Example 1. Oil gas with a dew point of 7 ° C in moisture at a temperature of AO ° C and a pressure of 37 kgf / cm is sent for preliminary drying to adsorbers filled with natural clinoptilolite (grain size 3-6 mm, bulk weight 0.9 g /cm). The amount of dried gas is 10 hours. The adsorption time is 8 hours. In the gas previously dried on the adsorbent to the dew point minus 40 ° C, gaseous methanol in the amount of 30 mg / nm is continuously introduced. The gas after contact with gaseous methanol and cooling until it has a dew point on moisture of -70 ° C. Hydrates and separation of the liquid phase into the hydrocarbon and hydromethanol part does not occur. EXAMPLE 2. Oil gas with a dew point for moisture at a temperature and pressure of 37 kgf / cm is pre-dried with clinoptilolite to the dew point minus 25 C. Gas consumption 14 hours. Adsorption time 5 hours. Gas previously dried on the adsorbent gaseous methanol was continuously introduced in an amount of 80 MG / NM and the mixture was cooled to -POS. Gas outlet c. The installation has a dew point. Hydrates are not formed and no separation of the dical phase is observed. The invention provides for - reducing the consumption of methanol supplied for drying, in comparison with the known method, by about 200-400 times, and its irretrievable losses - by 20-40 times; - simplification of the process by eliminating the stage of regeneration of the jet engine of the zero solution; - reliable protection of the environment from contamination by a toxic substance such as methanol.

Claims (2)

I. METHOD FOR DEEP DRYING OF GASES, by absorbing moisture with methanol and then cooling the resulting mixture to a temperature of (-70) (-110) C, characterized in that, in order to reduce methanol consumption and losses, as well as simplify the process by exceptions. stages of regeneration of the absorber, the source gas is precontacted with the adsorbent, and the absorption is carried out with gaseous methanol introduced in an amount of 30-80 mg / nm ^ gas. 2. The method of Pop. 1, which differs from the fact that clinoptilolite is used as an adsorbent.