SU799797A1 - Natural gas dryer - Google Patents

Description

(54) NATURAL GAS DRYER

Claims (2)

The invention relates to compositions used for the drying of gases, and can be used in the gas industry to dry natural and associated gases in preparing them for transport. It is known to use gas flj for drying gases. The disadvantage of this dryer is its high cost (6OOR / t) and relatively low decomposition temperature (164 ° C), which makes it difficult to regenerate the dryer and leads to partial loss of the dryer at the regeneration station. . It is also known to use for drying a composition of 70-9O% diethylene glycol and 1O-30% ethylene glycol and propylene glycol 2. The disadvantages of this dryer are the same as diethylene glycol,. since the dehumidifier for 7O-9O% consists of this substance. The purpose of the invention is to develop a dehumidifier of lower cost and f cooling with a higher decomposition temperature, which will reduce the loss of dehumidifier during the regeneration stage. This goal is achieved by the fact that the drying agent is based on diethylene glycopene and propylene glycol, additionally contains polypropylene glycol 1, dipropylene glycol and tripropylene glycol in the following ratio of ingredients,% by volume: Diethylene glycol 2 O-5 O polypropylene glycol 42-54 Dipropylene glycol 2-12 Propylene glycol 5-12 tetra-propylene glycol-12 O-4-propylene glycol 42-54 Dipropylene glycol 2-12 Propylene glycol 5 O-4P-4P-4P-4P Polypropylene glycol Diphylene glycol 2-12 Polypropylene glycol 42-54 rub / t, decomposition temperature of 22 ° C, which allows reducing its sweat at the regeneration stage by 2 times. Example 1. A desiccant of the composition was prepared, vol.%: Diethylene glycol 5 O Polypropylene glycol42 Dipropylene glycol 2, - -l Propylene glycol (V 5), Trn propylene glycol. .1 A dehumidifier of such composition provides. obtaining with a dew point of 2 ° C, the temperature of decomposition of 2OOs, the loss during regeneration is 7 g / 10,000 m of gas (in the prototype ia-12r / 100O). PRI me R 2. Prepare a desiccant of the composition, vol.%: Diethylene glycol 20 Pipipropylene glycol54 Dn cut it with glycol12 Propylene glycol12 Tripropylene glycol2 Desiccant of such a composition produces gas with pocbi point, decomposition temperature 22C) C, 2 times less than the prototype. Formula inventions and natural gas desiccant based on diethylene glycol and propylene glycol,. four. . It is so that in order to reduce its cost and reduce losses at the regeneration stage, it contains, in addition, polypropylene glycol, dipropylene glycol t. and tripropylene glycol in the following ratio of components, vol.%: Di ethylene glycol 20-50 Polypropylene glycol 42 | -54 Dipropylene glycol 2-12 Propylene glycol 5-12 Tripropylene glycol1-2 Information sources taken into account during the examination 1, Makogon Yu. F., Sarkiyo nts G.A. Prevention of hydrate formation during gas production and transportation, M.Nedra: 1966, USSR USSR certificate J 4., cl. In 01D 53/28, 1972 (prototype).