SU1408151A1 - Method of storing liquefied gases - Google Patents

Abstract

The invention relates to methods for storing liquefied gases and improves storage efficiency by reducing evaporation of the stored product and providing a stable mode of co-condensation. The method involves the removal of vapors from a low-pressure tank, their compression, cooling with condensation, and subsequent throttling of condensation products with their return to the tank. In this case, the condensation of the precipitate is formed before the formation of a stand-by mixture when the pressure is controlled simultaneously in the condenser and the reservoir. The selection of vapors, their condensation and return to the tank are continuously. Iri is regulated1) and the pressure to increase or increase the pressure in the tank increases and decreases the condensation pressure. 1 hp f-ly. 1 il. with (L

Description

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The invention relates to the field of storage of liquefied gases in tanks with 19% excessive pressure and can be used for storing large quantities of liquefied hydrocarbon gases, hedgehog; i eniiOi o irirod gas, liquefied nitrogen, and; and other 1 elements in the differences from | AE; 1 x ecoiomy.

I The purpose of the invention is to increase: ffk-1 | ivno storage networks due to the clever1 N1 use ||; .1 of the stored product and the skimming and stable condensation mode of the nars formed during storage.

The drawing shows the installation, the re-ignition method.

The installation contains a low-voltage re- e) Voir 1, a compressor 2, a condenser 3, a cooling medium 4, a pin 5 of a condensate or a gas-liquid mixture, a pin 6 of a non-subscale fraction, a throttle valve 7 and a nano-buffer buffer 8.

The method is carried out as follows.

; 11After filling with propane, the patient: a volume of a low-porous p (Zervuar I, carried out) is usually carried out when the cooling system is installed and the buffer tank is placed in the steam compartment of the tank 1 o | Amount of 2000 m, the evaporation of the stored product. To maintain a constant pressure in the tank 1, a 2 o compressor absorbs an excess of liquids, lowers them to a pressure of 1 MPa and causes a water condenser; 1 | sensor 3. At this pressure, a partial condensation of the product vapors occurs P | representing a mixture of hydrocarbon-n lbix gases to the composition, vol.%: SI. 0.4; four; (i (o 0.4,; CiHe else. In condensate with | ator 3, the concentration of low boil n 1. their components ifeHTOB increases several times and; 1 | it reaches but the accumulation of the following values,%: CM.1 8, C9Hb 20. Yes.11) the concentration does not increase, the process is stabilized, since the noncondensation fraction in the form of a gas-liquid mixture is removed from the output,: 1 fi; - L: The fuel for the desired condensation mode is regulated by the throttle valve 7. At this pressure increase in the co-capacitor 3 corresponds to a decrease in .eni pressures in the container 1, since the high condensing pressure is increased in the liquid fraction circulating through the reservoir capacitor and an amount of vapor.

When the pressure in the condenser 3 increases to 1.1 MPa, the condensation mode changes. The proportion of liquid increases to such an extent that the liquid forms a water seal in the condenser 3, in the dead end zone of which a non-condensing fraction begins to accumulate, preventing normal heat transfer. To ensure the process is con5

They need to increase the pressure in the capacitor 3, but continue with the process and when the concentration of CH is 20% and CvH is 25%, the required pressure approaches the limit, 1Ы1О is suitable for 1.7 MPa. it will be necessary to divert the noncondensing fraction through pin 6 to the plant; allocation, utilization or to the flare. The full condensation mode leads to a decrease in the excess pressure in tank 1 to the lower limit of 2000 Pa and compressor 2 must be stopped. The pressure in tank 1 increases from evaporation of cold (233 K) product in 10 minutes to the upper limit; la 5000 Pa, and the installation must be switched on again for 10 minutes to reduce the pressure in tank 1. Intensity of evaporation of stored oil ( increases as 11) and start up the compressor. : 1, so with his stopping.

0 When starting compressor 2 in the beginning

Mohm; the vapor pressure drops sharply and equilibrates. the temperature of the mirror is n), which leads to:. To the extent of the temperature difference between the mirror and the core of the stored liquid. This causes an increase in the supply to the mirror of the thermal energy of the stored fluid, which is proportional to the rate of 1 hour and 1 pressure decrease. In low 1 ctr resic | Tax characterized by large volumes — i — storage mode is pre- dominant; :; Ch1ie acquire internal sources (; PPC gearboxes stored in the stored substance. I / iif.icHHoe dynamic effect on | a; 1 product, exerted by the compressor kyuchenip, causes redistribution; vapor energy with the exception of TejiMu5 dynamic work "pushing and intensifying the process of mass transfer by free convection between the core and the surface of the liquid. Freely one x. of the convection of liquefied gases in a large volume, characterize with turbulent vortices

0 speeds up to 10 meters of electricity per second, as a result of their removal to the mirror, 1 core the evaporation rate increases by - ,, 4 :-). Moment 5-10 times in comparison with the stationary value, we see .. ; Alco external heat leak to the low-pressure reservoir.

Thus, the invention can:, iib is implemented on a standard technologist ;:. The installation of maintaining mode x) ::: / - PIA by changing its mode of operation

0 to continuous, when available and the necessary cold storage is equal. In this case, the stability of technological processes in the tank and condenser is reduced, leading to a decrease in the rate of evaporation of the stored product and the simplification of the storage operation. The stability of such a storage mode allows the mode parameters to be adjusted no more than once per shift. Diminishes

compressor, B1 1zasmy and insufficient lubrication and dynamic loads during start-up. There are no losses of the stored IRS product during the extraction of the capacitor. Waves are ...} reliable storage technology

Claims (2)

Invention Formula . The method of storing liquefied gases in a low-pressure tank, including the removal of vapors from the tank, their compression and cooling, and condensation, while condensation products are throttled and returned to the reservoir, which differs from 0 with HOBbiiHCHiiv-jij) () (icrH due to the reduction of the stored product and the provision of steady-state condensation, the condensation of the sediment is stable until it forms a liquid-regulating nrn-regulating mixture, and one-way-and-another). (, at 4th, the selection is on K) in, their cond11sa11I1o and H () z;): n in the reserve, they carry out the transperer1 1vno. 2. (but n. 1, or.iu ui / (iii; to M, which with the gift is regulated .. .c decreased by 1.1 increase. Pressure i) the tank led off 1H 1v i.iH ..i p cop-. M1cats 1n. -X , : wg  - - ;; V  X /. . ,, .-