SU1640493A1 - Cryogenic gasifier - Google Patents

Abstract

The invention relates to a cryogenic technique and can be used in technological processes for producing high pressure gas from a cryogenic liquid. The purpose of the invention is to increase the efficiency of the gasifier due to the possibility of controlling the rate of gasification. The gasifier contains an internal vessel without overpressure hulls and an external high-pressure vessel separated by a vacuum cavity, a pipeline with a stop valve installed on it, communicating the upper part of the internal vessel with the cavity of the external vessel, with valve 9 and a heat exchanger placed under the bottom of the gasifier and connected to the inlet valve 9 to the lower part of the inner vessel, and exit-to the pipeline in front of the valve. When refueling the gasifier, the locking member 5 and the valve 9 are closed. When the gasifier is in operation, the locking member 5 and the valve 9 are opened, while the gas evaporated in the heat exchanger enters the vacuum cavity and into the gas cushion of the inner vessel, to the intensifier, the evaporation process. 1 il. (Ls

Description

The invention relates to a cryogenic technique and can be used in technological processes for producing high pressure gas from a cryogenic liquid.

The purpose of the invention is to increase the efficiency due to the possibility of regulating the gasification rate.

The drawing shows a cryogenic gasifier.

The cryogenic gasifier contains an internal vessel 1 without overpressure, an external pressure vessel 2, a vacuum cavity 3 of vessel 2, a pipeline 4 connecting the vessel 1 to cavity 3, a shut-off organ 5, a refilling pipeline b, a drainage pipeline 7, a fluid supply pipeline 8, a valve 9 and the heat exchanger 10, located under the bottom of the gasifier and connected by the inlet through the pipeline 8 and the valve 9 to the lower part of the vessel 1, and the outlet to the pipeline 4 in front of the body 5.

The gasifier works as follows.

Before stopping the gasifier, the closure body 5 and the valve 9 are closed, the cavity 3 is evacuated to the required residual pressure. The internal vessel 1 is refilled through the pipeline b during the vapor drainage through the pipeline 7. When the gasifier is operating, the valve 5 opens in the pipe 4 and the valve 9 in the pipe 8. At the same time, the cryogenic liquid from the internal vessel 1 enters the heat exchanger 10 through pipe 8, located below the gasifier bottom, where it is intensely evaporated, and via pipeline 4 enters the cavity 3 and the upper part of the inner vessel 1. Thus, the evaporation of the cryogenic liquid occurs in the heat exchanger 10 and in the inner vessel 1, which significantly increases the performance of the gasifier. The rate of evaporation is controlled by varying the flow of coolant (for example, steam) by means of regulating throttles 11. The value of the final pressure in the cavity 3 and in the inner vessel 1 is determined by the gasifier charge level.

Calculations show that the invention allows to increase the speed of the gasifier by 3-5 times. In addition, in the proposed gasifier, the cavity 3 is filled with a gasified product under high pressure, which ensures unloading of the inner vessel. As the gas pressure increases, its thermal conductivity and heat flux increase. Filling cavity 3 with a gasified product ensures the purity of this cavity, since the system remains closed.

Claims (1)

Claims of invention A cryogenic gasifier containing an external pressure vessel and an internal vessel without overpressure communicated in the upper part with the cavity of an external vessel and a heat exchanger characterized in that, in order to increase efficiency due to the possibility of controlling the gasification rate, the cavity of the external vessel is evacuated, The inner vessel communicates with the external cavity through a pipeline with a shut-off valve, the heat exchanger is placed under the gasifier bottom and is connected via the valve to the bottom the second part of the inner vessel, and the output - to the pipeline before the shut-off valve.