SU1451432A1 - Cryogenic liquid gasifier - Google Patents

Abstract

The invention relates to a technique for the gasification of cryogenic liquids and can be used in gasification installations for oxygen, nitrogen, methane and other cryogenic products, including two fuel systems that use liquefied natural gas. The purpose of the invention is to improve the accuracy and reliability of stabilizing the temperature of the production flow and simplify the design of the gasifier. The gasifier contains a tank filled with an intermediate coolant, in which interconnected sections of a surface heat exchanger for the gasification of a cryogenic product are placed, located at different heights. The product inlet is connected to the middle section, the outlet is connected to the bottom, while the heat source is located between the middle and upper sections. The main heating of the production stream is carried out by hot water supplied through the pipeline between the middle and upper sections. Circulating water in contact with a layer of ice on the middle section is cooled to 0 ... + 5 ° C, lowers to the bottom of the tank and in the lower section stabilizes the temperature of the production flow at 3 ... 12 ° C. 2 Il. cl

Description

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ate

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This invention relates to gasification systems for cryogenic liquids and can be used in gasification installations.

The purpose of the invention is to increase efficiency by increasing the accuracy of stabilizing the temperature of the production flow at the outlet, simplifying the gasifier design.

FIG. 1 shows a gasifier (the heating source is the heating element); in fig. 2 - the same, the source of heating is hot water.

The gasifier contains a tank 1 filled with water 2, sections 3, 4 and 5 of the surface heat exchange are placed in the tank

The undersupply in the lower section 5 is determined by the ratio of the surfaces of the sections and the distance between them.

When the temperature and amount of heating water supplied through the line 5 change accordingly, the temperature of the production flow at the outlet of section 4 increases or decreases.

With an increase in the gas temperature at the inlet to section 5, water circulation is enhanced in the lower part of the tank and the intensity of heat removal from section 5 increases.

The nonlinear nature of the dependence of the heat flow from the section 5 ensures the stabilization of the temperature of the production gas at a temperature of about 4 and about POVERCHNiS MU1 and iciuiuuumvn - .. „, -.

nick connected. Branch pipe 6 ice melting points.

The cable is connected in series with the average, taking into account the anomalously high density

section 3 upper section 4 and lower water at + 4 ° C temperature production

LCRun, the flow rate is set at 4 L +

where DG "- Nedorekupetsii on the heat section 5.

7 outlet of the product is connected

to section 5.

Between sections 3 and 4, T3Hbj 8 is installed (Fig. 1) or hot water supply line 9. Line 10 chilled water outlet connected to the upper part of the tank 1.

The gasifier works as follows.

20

scrap end of section 5.

Thus, the proposed technical solution provides a product with a constant temperature, which does not depend much on the gasification regimes.

In addition, the design of the gasifier 25 provides a significant increase in the reliability and accuracy of temperature control in comparison with the prototype by eliminating wear elements of electrical automation and using the physical properties of the coolant.

In addition, the design of the gasifier 25 provides a significant increase in the reliability and accuracy of temperature control in comparison with the prototype by eliminating wear elements of electrical automation and using the physical properties of the coolant.

The use of the proposed design in the systems of gasification of liquefied gases (methane) of vehicles ensures reliable operation while reducing the cost of the system, as well as improving the working conditions of the engine

thirty

The gasified cryogenic product enters through pipe 6 to section 3, and a layer of ice is frozen around it. Hot water formed in the heating zone 8 and supplied via line 9. Heats the cryoproduct in section 4 above a given level of temperature stabilization, determined by the freezing point.

water (0 ° C).

Water layers in contact with

ice on section 3, cooled to 0 ... + 5 ° C, ul.

sink to the bottom of the tank 1 and cool the internal combustion 35, which receives the gas flow in section 5 to +3 ... 12 ° C. A circulating gasified product, water li in the lower part of the tank 1 o6ecj is baked by convection between the cooling surface of section 3 and the heating section 5, as well as by hydraulic interaction with the heating water flows in the upper part of the tank, which increases the circulation of water below.

The amount of intermediate coolant (in this case, water) and, respectively, ,,. .v ..-.,., - -,

but the volume of the tank 1 is selected by the outcome 45 of the efficiency by increasing the accuracy of the amount of heat introduced by the source of stabilization of the temperature of the unit junction to the formula of the invention

40 A cryogenic liquid gasifier, containing a tank for an intermediate heat carrier, in which a surface heat exchanger with supply and output nozzles and a heat source are placed, characterized in that, in order to increase the heat of the heater (heating elements 8), and the temperature of the quantity of cryogenic product so that of any possible values for them, the intermediate coolant in the lower part of the tank was carried out by operating the gasifier in two phases — solid and liquid. i.e. in the phase transition state.

During the course, the surface heat exchanger is made up of sections arranged along the height of the tank and interconnected sections, the middle of which is connected to the product inlet, the bottom to the product outlet, and the heat source is located between the upper and middle sections.

1451432

The undersupply in the lower section 5 is determined by the ratio of the surfaces of the sections and the distance between them.

When the temperature and amount of heating water supplied through the line change, the temperature of the production flow at the outlet of section 4 increases or decreases accordingly.

As the gas temperature at the inlet to section 5 increases, water circulation in the lower part of the tank increases and the intensity of heat removal from section 5 increases.

The non-linear nature of the dependence of the extracted heat flux on section 5 ensures the stabilization of the temperature of the production gas at the temperature level .. „, -.

ice melting

where DG "- Nedorekupetsi on tep0

scrap end of section 5.

Thus, the proposed technical solution provides a product with a constant temperature, which does not depend much on the gasification regimes.

In addition, the design of the gasifier 5 provides a significant increase in the reliability and accuracy of temperature control in comparison with the prototype by eliminating wear elements of electrical automation and using the physical properties of the coolant.

The use of the proposed design in the systems of gasification of liquefied gases (methane) of vehicles ensures reliable operation while reducing the cost of the system, as well as improving the working conditions of the engine

thirty

 St. Chespch, ... p.

35 of the internal combustion, which receives the gasified product,

5 internal combustion into which the gasified product enters,

,,. .v ..-.,., - -,

45 efficiency by increasing the accuracy of the stabilization of the temperature of the pJEO product to the formula of the invention

40 A cryogenic liquid gasifier containing a tank for an intermediate heat carrier containing a surface heat exchanger with inlet and outlet nozzles and a heating source, characterized in that, in order to increase efficiency by increasing the accuracy of stabilizing the outlet temperature, the surface heat exchanger is made the form placed in height of the tank and interconnected sections, the middle of which is connected to the nozzle of the product input, the bottom - to the nozzle of the product, while the source IR heating is located between the upper and middle sections.

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Claims (1)

Claim A gasifier for a cryogenic liquid containing a container for an intermediate coolant in which a surface heat exchanger with product inlet and outlet pipes and a heating source are located, characterized in that, in order to increase efficiency by increasing the accuracy of stabilization of the temperature of the product at the outlet. the surface heat exchanger is made in the form of sections located along the height of the tank and interconnected, the middle of which is connected to the product inlet pipe, the lower one to the product outlet pipe, while the heating source is located between the upper and middle sections. Compiled by G. Olshanskaya Editor M. Bandura Order 7060/34 Tehred I. Veres Corrector M. Samborskaya Circulation 431 Subscription VNIIIPI of the State Committee of the USSR on matters of inventions and discoveries I 13035, Moscow, F — 35. Raushskaya nab., D. 4 5 Production and printing company, Uzhhorod, st. Design. 4