RU2561223C2 - Cryogenic liquid evaporator - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: invention relates to heat engineering and can be used in cryogenic equipment for evaporation of gaseous mediums in liquid state. The cryogenic liquid evaporator contains the housing where heat exchange elements and a heater are located. The housing is implemented as at least two two-layer shells forming an annular cavity for flow of the heating heat carrier, each of shells consists of two interconnected shell rings between which the channels united in headers for supply and discharge of cryogenic component are formed. Shells of the housing are made profiled and contain cylindrical part and narrowed part designed as a confusor with formation of an annular cavity with channels for flow of the cryogenic component between the named parts. Inside the conical part the branch pipe connected with the cavity of the internal shell is installed, and the header of supply of one of fuel components to the mixing elements is located in the evaporator housing.

EFFECT: invention is aimed at improvement of performance and expansion of functionality of the evaporator.

5 cl, 2 dwg

Description

The invention relates to the field of heat engineering and can be used in cryogenic technology for the vaporization of gaseous media in a liquid state, in space rocket technology and in the national economy, for example, for gasification of liquefied gases and mixtures thereof.

To solve promising technical problems, there is a need for an evaporator-gasifier with a developed heating surface, compact, simple in design, low weight, for relatively high flow rates of 10 kg / s, and a more evaporated coolant and operable at high pressures of more than 10 MPa.

Known evaporator of cryogenic liquid (hereinafter the evaporator), comprising a housing with concentric partitions located therein, a coil with a cryogenic product made of two parts, one of which is located between the housing and the partition, and the other between the partitions, electric heaters located in the central part of the housing . The space between the case and the outer partition is filled with water forming an ice screen (USSR Author's Certificate No. 932094, IPC: F17C 9/02, 1982).

The main disadvantages of this evaporator are:

- the use of water in the device complicates the design, limits the choice of the maximum values of temperature and pressure of the coolant, which in turn leads to a limitation of the maximum thermal power, an increase in the total mass of the structure and an increase in the time the device goes into operation and, in addition, imposes additional requirements for maintaining tightness housing, as well as the purity of the water used, in addition, electric heaters have a limited service life and their presence leads to the need to have an electric source ropitaniya them with control equipment.

Known evaporator of cryogenic liquid containing a housing in which heat exchange elements, a heater are located, while the housing is made in the form of two-layer cylindrical shells forming an annular cavity for passage of the heating fluid, each of the shells consists of two cylinders rigidly interconnected, between which channels are formed combined into collectors for supplying and discharging a cryogenic product, while at the entrance to the annular cavity a lid is fixed, in which mixing elements and plamenyayuschee device, and the output is fixed gazovod (RF patent №2347972, IPC: F17C 9/02, 10.07.2007 - a prototype).

The evaporator operates as follows.

Evaporated medium, for example cryogenic liquid, is supplied in two streams through the supply pipes to the collectors and through the channels of the inner shell and the outer shell flows, gradually evaporating, to the collectors, from which it is discharged through the discharge pipes to the consumer side.

The flow of the evaporated medium can be carried out both “downstream” and “counterflow” with respect to the movement of the heating medium.

Heating medium - heat carrier - products of combustion of any fuel, for example kerosene, alcohol, natural gas, etc., the temperature of which can reach from 900 K to 2200 K (regulated by the ratio of fuel components) and is limited only by the properties of the materials used, moves from the fire wall of the cover towards the gas duct, giving off heat along the evaporated medium flowing through the channels of the shells along the way.

Preparation of fuel components for the combustion process: mixing, spraying is carried out by mixing elements, and an ignition device is used to ignite the mixture.

The disadvantages of this evaporator is the significant complexity of the design and assembly, as well as the significant dimensions and weight due to the adopted layout of the structural elements of the evaporator.

The objective of the invention is to remedy these disadvantages, improve technical characteristics and expand the functionality of the evaporator.

The solution to this problem is achieved due to the fact that in the proposed evaporator of a cryogenic liquid containing a housing in which heat-exchange elements are located, a heater, the housing is made in the form of at least two two-layer shells forming an annular cavity for the passage of the heating fluid, each of shells consists of two shells rigidly interconnected, between which channels are formed, combined into collectors for supply and removal of a cryogenic product, while at the entrance to the annular strip a cover is fixed in which mixing elements and an ignition device are installed, and a gas duct is installed at the outlet, according to the invention, the shells of the housing are profiled and contain at least a cylindrical part and a tapering part in the form of a confuser, preferably conical, with the formation of an annular cavity in the inner cavity for the passage of the cryogenic component between these parts, while inside the conical part, preferably in its central zone, a pipe is connected to the cavity morning shell.

In an embodiment, for generating a heating coolant in the temperature range from 900 K to 2200 K, mixing elements are installed in the lid, for example nozzles for burning fuel and a device igniting a combustible mixture.

In an embodiment, in order to increase the coefficient of heat transfer from the heating medium to the vaporized medium, one of the cylinders of each of the shells from the side of the heating medium is made of a material with increased thermal conductivity.

In an embodiment, to reduce heat loss to the surrounding space, heat insulation is applied to the housing and gas duct.

The invention is illustrated by drawings, where figure 1 shows a longitudinal section of the evaporator, and figure 2 is an embodiment of a mixing head.

The cryogenic liquid evaporator contains a housing 1, which is made in the form of two two-layer shells 2 and 3, forming an annular cavity 4 for the passage of the heating fluid. Each of the shells 2 and 3 consists of two shells 5, 6 and 7, 8 rigidly connected to each other, respectively.

The shells 5, 6 and 7, 8 of the housing 1 are made profiled and contain cylindrical parts 9, 10 and 11, 12 and tapering parts 13, 14 and 15, 16, respectively.

In each shell 2 and 3 channels 17 and 18 are made, respectively. The channels 17 of the inner shell 2 are connected to the collectors of the inlet 19 and the outlet 20. The channels 18 of the outer shell 3 are connected to the collectors of the inlet 21 and the outlet 22. At the entrance to the annular cavity 4 a cover 23 is fixed, in which the mixing elements 24 and the ignition device 25 are mounted. the outlet of the annular cavity 4 is installed gas duct 26.

Inside the gas duct 26, a support 27 is mounted with the possibility of sliding along the inner cylindrical part of the gas duct when heating or cooling the various components of the structure.

Thermal insulation 28 is applied to the outer surfaces of the gas duct 26. A collector 29 is installed on the inner surface of the housing 1 for supplying one of the fuel components to the mixing elements 24.

The evaporator operates as follows.

The evaporated medium, for example, cryogenic liquid, is supplied in two streams through the supply pipes to the collectors 19, 21 and through the channels 17 of the inner shell 2 and the channels 18 of the outer shell 3, gradually evaporating, to the collectors 20, 21, from which it is diverted to the side by the discharge pipelines consumer.

The flow of the evaporated medium can be carried out both “downstream” and “counterflow” with respect to the movement of the heating medium.

Heating medium - heat carrier - products of combustion of any fuel, for example kerosene, alcohol, natural gas, etc., the temperature of which can reach from 900 K to 2200 K, moves from the fire wall of the cover 23 towards the gas duct 26, giving away along the way heat evaporated medium flowing through the channels 17 and 18 of the shells 2 and 3, respectively.

Mixing and spraying is carried out by the mixing elements 24, and the device 25 is used to ignite the mixture.

In an embodiment, a manifold 29 for supplying one of the fuel components to the mixing elements 24 is installed on the inner surface of the housing 1.

Using the proposed invention will improve the overall dimensions of the evaporator, simplify its design and assembly.

Claims (5)

1. An evaporator of cryogenic liquid containing a housing in which heat-exchange elements are located, a heater, the housing being made in the form of at least two two-layer shells forming an annular cavity for passage of the heating fluid, each shell consisting of two rigidly interconnected shells, between which channels are formed, combined into collectors for supplying and discharging a cryogenic product, while at the entrance to the annular cavity a lid is fixed in which mixing elements and a flaming device, and a gas duct is installed at the outlet, characterized in that the shells of the housing are profiled and contain at least a cylindrical part and a tapering part in the form of a confuser, preferably conical, with the formation of an annular cavity in the inner shell for passage of the cryogenic component between these parts, at the same time, inside the conical part, preferably in its central zone, a pipe is installed connected to the cavity of the inner shell, and a collector for supplying one of the fuel components to mixing elements placed inside the evaporator body. 2. The evaporator according to claim 1, characterized in that the mixing elements are made in the form of nozzles. 3. The evaporator according to claim 1, characterized in that the inner cylinders are made of a material with high thermal conductivity. 4. The evaporator according to claim 1, characterized in that a movable support is installed in the gas pipe. 5. The evaporator according to claim 1, characterized in that thermal insulation is applied to the housing and the gas duct.

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