RU2347150C2 - Heat exchanger (versions) - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: invention relates to energy industry and can be used to heat fluid or gaseous medium by infrared radiation source. To achieve the aim the heat exchanger comprises at least one channel for the medium subject to heating which is made in the cavity of the exchanger casing where at least one infrared radiation source is mounted as well, an individual reflector of infrared rays is set axially to the channel to concentrate the rays at the channel including those parts of it which are inaccessible for the direct rays of the infrared radiation source. According to the second version an individual reflector of infrared rays is set axially to the channel for the medium subject to heating to concentrate the rays at the channel including those parts of it which are inaccessible for the direct rays of the infrared radiation source; the above channel is made by plates resulting in a plate-type heat exchanger. According to the third version the channel for the medium subject to heating is made as at least one flat spiral which can be serpentine-patterned. According to the fourth version the heat exchanger is made with the channel for the medium subject to heating in the form of collectors connected to each other by pipes. In all versions the channel for the medium subject to heating can be made from the materials which are radiolucent for infrared radiation.

EFFECT: increasing heating efficiency.

12 cl, 10 dwg

Description

The claimed device relates to heaters of a liquid or gas medium, such as water or air, using a source of infrared radiation and can be widely used in various industries.

Heat exchangers are known in which there are separate channels for carriers of heat and a heated medium, for example pipe-in-pipe type heat exchangers widely used in industry, tubular and plate heat exchangers.

Closest to the proposed heat exchanger is a heat exchanger containing at least one channel for a heated medium, made in the cavity of its body, in which at least one infrared radiation source and a reflector are also installed (see, for example, a.s . USSR 273171).

The objective of the invention is to provide a heat exchanger convenient for use and improving safety.

This task is achieved in the heat exchanger according to the first embodiment in that it contains at least one channel for a heated medium, made in the cavity of its body, in which at least one infrared radiation source is also installed, and this channel is axially heated An individual reflector of infrared rays is made of the medium, concentrating these rays on the channel, including its inaccessible parts for direct rays of the infrared radiation source.

In this embodiment of the heat exchanger, the infrared reflector and the channel for the heated medium can be made in the form of a spiral covering the infrared radiation source, the individual infrared reflector can be located on the opposite side of the channel for the heated medium with respect to the infrared source, and the channels for the heated medium made of materials transparent to infrared radiation.

In the heat exchanger according to the second embodiment, containing at least one channel for the heated medium, made in the cavity of the casing, in which at least one source of infrared radiation is also installed, the task is performed in that it is made axially to this channel for the heated medium individual reflector of infrared rays, concentrating these rays on the channel, including its inaccessible parts for direct rays of the infrared radiation source, and the said channel is formed by plates with the formation of plas inchatogo exchanger. In this case, the channel can be equipped with partitions, and the plates can be made of materials transparent to infrared radiation.

According to the third embodiment, the heat exchanger contains at least one channel for the heated medium, made in the cavity of the housing, in which at least one source of infrared radiation is also installed, an individual infrared ray reflector concentrating these rays is made axially to this channel for the heated medium on the channel, including its inaccessible parts for direct rays of the source of infrared radiation, and the channel for the heated medium is made in the form of at least one flat spiral, which can be unhappy. The channels for the heated medium in this embodiment of the heat exchanger can also be made of materials transparent to infrared radiation.

According to a fourth embodiment, the heat exchanger comprises at least one channel for a heated medium, made in the cavity of its housing, in which at least one infrared radiation source is also installed. Axially to this channel for the heated medium, an individual infrared ray reflector is made, concentrating these rays on the channel, including its inaccessible parts for direct rays of the infrared radiation source, and the channel for the heated medium is made in the form of collectors interconnected by tubes, and the channels for the heated medium are made from materials transparent to infrared radiation.

The heat exchanger is illustrated by the following drawings:

Figure 1 - schematic diagram of a heat exchanger in a perspective view (option 1).

Figure 2 - section aa in figure 1.

Figure 3 - view of the heat exchanger formed by the plates (longitudinal section, option 2).

Figure 4 is a top view of figure 3.

Figure 5 is a section bB in figure 3.

6 is a view of a heat exchanger with channels in the form of a flat spiral (top view, option 3).

Fig.7 is a longitudinal section of Fig.6.

Fig - heat exchanger with channels in the form of a serpentine spiral (cross section).

Fig.9 - heat exchanger with channels in the form of collectors (option 4).

Figure 10 - section aa in figure 9.

The heat exchanger contains at least one channel 1 for the heated medium, made in the cavity 2 of its housing, in which at least one source 3 of infrared radiation is installed. Axially to this channel for the heated medium, an individual reflector of 4 infrared rays is made, concentrating these rays on the channel, including its inaccessible parts for direct rays of the infrared radiation source. When performing channels 1 formed by plates, partitions 5 can be installed in them.

The heat exchanger may consist of several sections, each of which has at least one channel for a heated medium, liquid, for example water, alcohol, beer, beer wort or kvass, or gas, for example air, connected to the inlet and outlet pipes 6 and 7 respectively.

The heat exchanger section can be made in the form of a thermos, for this it is thermally insulated or the case is double-walled, and air is pumped out of the gap between the walls (Fig. 2).

Reflectors 4 of infrared rays can be in the cross section in the form of a curve, for example a semicircle or half-ellipse, and in a longitudinal section, have a rectilinear shape.

The heat exchanger operates as follows.

The heated medium, such as water or air, enters the channel 1 through the pipe 6, moves inside the cavity 2, and if the infrared radiation source 3 is turned on, then the infrared rays are heated through the cavity 2 of the housing and through the walls of the channel 1. In the heat exchanger, reflectors 4 play an important role as they allow, reflecting the infrared rays passing by channel 1 and concentrating them on the opposite side to the source 3, heat the channel from all sides with one lamp mounted in the center of the cavity 2

When using tubes 9 of a relatively small diameter as a channel for the heated medium, this medium enters the annular collector 8, and from it into the tubes 9, which are uniformly heated by infrared rays of the lamp and provide uniform heating of the medium.

Claims (11)

1. A heat exchanger containing at least one channel for a heated medium, made in the cavity of its body, in which at least one infrared radiation source is installed, characterized in that an individual infrared reflector is made axially to this channel for the heated medium rays, concentrating these rays on the channel, including its inaccessible parts for direct rays of the source of infrared radiation. 2. The heat exchanger according to claim 1, characterized in that the infrared reflector and the channel for the heated medium are made in the form of a spiral covering the source of infrared radiation. 3. The heat exchanger according to claim 1, characterized in that the infrared reflector is located on the opposite side of the channel for the heated medium with respect to the source of infrared radiation. 4. The heat exchanger according to claim 1, characterized in that the channels for the heated medium are made of materials transparent to infrared radiation. 5. A heat exchanger containing at least one channel for a heated medium, made in the cavity of the housing, in which at least one infrared radiation source is also installed, characterized in that an individual infrared reflector is made axially to this channel for the heated medium concentrating these rays on the channel, including its inaccessible parts for direct rays of the infrared radiation source, said channel being formed by plates to form a plate heat exchanger. 6. The heat exchanger according to claim 5, characterized in that the channel formed by the plates is provided with partitions. 7. The heat exchanger according to claim 5, characterized in that the plates are made of materials transparent to infrared radiation. 8. A heat exchanger containing at least one channel for a heated medium, made in the cavity of the housing, in which at least one infrared radiation source is also installed, characterized in that an individual infrared reflector is made axially to this channel for the heated medium concentrating these rays on the channel, including its inaccessible parts for direct rays of the infrared radiation source, and the channel for the heated medium is made in the form of at least one plane spiral. 9. The heat exchanger according to claim 8, characterized in that the channel for the heated medium is made in the form of a flat serpentine spiral. 10. The heat exchanger according to claim 8, characterized in that the channels for the heated medium are made of materials transparent to infrared radiation. 11. A heat exchanger containing at least one channel for a heated medium, made in the cavity of its housing, in which at least one infrared radiation source is installed, characterized in that an individual infrared reflector is made axially to this channel for the heated medium rays, concentrating these rays on the channel, including its inaccessible parts for direct rays of the source of infrared radiation, and the channel for the heated medium is made in the form of collectors interconnected by tubes.

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