RU165068U1 - REA BLOCK COOLING HOUSING - Google Patents

Abstract

The cooling housing of the REA unit, comprising a panel of electrically conductive material with covers, with REA elements mounted on the panel, in which collector channels for cooling liquid are mutually perpendicular and mutually parallel, containing plugs and distribution channels for coolant, characterized in that two opposite sides at the ends of the panel are made collector channels of rectangular cross-section, and plugs hermetically close the collector channels from the end side on top awns panel, being both their lateral sides, with the distribution channels begin and end at the collecting channels.

Description

Housing cooling unit REA.

The utility model relates to heat engineering and is intended for cooling the REA fuel elements, which helps to improve the thermal mode of their operation.

Known group heat sink with liquid cooling (patent RU 2093923), comprising a housing of a highly conductive material with channels for coolant. The disadvantage of group heat sink is the complexity and low adaptability of the design.

The prototype is the cooling enclosure of the REA unit, containing mutually perpendicular and mutually parallel distribution and collector channels for coolant containing plugs at the edges of the panel, the diameter of the collector channels is larger than the diameter of the distribution channels, and fittings are installed at the inlet and outlet of the collector channels. The panel has through windows (patent RU 142996 U1).

Of the disadvantages of the prototype should be noted as follows.

The presence of through windows leads to a decrease in the strength characteristics of the panel, complicating the choice of location of distribution channels. In addition, to increase the cooling efficiency of CEA elements, it is necessary to increase the flow of coolant. If the collector channels located in the panel array are increased for this, in order to maintain the strength characteristics of the panel, it will be necessary to increase the thickness of the panel of the cooling enclosure of the REA unit, which in turn worsens the cooling conditions of the elements installed on it.

The objective of the utility model is to increase the heat transfer efficiency between the REA elements and the panel.

The technical result is to reduce the thickness of the panel.

The technical result is achieved due to the fact that the cooling case of the REA unit, comprising a panel of electrically conductive material with covers, with REA elements installed on the panel, in which collector channels for coolant are mutually perpendicular and mutually parallel, containing plugs and distribution channels for coolant, and from two opposite sides, on the ends of the panel are made collector channels of rectangular cross section, and plugs hermetically close the collector channels from the side of the end surfaces of the panel, being both their sides, while the distribution channels begin and end in the collector channels.

In FIG. shows the proposed design of the panel housing cooling unit REA.

The panel of the cooling enclosure of the REA unit contains: A panel made, for example, from aluminum - 1, fittings for supplying coolant - 2, collector channels located on two opposite sides, 3 at the ends of the panel, distribution channels - 4 and plugs - 5.

The design works as follows.

Coolant through the inlet 2 is supplied to the collector channel 3 of the panel 1. Coolant through the collector channel 2 is distributed through the distribution channels 4 and cooling the panel 1 is collected in the opposite collector channel 3 and is discharged through the outlet nozzle 2. The plugs 5 close the collector channels 3.

The use of rectangular collector channels, which can be performed, for example, by milling, located on the end surfaces of the panel, allows to obtain the channel cross-sectional area necessary for efficient cooling of REA elements by changing its depth, which does not require an increase in the overall dimensions of the panel, but leads to a decrease in the panel wall thickness . Thus, the technical result - the reduction of the panel thickness is achieved. Distribution channels are designed so that they begin and end directly in the collector channels and they do not require plugs. In the proposed panel design, only two plugs are used, hermetically closing the collector channels from the end surfaces of the panel.

Thus, the proposed utility model increases the efficiency of heat transfer between the coolant and CEA elements installed on the panel by reducing the thickness of the panel. In addition, the manufacturability and reliability of the panel is increased due to the minimum number of plugs used. For collector channels, only two plugs are needed; for distribution channels, plugs are not needed.

Claims (1)

The cooling housing of the REA unit, comprising a panel of electrically conductive material with covers, with REA elements mounted on the panel, in which collector channels for cooling liquid are mutually perpendicular and mutually parallel, containing plugs and distribution channels for coolant, characterized in that two opposite sides at the ends of the panel are made collector channels of rectangular cross-section, and plugs hermetically close the collector channels from the end side on top awns panel, being both their lateral sides, with the distribution channels begin and end at the collecting channels.

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