SU491005A1 - Radiation fridge - Google Patents

Description

one

The invention relates to heat engineering and concerns the cooling of objects in various technological processes.

In a preliminary embodiment, the invention is intended to cool glass.

A radiation cooler is known, which includes a chamber whose working surface is covered with an absorbing layer.

However, this refrigerator does not have a high cooling rate, because with a high heat flux density there is a film boiling of the refrigerant on the inner surface of the chamber.

In this case, in a radiation cooler operating at atmospheric pressure, it is not possible to prevent the transition from bubble to film boiling, in which the heat transfer coefficient decreases by almost an order of magnitude.

The aim of the invention is to intensify the cooling process.

This goal is achieved by making the radiation cooler in the form of a sealed chamber equipped with a pressure control device, such as a piston.

Since the pressure in the sealed chamber can be regulated within wide limits, and the boiling point of the refrigerant is proportional to the pressure in the chamber, this allows

maintain the boiling point of the refrigerant close to the temperature of the working surface of the refrigerator, as a result of which conditions for bubble boiling are created, which

intensifies the cooling process.

Radiation cooling is particularly preferable when cooling partially transparent materials, such as glass, for example, since these materials have the volumetric nature of the radiation. In radiative cooling, along with the increase in the intensity of cooling, it is significant. the temperature gradient is reduced across the thickness of the article from the partially transparent material.

The invention is illustrated in the drawing. The radiation cooler includes a metal working chamber 1 filled with a liquid evaporating refrigerant. On

Outside the surface of the working chamber 1, facing the cooled object, a thin absorbing layer 2 is deposited, for example, from CgvOz or SiC. The working chamber 1 is equipped with a piston 3 for regulating the pressure in the chamber 1 and is connected by tubes 4 to a diverter tube 5 placed in an additional flow cooler 6.

The radiant flux emitted by the object hits the external absorbing surface.

2 working chambers 1 of a radiation cooler and almost completely absorbed by it. The heat flux is then transmitted through the metal wall of the radiation cooler. On the inner surface of the wall of the radiation cooler, the process of heat extraction is carried out by evaporation of the refrigerant. Herewith, due to the fact that increased adjustable pressure is maintained in the working chamber, evaporation is carried out by means of bubble boiling.

The resulting steam through the tube 4 enters the discharge pipe 5, which is located in the pre-vacuum flow cooler 6. In the process, the steam condenses and the condensate returns through the other tube 4 to chamber 1.

Claims (1)

Invention Formula A radiation cooler comprising a chamber, the working surface of which is covered with a rinsing layer, characterized in that. that, in order to intensify the cooling process, the chamber is sealed and provided with a device for regulating pressure, for example, with a pressure chamber.