LT3862B - Heat-exchange apparatus - Google Patents

Abstract

Invention belongs to the field of heating engineering and may be used for the manufacture of convection heat exchangers. The invention aims to create a heat exchanger of increased heat exchange intensiveness. The heat exchanger wall dividing the hot and cold heat carriers is made of thermo insulating material with non-contacting insertions from a heat conductive material, the outside surfaces of which are in contact with the heat carriers.

Description

The invention relates to the field of thermal engineering and can be used in the manufacture of convection heat exchangers.

Current recuperators are widely known and used in practice, in which the heat carrier fluxes are separated by a wall made of heat-conducting material and realized by pipes, plates, etc. (H.H.AapnKO & TemoTexH »Ka, M., CrpOMHMar, 1985, p. 247).

There are also known regenerators for storing heat from one heat carrier stream and transferring it to another heat carrier stream. Heat exchange takes place between heat carriers by alternating contact with the same filler consisting of various forms of contacting physical bodies: beads, mesh, wires, thin strips and plates, liquid bodies made of heat-conducting material (Γ. Pwep, TXynep '^ Marem CropMHra ",

M., Mwp, 1986,254 p.).

Both recuperators and generators have the disadvantage that they have reduced heat exchange intensity due to the significant conductive heat leak along the partition wall.

The object of the invention is a heat exchanger with increased heat exchange intensity.

This purpose is achieved by having a heat exchanger with a heat-conducting wall separating the hot and cold heat carriers, or with a heat-accumulating filler alternately in contact with said heat carriers. The new features of the proposed technical solution compared to the known ones are:

the said wall or filler being made of a heat-insulating material with non-contacting inserts of a heat-conducting material, the outer surfaces of which are in contact with hot and cold heat carriers.

The fact that the wall or filler is made of a heat-insulating material with non-contacting heat-conductive material in contact with the outer surfaces of the hot and cold heat carriers allows heat from the hot flow to the cold to pass through the wall inclusions in a perpendicular direction. per.

thermal insulation material is encumbered (in known heat exchangers, heat passes through the wall, spreading both perpendicular and longitudinal), resulting in a much more intensive heat exchange.

Comparing the presented heat exchanger with known technical solutions, 5 such heat exchanger structure was not found, and the set of distinctive features allowing to achieve a positive effect is also unknown. In this way it can be recognized that the technical solution presented has new and substantial differences.

The drawing illustrates the heat transfer through a wall made in accordance with the invention described 10.

The wall 1 of the thermal insulation material separating the hot heat carrier + Q from the cold heat carrier Q contains inserts 2 of the heat-conductive material. _; v

Heat exchange takes place this way.

The wall 1 of the heat exchanger provided is made of a heat-insulating material having non-contacting inserts 2 of a heat-conductive material that contact the outer surfaces with the hot heat carrier + Q and the cold heat carrier -Q. The heat has the advantage of passing through the inserts 2 of the wall 1 in a perpendicular direction, indicated by continuous arrows, from the hot heat carrier + Q stream to the cold heat carrier -Q. The longitudinal propagation of heat through the insulating material is hindered, as shown by the dotted arrow. As a result, heat exchange through the wall structure 1 of the proposed structure is more efficient than through a wall made entirely of a heat conductor.

Claims (1)

Definition of the Invention A heat exchanger having a heat-conductive wall separating the hot and cold heat carriers or a heat-accumulating and delivering filler, alternately in contact with said heat carriers, characterized in that said wall and filler are made of a heat-insulating material with non-contacting heat-insulating material surfaces in contact with hot and cold heat carriers.