CS215664B1 - Lamellar recuperation heat exchanger - Google Patents

Abstract

Thatch recuperative heat exchanger for poor heat recovery from waste air. Wood. The purpose of the invention is to provide security permanently higher heat exchange efficiency also in where the cleanliness of the waste or The heated air is considerably variable. The advantage of the exchanger is the simple option assembly and disassembly of spacers and simplification any need for clarification or review exchanger. The purpose described is achieved by positioning spacers in heat exchange slots sinusoidal-like surfaces with constant wavy and variable pitching in one direction.

Description

Wood.

The purpose of the invention is to ensure a permanently high heat exchange efficiency even in plants where the purity of the waste or heated air is highly variable. The advantage of the exchanger is the possibility of easy assembly and disassembly of spacers and simplification of the possible need for a clean or revision of the exchanger.

The described purpose is achieved by placing the spacers in the slots of heat exchange surfaces similar to sinusoidal shapes with a constant wavy height and variable pitch increasing in one direction.

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The present invention provides a thatched heat recovery exchanger for recovering heat from exhaust air.

The prior art heat exchange devices utilize differently shaped or profiled heat exchange surfaces to ensure high efficiency of heat exchange from the exhaust air, the heated air. Thick heat exchangers with known spacers of constant wavy height between heat-exchanging surfaces, e.g. U.S. Pat. No. 3,907,032, Great Britain no. 1 235 542 and no. 1 267 027, France no. For heat exchangers in which, for various reasons, 'profiled or shaped thatch of heat exchange surfaces (corrosion, dirt deposits, etc.) cannot be used, the heat exchange efficiency' is thus considerably reduced.

The disadvantages of the prior art are largely eliminated by the thatched heat exchanger having flat heat exchange surfaces, which is based on the fact that the spacers have a variable pitch increasing in one direction.

The advantage of the inventive thatch recuperative heat exchanger is, in particular, the ease of assembly and disassembly of spacers, the simplification of any need for cleaning or revision, and the assurance of consistently high heat exchange efficiency even in plants where the purity of waste or heated air is highly variable.

The drawing shows an example of an embodiment of a thatched exchanger according to the invention.

The thatched heat exchanger comprises three spacers 2 in separate, interspersed slots 1, which form at least the unformed heat exchanger surfaces. The spacers 2 are fixed at both ends in a frame which is part of the exchanger block. The spacers 2 are similar in shape to a sine wave of the same height of the wavy line A but of variable pitch so that the channels gradually increase in one direction of the heated air flow and gradually decrease in the other direction of the cooled air. The spacers 2 are generally of circular or rectangular cross-section and of a material according to the type of heat transfer medium used in the exchanger.

Thatch recovery heat exchanger according to the invention can be used in all HVAC systems. Preferably, it can be used in an apparatus where the heat exchange air used contains corrosive impurities, high humidity, or other toxic impurities.

Claims (1)

Thatched recuperative heat exchanger with flat, unformed heat exchanger surfaces, forming separate slits over the upstream, countercurrent or cross-flow arrangement of the exhaust and heated air, wherein spacers similar to the sinusoidal shape with a constant height are located in the slots between the heat exchanger surfaces. the spacers (2) have a variable pitch (f 1, f g, f 1), increasing in one direction.