RU183400U1 - Flue gas condensate recovery module - Google Patents

Abstract

The flue gas recovery condensing module is designed to increase the efficiency of the boiler plant by using the heat energy of the exhaust flue gases, including the latent vaporization energy expended on the evaporation of water from the combustion of natural gas and other combustion products. The flue gas condensing recovery module consists of a housing inside which a heat exchange element is placed. The heat exchange element is made of ribbed sectional radiators made of anticorrosive materials, such as aluminum. The sections are arranged parallel to each other in one or several rows and can be tilted in one of the planes relative to the vertical in one or different directions to control the speed of the flue gases in order to increase heat transfer. The housing is made of anticorrosive materials, such as stainless steel, and is equipped with nozzles providing entry and exit of flue gases. The lower part of the body has a tray for collecting and draining condensate through a condensate drain pipe. A flue gas stream flows around the heat exchange element, while water vapor condenses on the walls of the heat exchange element, flows down and is removed from the housing. The design allows the use of this condensing flue gas utilizer as an additional module built into the chimney. 2 ill.

Description

The utility model relates to heat engineering, and more specifically to the field of heat recuperators, and can be used to utilize the heat energy of the exhaust flue gases, including the latent energy of vaporization, spent on the evaporation of water from the combustion of natural gas and other combustion products.

The conical flue gas heat exchanger of domestic boilers is known from the prior art for the extraction of flue gas heat from a common smoke collector. It consists of a body formed by two truncated cones of different diameters with the same taper angles located coaxially, the bases of which lie in the same plane, between which a copper pipe-heat exchanger is wound in such a way that it falls to the truncated part along the inner surface of the outer cone, and rises along the outer surface of the inner cone in a checkerboard pattern and goes outside the heat exchanger, while on top, on the base of the cones, an ejector cover is placed on the side of the outer side of which the ejection slot is made, from below - a cone-shaped confuser is attached to the truncated part of the outer cone. The heat exchanger is installed in a common smoke collector. (Patent No. 158256, publ. 12/27/2015)

The disadvantage of this device is the design complexity and the lack of a condensate collection and removal system.

The task to which the claimed technical solution is directed is the development of a simple design of a flue gas condensate recovery module, implemented as a separate module with the ability to collect and drain condensate.

The technical result that can be obtained using the proposed utility model is to increase the efficiency of the boiler plant by using the energy of the heat of the exhaust flue gases, including the latent energy of vaporization, spent on the evaporation of water resulting from the combustion of natural gas.

This problem is solved due to the fact that the condensation module - a flue gas utilizer consists of a housing inside which a heat exchange element is placed. The heat exchange element is made of one or more sections of radiators used, for example, in building heating systems. The housing is made of anticorrosive materials, for example, stainless steel, and is equipped with nozzles providing entry and exit of flue gases. The lower part of the body has a tray for collecting and draining condensate through a condensate drain pipe.

Distinctive features of the proposed recovery module is that the heat exchange element is made of ribbed sectional radiators made of anticorrosive materials, for example, aluminum. The sections are arranged parallel to each other in one or several rows and can be tilted in one of the planes relative to the vertical in one or different directions to control the speed of the flue gases in order to increase heat transfer.

The invention is illustrated by drawings, which depict:

In FIG. 1 - isometric view

In FIG. 2 - cross section

The flue gas condensation recovery module includes a housing 1 with a pipe 2 for flue gas inlet, a pipe 3 for flue gas outlet, a condensate drain pipe 4 for draining condensate, a heat exchange element section 5, a liquid supply and outlet pipe 6, a condensate collecting tray 10.

Condensing module utilizer flue gas is as follows.

Hot flue gases from the boiler through the chimney into the housing 1 through the pipe 2 and pass between the ribs of the sections of the heat exchange element 5 while heating the coolant, and then go into the chimney through the pipe 3. The coolant can move in any direction inside the heat exchange element 5, which is connected to a heating system or hot water supply through the nozzles 6. With a corresponding temperature difference between the flue gases and the heat carrier, condensate forms on the surface of the heat exchange element 5, which flows down onto the pallet A collecting condensate 10 and is removed through tube 4 kondensatootvodnuyu.

Claims (1)

A flue gas recovery condensing module comprising a housing inside which a heat exchanger element, inlet and outlet pipes, a drain pan, a condensate drain pipe are arranged, characterized in that the heat exchange element is made of section fin radiators made of anticorrosive materials, for example aluminum, parallel to each other in one or more rows, and may have a slope in one of the planes relative to the vertical in one or different directions to control the speed of the flue gases in order to lichenie heat.

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