RU2008556C1 - Furnace - Google Patents

Abstract

FIELD: steam generators. SUBSTANCE: furnace has case 1 with combustion chamber 2 and grate forming grating space together with case. Case 1 mounts vertical barriers 5, 6 and horizontal barrier 7 forming ducts 8, 9, 10, 11 for passing furnace gases, their intercommunication being provided through grating space and above grate level. Walls of case 1 have ports 15, 16 to admit air for burning and smoke flue. When furnace is operating, fuel burns on grate. Products of combustion and gasification are evacuated from combustion chamber 2 through downtake channel 8 to grating space wherefrom most light part enriched by oxygen immediately returns through channel 8 to chamber 3. Other part is discharged through channel 10 and bifurcated; one flow goes to smoke flue and other circulates over channel 10 to grating space and further to combustion chamber 2. EFFECT: improved efficiency of fuel combustion due to multiple circulation of products of combustion. 2 cl, 3 dwg

Description

 The invention relates to a device for burning solid lump fuel and can be used mainly in low-power heat generators for decentralized heat supply systems.

 Known furnaces containing a combustion chamber, a grate with a podkolosnikovym space and an afterburner, separated from the combustion chamber by a partition [1].

 A disadvantage of the known furnaces is the low efficiency of afterburning of combustion products.

 The closest known technical solutions to the described one is a furnace containing a housing with a combustion chamber and a grate, forming an armrest space with the housing, and vertical partitions installed in the housing, forming interconnected lower and lift channels for the passage of flue gases [2].

 A disadvantage of the known furnace is low efficiency due to incomplete combustion of the fuel, due to the complexity of ensuring the effective removal of volatile and gasification products from the fuel layer and the superlayer space.

 The aim of the invention is to increase the efficiency and quality of fuel combustion.

 This goal is achieved by the fact that the lowering and lifting channels for the passage of flue gases are communicated with each other through the armrest space and above the level of the grate, and the windows for supplying combustion air are made obliquely in the walls of the casing and are directed into the channels along the gas in them.

 In FIG. 1 shows a firebox, section; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 is a section BB in FIG. 1.

 The furnace contains a water-cooled casing 1 with a combustion chamber 2 with a grate 3, forming with the body an armrest 4, vertical partitions 5, 6 and a horizontal partition 7, forming channels 8, communicating with each other through the armrest and above the grate,. 9 and 10, 11. In the furnace there are doors 12, 13, 13a for loading fuel into the furnace, its ignition and ash removal, a fan 14 for forced supply of combustion air from outside the furnace, windows 15, 16 for supplying this air to the channels, chimney 17.

 The furnace works as follows.

 The fuel loaded into the combustion chamber 2 burns on the grate 3. The combustion and gasification products go to the lowering channel 8 and pass into the under-the-head space 4, from where part of them, the most enriched with oxygen, which means the lightest, immediately returns through the channel 9 to the combustion chamber 2 in order to consume excess oxygen, and the other part goes into the lifting channel 10, from which part of the flue gases is removed into the chimney 17, and the part can be recycled again through the channel 11 to the armrest 4 and further to the combustion chamber 2.

 The combustion air is supplied by the fan 14 through the windows 15 in the lowering channel 8 and the windows 16 in the lifting channel 10.

 Such repeated recirculation of flue gases allows them to be repeatedly passed through the active combustion zone at the grate 3, in addition, actively ventilating the superlayer space, reducing the likelihood of an explosion, more evenly and actively warming the fuel in the combustion chamber 2, thereby contributing to its better combustion, more effectively transfer heat to the furnace body 1, which is essentially a heat exchanger. (56) 1. USSR author's certificate N 1069368, cl. F 24 H 1/30, published, 1982.

 2. USSR author's certificate N 1163087, cl. F 23 B 1/12, published. 1985.

Claims (2)

 1. A firebox for burning solid fuel, comprising a casing with a combustion chamber and a grate, forming an armrest space with the casing, and vertical partitions installed in the casing, which form a lowering and lifting channel for the passage of flue gases, interconnected, characterized in that, for the purpose of To increase the efficiency and quality of fuel combustion, the lowering and lifting channels for the passage of flue gases are communicated with each other through the armrest space and above the level of the grate.  2. A furnace according to claim 1, characterized in that the windows for supplying combustion air are made obliquely in the walls of the casing and are directed into the channels in the direction of the gases in them.

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