RU2062397C1 - Boiler - Google Patents

Abstract

FIELD: power engineering; thermal power stations. SUBSTANCE: boiler has furnace with rear tubular screen 5 which divides gas duct into uptake part 3 and downtake part 4 where heating surfaces are located. Heating surfaces are made in form of coils 7 each of which is located in both parts 3 and 4 of gas duct. Inlet and outlet sections 8 of coils 7 are connected to respective headers 9 and are located in downtake part 4 of gas duct. Coils 7 are located between tubes of screen 5 on which they are mounted. EFFECT: enhanced reliability. 2 cl, 2 dwg

Description

 The present invention relates to energy and can be used in thermal power plants.

 A boiler is known that contains a combustion chamber, a lifting and lowering flues, a front screen with a pinch, above which a “warm” box is placed, into which the collectors with adjacent sections of coils of heating surfaces located in the lifting flues are connected (see.with N 1386794, CL F 22B 37/10 for 1986).

 The disadvantage of this boiler is that the lowering duct is located outside the combustion chamber, which leads to an increase in metal consumption due to the enclosing surfaces of the lowering duct. Despite the fact that the “warm” box is located within the dimensions of the combustion chamber, the collectors with adjacent coil sections do not participate in heat transfer, which leads to an increase in the boiler’s metal consumption.

 Known boiler type "El-Paso" containing a combustion chamber, lifting and lowering flues located within the combustion chamber, and the lowering duct is formed by folding the rear screen. In the lifting and lowering flues, there are coils of heating surfaces based on two rows of suspended pipes.

 The collectors and adjacent sections of the heating surface coils located in the lifting gas duct are removed through the front screen seal elements outside the combustion chamber to a “warm” box (see VINITI collection “Results of science and technology.” A. P. Kovalev “Status and development trends of modern energy steam generators ", Moscow, 1971, p. 31, p. 3b).

 The disadvantage of this boiler is that the collectors, together with the adjacent sections of the coils of the heating surfaces, are placed in a “warm” box from the heating zone, that is, part of the heating surfaces is not involved in the heat exchanger, which in turn leads to an increase in the metal consumption of the boiler.

 The present invention reduces the dimensions and metal consumption of the boiler, and also reduces harmful emissions into the atmosphere and suction cups on the boiler.

 A well-known boiler containing a furnace, gas ducts divided by a rear screen into a lifting and lowering with heating surfaces located in them, the coils of which are connected by their inlet and outlet sections to the corresponding collectors, differs in that the surface coils are located simultaneously in the lifting and lowering flues, and their inlet and outlet sections with collectors in the downcomer flue. Coils of surfaces are passed through the rear screen of the furnace and rest on it.

 Comparative analysis with the prototype shows that the claimed boiler is characterized in that the surface coils are located simultaneously in the lifting and lowering ducts, and their inlet and outlet sections with collectors in the lowering duct. Coils of surfaces are passed through the rear screen of the furnace and rest on it.

 Thus, the claimed device meets the criterion of "novelty."

 When emitting other well-known technical solutions in this technical field, signs that distinguish the claimed solution from the prototype were not identified and therefore they provide the claimed technical solution with "inventive step".

 The invention is illustrated by drawings, which depict: in FIG. 1 - boiler (general view); in FIG. 2 node I in FIG. 1.

 The boiler contains a furnace 1 with burners 2, flues 3 and 4, divided by a rear screen 5 into a lifting and lowering with heating surfaces 6 placed in them, coils 7 of which are connected by their input and output sections 8 to the corresponding collectors 9 and are simultaneously located in the lifting 3 and lowering 4 gas ducts, and their inlet and outlet sections 8 with collectors 9 in the lowering socket 4. Coils 7 of heating surfaces 6 are passed through the rear screen 5 of the furnace and, through gas-tight seals 10, are supported on the rear screen 5 and on one row of suspended pipes 11, races laid in each of the flues.

 The boiler operates as follows. The combustion products of the fuel formed after the burners 2 in the combustion process pass through the furnace 1, the riser duct 3, heating the medium in the furnace screens and in the heating surfaces 6, which are located in the riser duct 3. Next, the combustion products pass the outlet duct 4, where the heat of the combustion products it is perceived by the inlet and outlet sections 8 of the coils 7 together with the corresponding collectors 9 of the heating surfaces 6. With this arrangement of the heating surfaces, there is no “warm” box on the boiler, and the downcomer duct 4 is in size the combustion chamber, thereby reducing the metal content of the boiler. In this case, the weight load from the coils is transmitted only to one row of suspension pipes 11 (instead of two according to a known solution) located in each of the flues, and the seal 10 of the coils' passage through the rear screen 5 of the furnace, which also reduces the metal consumption. The absence of piercing of the front screen of the furnace reduces heat loss from air suction into the furnace and reduces the amount of harmful emissions into the atmosphere.

 The present invention will be applied to the boiler E-500-13, 8-560 GM.

Claims (2)

 1. A boiler containing a furnace with a rear tubular screen dividing the gas duct into the lifting and lowering parts with the heating surfaces located in the latter, the coils of which are connected by their inlet and outlet sections to the respective collectors, characterized in that the heating surfaces are made of coils, each of which placed in both parts of the duct, with the inlet and outlet sections of the coils with collectors located in the lower part of the duct.  2. The boiler according to claim 1, characterized in that the coils of the heating surfaces are placed between the tubes of the screen and are installed on the latter.

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