RU2566467C1 - Water-heating boiler - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: boiler comprises a furnace, the space of which is limited by a furnace grating, front and rear fronts, ceiling and side furnace screens, the latter of which are made in the form of pipe panels, hydraulically connected to appropriate upper and lower longitudinal headers of the boiler, and also a convective unit, comprising two convective gas pipes, equipped with heat exchange surfaces, comprising transversely streamlined pipe bundles, hydraulically connected to longitudinal headers of the boiler. At the inlet to the convective gas pipe there is a receiving hole of an intake chamber arranged, facing the gaps between vertical pipe risers of the convective unit of the boiler, the outlet hole of which by a gas pipe communicates with the receiving hole of a descending channel of the intermediate settlement chamber, the upper section of which is separated from an ascending channel with a partition, besides, the upper part of the ascending channel of the intermediate settlement chamber communicates by the second gas pipe with a mixing hole of an ejector, and the lower part of the intermediate settlement chamber is opened into the settlement chamber of the boiler.

EFFECT: increased efficiency of a boiler when burning brown coal due to intensified burning in a layer of moist solid fuel.

2 cl, 4 dwg

Description

The invention relates to boiler equipment, in particular to water tube boilers, with a thermal capacity of up to 4 mW, and can be used in heat supply systems of industrial and residential buildings.

Known hot water boiler containing a rectangular firebox with balanced draft and transversely streamlined by the combustion products of the heating surface of convective flues, made in the form of horizontal tube bundles. The boilers are made in heavy brick lining under the firebox and can be equipped with a mechanized return grid for burning solid fuel in the bed. When burning liquid and gaseous fuels, the boiler is assembled at zero point and is equipped with a gas-oil burner (see Small and medium-capacity boilers and furnace devices. Reference book. - M.: NIIE INFORMENERGOMASH, 1983. - 200 p. (P. 108, Fig. 90 - KV-TS-4-150 boiler and p. 110-111, Fig. 91 - KV-TS-6.5-150 boiler).

Also known is a water-heating boiler made in light brickwork, containing a firebox, the space of which is limited by the furnace grate, front and rear fronts, ceiling and side furnace screens, the latter of which are made in the form of tube panels hydraulically connected with the corresponding upper and lower longitudinal collectors of the boiler, with the possibility of successive upward and downward movement of water along them, as well as a convective unit, including two convective gas ducts equipped with heat-exchange surfaces E containing crossflow bundles hydraulically connected with longitudinal manifolds boiler (see Boilers Gefest:. JSC "Bijskij boiler plant"). The boilers are designed to burn solid fuel in a layer with a pipe part structurally made similar to the series of boilers presented above. The boilers are made in light brickwork, have a rectangular firebox with balanced draft and two convective gas ducts with transversely streamlined pipe heat exchange surfaces. Fuel combustion can be carried out on a fixed grate, or on mechanized fire chambers in the form of fire chambers with a screwing bar, repulsive grates, tape forward grids. The main design feature of this type of boilers is the location of the furnace device between the lower longitudinal boilers of the boilers under the furnace chamber, while the boiler itself (furnace and convection part) is mounted on independent vertical side racks on which the lower longitudinal collectors of the boiler are installed,

The disadvantages of these known structural solutions include the insufficient burning rate of wet fuels, in particular brown coals, and, as a result, a decrease in the boiler's heat output (due to the impossibility of controlling the temperature and mass of the blast-gas medium).

The task to which the proposed technical solution is directed is to increase the heat output of the boiler.

The technical result achieved in solving the problem is to increase the boiler efficiency when burning brown coal due to the intensification of combustion in the wet solid fuel layer by heating the blast air before it is fed into the furnace and providing the possibility of controlling the primary air parameters, both in terms of flow rate and temperature . In addition, there is a release of blast air from ash particles.

To solve this problem, a hot water boiler containing a furnace, the space of which is limited by the furnace grate, front and rear fronts, ceiling and side furnace screens, the latter of which are made in the form of tube panels hydraulically connected to the corresponding upper and lower longitudinal collectors of the boiler, with the possibility of sequential upward and downward movement of water along them, as well as a convective unit, including two convective gas ducts equipped with heat-exchange surfaces containing and transversely streamlined tube bundles hydraulically connected to the longitudinal collectors of the boiler, characterized in that it is equipped with a heating system for blowing air, containing a blower mounted on the casing of the ceiling screen, the outlet duct of which is in communication with the working inlet of the ejector, the output of which is connected with a horizontal air and gas pipeline, blowing tuyeres of which are open in the sublattice space of the furnace grate, while at the entrance to the convective gas duct there is a receiving opening of the intake chamber, which is connected to the gaps between the vertical risers of the convection unit of the boiler, the outlet opening of which is connected by a gas line to the receiving opening of the descending channel of the intermediate precipitation chamber, the upper section of which is separated from the ascending channel by a partition, the upper part of the ascending channel of the intermediate precipitation chamber being communicated by the second gas pipeline with a mixing hole of the ejector, moreover, the lower part of the intermediate precipitation chamber is open into the precipitation chamber of the boiler. In addition, the horizontal air and gas duct, duct and gas are equipped with control flaps.

A comparative analysis of the features of the claimed solution with the signs of the prototype and analogues indicates the conformity of the claimed solution to the criterion of "novelty."

Distinctive features of the invention provide the solution to the following functional tasks.

Signs indicating that the boiler "is equipped with a blast air heating system containing a blast fan mounted on the lining of the ceiling screen, the outlet duct of which is connected to the working inlet of the ejector, the outlet of which is in communication with the horizontal air and gas duct, the blowing lances of which are open into the sublattice space of the furnace grate" provide heating blow air before it is fed into the furnace.

Signs indicating that “at the entrance to the convective gas duct there is a intake opening of the intake chamber facing the gaps between the vertical pipe risers of the convection unit of the boiler, the outlet of which is connected by a gas line to the receiving hole of the downward channel of the intermediate sedimentation chamber, the upper section of which is separated by a partition from the ascending channel moreover, the upper part of the ascending channel of the intermediate precipitation chamber is communicated by a second gas pipeline with a mixing hole of the ejector, moreover izhnyaya portion of the intermediate settling chamber open into a precipitation chamber boiler "provide release of blowing air from the ash particles.

The features of the additional claim provide the ability to control the parameters of the primary air both in terms of flow rate and temperature.

In FIG. 1 shows a general view of a boiler; in FIG. 2-fig. 4 shows sections A-A, B-B and B-B of the boiler, respectively.

The drawings show the space of the furnace 1, the furnace grille 2, the front 3 and rear 4 fronts, the ceiling 5 and side 6 furnace screens, the upper (7 and 8) and lower (9 and 10) longitudinal collectors of the boiler, convection unit 11, convective flues 12 , transversely streamlined tube bundles 13, a blower fan 14, a lining 15 of the ceiling screen 5, an outlet duct 16, a working inlet 17 of the ejector 18, its outlet 19, a horizontal air and gas duct 20, blowing tuyeres 21, a sublattice space 22 of the combustion grate 2, a receiving 23 and an output 24 holes of intake chamber 25, ver the second zone 26 of the convective gas duct 12, the gas pipe 27, the receiving hole 28 of the downward channel 29 of the intermediate precipitation chamber 30, the upper part 31 of the ascending channel 32, the baffle 33, the second gas pipe 34, the mixing hole 35 of the ejector 18, the lower part 36 of the intermediate precipitation chamber 30, the precipitation chamber 37, and control flaps 38.

The hot water boiler is made in light brickwork. The space of the furnace 1 is limited by the furnace grate 2 (for burning fuel, a fixed grate blade or a mechanized firebox with a screwing bar, pushing grate, with a forward grating, etc. can be used), front 3 (it also forms the front front of the boiler) and rear 4 fronts, ceiling 5 and side 6 fire screens.

Side 6 furnace screens are made in the form of tube panels hydraulically connected to the corresponding upper (7 and 8) and lower (9 and 10) longitudinal collectors of the boiler, with the possibility of successive upward and downward movement of water along them.

Convective unit 11 includes two convective gas ducts 12 (the first of them, the closest to the furnace, is a drain for the gas flow, and the second is a lift). Its heat exchange surfaces contain transversely streamlined tube bundles 13 hydraulically connected by longitudinal collectors of the boiler.

The boiler is equipped with a blast air heating system comprising a blast fan 14 mounted on the casing 15 of the ceiling screen 5, the outlet duct 16 of which is connected to the working inlet 17 of the ejector 18, the outlet 19 of which is in communication with the horizontal air and gas duct 20, the blow lances 21 of which are open into the sublattice space 22 furnace grate 2.

The receiving opening 23 of the intake chamber 25 is located in the upper zone 26 of the convective gas duct 12 (open into the gaps between the vertical pipes of the tube bundles 13), and its output opening 24 is connected via a gas line 27 to the receiving opening 28 of the downward channel 29 of the intermediate settling chamber 30, the upper portion of which isolated from the upper part 31 of the ascending channel 32 by a partition 33. Moreover, the upper part 31 of the ascending channel 32 of the intermediate precipitation chamber 30 is communicated by the second gas pipe 34 with a mixing hole 35 ejector a 18, and the lower part 36 of the intermediate precipitation chamber 30 is open into the precipitation chamber 37 of the boiler 1. In addition, the horizontal air and gas duct 20, air duct 16 and gas pipelines 27 and 34 are provided with control flaps 38.

The claimed device operates as follows.

The boiler is mounted on its own supports (not shown in the drawings) installed under the longitudinal lower manifolds 9 and 10. The furnace grill 2 and its units have an independent casing and support frame, and can be mounted and dismantled, if necessary, without violating the installation position of the boiler. The combustion of fuel is carried out in a known manner on the combustion grate 2.

Flue gases containing ash particles in their volume from the furnace 1 space enter the convective unit 11. Its convective flues 12 provide in them, at first, lowering and then lifting gases to the gas outlet window.

At the same time, the water in the heat-removing elements moves as follows: it enters through the water inlet pipe to the boiler, then through the horizontal horizontal pipes of the ceiling screen 5 it enters the vertical pipes of the front front 3 and, then, it passes to the lower 9 and 10 longitudinal boiler manifolds and passes along the side 6 furnace firebox screens 1 with two symmetrical flows, making lifting and lowering movements in sections. Then the water enters the convection unit 11, being in its transversely streamlined tube bundles 13, and through the second transverse rectilinear collector (not shown in the drawings) located at the rear front 4 of the boiler, it is redirected to that of the longitudinal lower collectors (9 or 10), which is designed to dispense hot water from the boiler.

Convective flues 12 provide for the lowering and lifting movement of gases to the gas outlet window (not shown in the drawings), which ensures that when passing gases in the movement from downward to upward (carried out through the cavity of the sedimentation chamber 30, fly ash is removed from the gas stream). This, in turn, reduces the volume of falling ash in convective gas ducts 12.

The blast air heating system provides intensification of combustion when burning in a layer of wet solid fuel. The blower fan 14 draws cold air from the atmosphere, which through the outlet duct 16 enters the working inlet 17 of the ejector 18 and from where it is transferred to the horizontal air and gas duct 20 (the supplied air for the ejector 18 is the working medium, and the flue gases taken by the intake chamber 25 are supplied through the gas pipeline 27 to the intermediate precipitation chamber 30, from where the second gas pipeline 34 enters the mixing hole 35 of the ejector 18 in the form of a mixed medium. from the ejector 18 increases depending on the coefficient of mixing of air and gases, and the oxygen content in the mixture is practically equal to the oxygen content in the atmospheric air, although the flue gases taken out at the outlet of the furnace 1 must have an oxygen content close to zero. the necessary oxygen content is used, which is used for blasting. From the horizontal air-gas pipeline 20 through its blasting tuyeres 21, the heated blast is fed under a layer of burning fuel (in the sublattice 22 during the firing lattice 2) providing wet intensification of fuel combustion. The regulation of temperature and mass of the gas medium is carried out by the gate valves 38.

Claims (2)

1. A water boiler containing a furnace, the space of which is limited by the furnace grate, front and rear fronts, ceiling and side furnace screens, the latter of which are made in the form of tube panels hydraulically connected to the corresponding upper and lower longitudinal collectors of the boiler, with the possibility of successive ascending and downward movement of water along them, as well as a convective unit, including two convective gas ducts, equipped with heat-exchange surfaces containing transversely streamlined pipe bundles hydraulically connected to the longitudinal collectors of the boiler, characterized in that it is equipped with a blast air heating system containing a blast fan mounted on a ceiling sheathing, the outlet duct of which is in communication with the working inlet of the ejector, the output of which is in communication with a horizontal air and gas duct, whose blow lances are open in the sublattice space of the furnace grate, while at the entrance to the convective gas duct there is a receiving opening of the intake chamber facing the gaps between the vertices steel pipe risers of the convection unit of the boiler, the outlet opening of which is connected by a gas line to the receiving opening of the descending channel of the intermediate precipitation chamber, the upper portion of which is separated from the ascending channel by a partition, the upper part of the ascending channel of the intermediate precipitation chamber being communicated by the second gas pipeline with the mixing hole of the ejector, the lower part of the intermediate The precipitation chamber is open in the precipitation chamber of the boiler. 2. The hot water boiler according to claim 1, characterized in that the horizontal air and gas duct, duct and gas are equipped with control flaps.

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