RU91415U1 - ENERGOCOMPLEX FOR HEAT SUPPLY OF THE MINING COMPANY - Google Patents

Abstract

1. An energy complex for the heat supply of a mining enterprise, including a furnace compartment with fuel combustion chambers equipped with furnace devices, fuel supply systems, blower fans and ash and slag conveyors, recuperative group heat exchangers with a set of tubular elements connected by gas ducts to the fuel combustion chambers and by means of smoke exhausters - with the atmosphere, hot air fans connected through air ducts to the atmosphere, the cavity of the regenerative group heat exchange and further, with an air distributor, gates and instrumentation, characterized in that the combustion chambers at the inlet of the fuel supply systems are equipped with solid fuel crushers, and additional ash removal systems are installed at the entrances to the regenerative group heat exchangers and its tubular elements. ! 2. The energy complex according to claim 1, characterized in that the ash and slag removal systems of fuel combustion chambers, regenerative group heat exchangers and their tubular elements are combined into a single ash and slag removal system and interconnected by conveying devices. ! 3. The energy complex according to claim 1, characterized in that the fuel combustion chambers are equipped with filler air supply fans, which are connected through their flue gas temperature control chambers to their combustion volumes.

Description

The utility model relates to devices for heating various objects of mining enterprises located in underground conditions (mine workings) or on the surface by means of an anhydrous air coolant.

A known installation for heating the air supplied to the mine, containing a combustion chamber, an air heater, a fan, a smoke exhauster and pipelines (RF patent for the invention No. 2189533, class F24D 15/00, claimed September 14, 2000, published on June 20, 2002, B. No. 26).

A feature of the known installation is that the air is heated by flue gases discharged by the exhaust fan through the tubular elements of the heat exchanger, and heated air enters the air distribution device located in the air supply shaft in front of the shaft fan, while the exhaust fan is located at the gas outlet.

The main disadvantage of the known device, eliminated in subsequent technical solutions, is the inability to discharge heated air during kindling or with its excessive amount, the presence in its composition of undesirable impurities, etc.

A utility model is known according to the patent of the Russian Federation No. 30948 (F24H 3/06, filed March 17, 2003, published July 10, 2003, B. No. 19), where there is an additional duct connecting the main duct to the atmosphere behind the regenerative heat exchanger, while both ducts are equipped with two gates installed in parallel in the primary and secondary ducts.

The known installation for heating the air supplied to the mine contains combustion chambers with furnaces, a recuperative heat exchanger, the tubular elements of which are connected to the solid fuel combustion chambers and then through the exhaust fan to the atmosphere, and its cavity is connected to the distribution device through the heated air fan and gates the atmosphere.

The disadvantages of the known device for heating the air supplied to the mine should include:

- the difficulty of regulating the rate of combustion of solid fuel due to the large dispersion of pieces of coal by size;

- ash and slag are intensively deposited on the walls of the tubes of the recuperative heat exchanger and gas pipelines, which leads to their rapid wear and burnout, reduced installation performance and difficulties in controlling the temperature of flue gases and heated air.

The technical result of using the utility model is to increase the reliability of the energy complex for heat supply of the mining enterprise due to the constant removal of ash and slag from the zones of their formation and loss, simplifying the process of controlling the temperature of flue gases and heated air.

An energy complex for the heat supply of mining enterprises is proposed, including a furnace compartment with combustion chambers equipped with fuel supply systems, furnace devices, blower fans and an ash and slag removal conveyor, recuperative group heat exchangers with a set of tubular elements connected by gas ducts to the fuel combustion chambers and through exhaust fans to the atmosphere, fans hot air connected through ducts to the atmosphere, the cavity of the regenerative group heat exchanger, and yes next - with an air distributor and atmosphere, gates and a control and monitoring system with instrumentation.

The difference is that the combustion chambers at the inlet of the fuel supply systems are equipped with solid fuel crushers, and at the entrances to the regenerative group heat exchanger and in its tubular elements additional ash removal systems are installed.

The difference is also that the ash and ash removal systems of the fuel combustion chambers, the regenerative group heat exchanger and its tubular elements are combined into a single ash and ash removal system and are interconnected by conveying devices.

Another difference is that the fuel combustion chambers are equipped with filler air supply fans, which are connected through their flue gas temperature control chambers to their combustion volumes.

The systems for supplying solid fuel to combustion devices have crushers, which reduces the dispersion of fuel by the size of its pieces, facilitates the regulation of the temperature of heating of flue gases and reduces fuel consumption. The equipment of a regenerative group heat exchanger with ash removal systems increases the reliability of the energy complex, as reduces fuel consumption, reduces the likelihood of wear and burnout of the walls of the tubular elements and facilitates the regulation of air heating temperature. Installation of filler air supply devices in the combustion chambers of the fuel provides the possibility of fairly accurate control of the temperature of the flue gases emanating from them.

Thus, the distinguishing features included in the formula of the utility model, allow to achieve the positive effect planned for its use.

The essence of the utility model is illustrated by the drawing, where in FIG. A schematic diagram of the proposed energy complex for heat supply of a mining enterprise is shown.

The energy complex contains a supply system, for example, solid fuel, including a hopper 1 for incoming fuel, a conveyor 2 for supplying fuel to the crusher 3 and an iron separator 4, a scraper or belt conveyor 5 with vents 6 for supplying fuel to the combustion chambers 7, equipped with bunkers 8. In the chambers mechanical combustion chambers 9 are installed with fans 10 for supplying blast and ash and slag removal systems. An energy complex may contain two or more power units, each of which contains a combustion chamber 7 with a mechanical firebox 9, for example, type TL-1.4 / 5.0, a blast fan 10 of type VDN-8X, a flue gas temperature control chamber 11 equipped with an axial fan 12 of type B-06-300 and a gate 13 in front of it, a regenerative group heat exchanger 14 of type TVP-460 having a set of tubular elements 15, a hot air fan 16 connected to the cavity 17 of the heat exchanger, fan units 18 of a secondary blast type 30TsS-85 . Each combustion chamber has a slag hopper 19 for discharging slag to the scraper conveyor 20, for example, type 2СРВ-70М-05, and each recuperative group heat exchanger has rotary shutters 21 for ash removal, and its tubular elements have rotary shutters 22 for ash removal.

The tubular elements 15 of the recuperative group heat exchanger are connected by gas flues on the one hand through the flue gas temperature control chamber 11 to the combustion chamber volume, and on the other hand through the gate 23, the exhaust fan 24 and the pipe 25 to the atmosphere. The cavities 17 of the recuperative group heat exchangers are connected through the gates 26 to the main thermally insulated air ducts with the air distribution chamber 27 (mixing chamber), and through the gates 28 to additional air ducts with the atmosphere. A single ash removal system is formed by spiral conveyors 29 passing under the ash removal devices of the heat exchangers 14, the conveyor 20 and ash and slag storage bins. Control of parameters is carried out by a set of control and measuring devices (not shown) that are included in the automatic control and monitoring system.

The principle of the energy complex is described below.

Solid fuel (coal) from the hopper 1, the crusher 3, the separator 4 is fed to the conveyor 5 and the ejector 6 is sent to any receiving hopper 8 of the existing combustion chamber 7, where it burns on the firebox 9 in a thickness-adjustable layer at a given speed and feed blast in the furnace. By supplying with the help of an axial fan 12 additive air into the chamber 11 for regulating the temperature of the flue gases coming from the chamber 7 of fuel combustion in the heat exchanger 14 is set in the range of 500-530 ° C. Ash and slag are removed from the furnace through the hopper 19 to the conveyor 20 and further to the dump. Residual ash from the inlet to the recuperative group heat exchanger 14 and its tubular elements is removed through the rotary locks 21 and 22 to the spiral conveyor 29 and even to the conveyor 20. The flue gases cooled in the tubular elements of the regenerative group heat exchanger to a temperature of 100-105 ° C are fed to the exhaust of the exhaust fan 24 and further into the chimney 25 and into the atmosphere. The gas stream inside the tubes of the heat exchanger is under vacuum, and the air stream in its cavity (annular space) is under the pressure created by the fan 16, which eliminates the ingress of combustion products into the heated air. Heated to 300 ° C air through the duct through the gate 26 is supplied to the air distribution device 27 in addition to the main flow of ventilation air or through the gate 28 (kindling) is discharged into the atmosphere through the additional duct.

A feature of the operation of the unified ash and slag removal system is that when the rotary shutters of the ash collectors are turned on, ash (slag) is unloaded in small portions from the hoppers into the conveyor 20 loading units and an ash (slag) layer is maintained to exclude unorganized air suction (ash layer thickness of at least 300 mm).

The energy complex can operate on any type of fuel, including liquid and gaseous, including associated gas extracted from the mine - methane.

Claims (3)

1. An energy complex for the heat supply of a mining enterprise, including a furnace compartment with fuel combustion chambers equipped with furnace devices, fuel supply systems, blower fans and ash and slag conveyors, recuperative group heat exchangers with a set of tubular elements connected by gas ducts to the fuel combustion chambers and by means of smoke exhausters - with the atmosphere, hot air fans connected through air ducts to the atmosphere, the cavity of the regenerative group heat exchange and further, with an air distributor, gates and instrumentation, characterized in that the combustion chambers at the inlet of the fuel supply systems are equipped with solid fuel crushers, and additional ash removal systems are installed at the entrances to the regenerative group heat exchangers and its tubular elements. 2. The energy complex according to claim 1, characterized in that the ash and slag removal systems of fuel combustion chambers, regenerative group heat exchangers and their tubular elements are combined into a single ash and slag removal system and interconnected by conveying devices. 3. The energy complex according to claim 1, characterized in that the fuel combustion chambers are equipped with filler air supply fans, which are connected to their furnace volumes through flue gas temperature control chambers.