UA112551U - METHOD OF DISTRIBUTION OF COAL DUST BETWEEN BUNKERS OF DUSTING SYSTEMS IN HEAT ELECTRICAL STATIONS - Google Patents

Abstract

Method of distributing coal dust between bunkers of power unit dust systems using aeration aerators with high concentration of coal dust transport, and the dust extraction from the bunker is carried out by a group of aeration boilers via additional ball valves with electric drive, which are transported by pipelines dust, the movement of which is provided by an ejector mounted at the level of the feeders, and the direction of the dust overflow is controlled by the switch yuchym two-way gate; the pressure drop between the point of introduction of the transporting agent and the place of dust discharge is supported by the control controller taking into account the change in pressure in the transport pipeline at the section "ejector - suction line of the mill fan - separator - cyclone of the dust extraction system that separates the dust from the air".

Description

The claimed useful model belongs to the technique of dust preparation and distribution of coal dust between working power units. It can also be used in other industries with automatic maintenance of the optimal dust level in waste hoppers under different loads, or emptying of the boiler hopper during operation and repair.

Famous author's certificates of the USSR:

Mo. 866341 "Coal sawdust supply system to burners" IPC R2ZK 3/02 (publ. 09/23/1981), which consists of volumetric displacement feeders, not aeration dust feeders, which provide supply of coal dust; the lack of feedback from the bunker can be considered a disadvantage;

Mo. 870862 "Concentrated coal sawdust supply system for incineration" IPC R2ZK 1/04 (published on October 7, 1981), which consists of a waste hopper, a feeder made in the form of a displacement pump, installed on a sawdust pipe placed on a box of hot air, which, in turn, are connected to the nozzles of the burners through the dust separator; the disadvantage is that it does not solve the problem of distributing excess reserves of coal dust to other boilers.

Both of these author's certificates do not provide for maintenance of the dust level in bunkers for a number of TPP power units.

The closest to the useful model that is claimed is the patent of the Russian Federation Mo. 2038538 "System of transport of sawdust materials" cl. IPC: B2ZK 03/02 dated 06/27/1995, which consists of the following connected in series: a hopper, a feeder for dust-like materials with an output vertical outlet, a mixing chamber, in the initial part of which an ejector connected to a compressed air collector is installed. The vertical outlet and the mixing chamber with the ejector, and the air nozzle of the ejector is made with the possibility of reciprocating axial movement. The disadvantage is that ejector-type dust flow generators are used for uniform transportation of coal dust, in addition, the prototype system does not provide for the installation of a special system for collecting dust from one hopper and transferring it to a hopper with insufficient dust supply. In the process of dust collection, the level of dust in the hopper is not controlled, which is unacceptable to ensure a reliable supply of coal dust to the boiler.

The task of the useful model is to ensure the operation of burner devices when the output performance of aeration dust feeders changes, in which coal dust is fluidized, which is fed to the burners of boilers with a high concentration through dust pipes, which affects the combustion process. When the dust level in the hopper decreases, air bubbles into the hopper and, accordingly, the fluidization process is disrupted.

The task is solved due to the proposed method of distribution of coal dust between bunkers of dust preparation systems of boiler units. In addition, the system ensures the emptying of bunkers when the units are transferred to the reserve or repaired, while preserving the coal dust that remains in them, by distributing it to other bunkers of the thermal power plant.

The essence of a useful model is that in a strictly controlled mode of dust transfer directly from the chambers of aeration dust feeders, where a fluidized flow of high concentration is created, dust is transported with negligible air flow, and the dust ducts at the same time have negligible hydraulic resistance.

The method of distribution of coal dust includes: dust hoppers 1, 2, with outlet cells 3, equipped with gate valves 4. Air dust feeders 5, which have two outlet valves, are connected to the gate valves. Valve 6 - for the discharge of dust to the burners 7 of the boiler 8 and the ball valve 9 for the discharge of dust to the ejector 10, which ensures the transportation of coal dust, to which the working agent is pumped by the air compressor 11. The dust from the ejector is transported to the switching two-way damper 12, and further, along line 13 - to the dust aeromix discharge pipeline 14 from the mill 15 of the power unit, to the bunker of which the dust overflows through the separator 16 and cyclone 17 to the bunker 2 of another power unit, which receives the overflowing dust. To control the dust level, microwave levelers 18 are installed on the bunkers.

Separated from the dust, the resettable drying agent of the mill is sent to the resetter burner 19 of the boiler 8, passing through the mill fan 20. For the return transport of dust, the ejector has a suction line 21 and a switching two-way damper 12.

Control of the mode is carried out by the controller 22 according to the pressure drop in the conveying pipeline in the section "ejector - suction pipeline of the mill fan to the cyclone of the dust preparation system" - by pressure sensors 23 and 24.

The method is performed as follows: according to the readings of the level gauges 18, a decision is made to redistribute the dust accumulated in the bunkers. To transfer the coal dust between the dust preparation systems, the following technological switches are performed: the switching two-way damper 12 is turned to the position that ensures the transport of dust to the hopper 2 from the hopper 1, the ejector 10 is turned on, the valve 9 is opened and the dust is discharged to the suction line of the mill fan 20, thus thus, it enters through the separator 16 to the cyclone 17. Control over the transportation of coal dust is carried out according to the indicators of the level gauges 18. The consumption of coal dust from the aeration dust feeder is adjusted by the outlet valve 9.

Claims (1)

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