RU2217661C1 - System for solid fuel supplying into furnace - Google Patents

Abstract

FIELD: phytogenic waste combustion into furnaces. SUBSTANCE: system comprises conveyers, receiving hopper, electrically driven metering device, boiler, boiler furnace and furnace inlet for fine solid fuel feeding connected with metering device outlet. System has adjoining hopper connected with receiving hopper wall, presser for forming of fuel briquettes connected in its inlet with adjoining hopper outlet, hopper for fuel briquettes joined with furnace inlet to supply fuel briquettes and pressure sensor. Receiving hopper has orifice made in upper part thereof. Pressure sensor outlet is connected with frequency converter control input. Frequency converter control output is linked with metering device electric drive. EFFECT: simplified construction, improved reliability and decreased power consumption. 2 cl, 1 dwg

Description

 The invention relates to a power system and can be used when burning waste of plant origin in furnaces.

 A known system for supplying solid fuel to a furnace containing loading devices, a screw conveyor, loading device bins, a furnace, a collecting hopper, conveyor belts that are fed to the conveyor and returning fuel that did not enter the loading devices to the collecting hopper (US Pat. No. 4,686,913, cl. F 23 K 3/00).

The known system for supplying fuel to the furnace has a complex structure, low reliability and significant energy consumption. This is due to the fact that the system has several belt conveyors of a relatively large length. In addition, with a 3-4-day supply of fuel (sunflower husks), to ensure the necessary heat production, for example, a boiler plant in an oil-producing plant, the capacity of a prefabricated hopper is 450-600 m ³ , which is due to the small bulk mass of the husk. Fuel is supplied to the furnace without taking into account the necessary heat output.

 The closest in technical essence is the system for supplying solid fuel to the furnace, containing a consumable warehouse with a capacity of 3-4 daily fuel requirements, a batcher, conveyors, a dust fan, a pneumatic installation, a hydraulic station, a hydraulic belt pusher, a scraper conveyor, a receiving hopper, a screw conveyor , pipe, firebox with solid fuel feed inlet (Bystrov AF., Polubelov A.M. Thermal diagram of a wood waste boiler house with a fuel supply and gas removal system. Woodworking schaya industry in 2002, 1, pp. 9-11).

 The disadvantage of this system is the complexity of the design, its bulkiness, low reliability and significant energy consumption. The small volumetric mass of plant waste leads to a large volume of the collection hopper and a long conveyor length. A large number of transporting mechanisms that are different in design and method of transportation and their large length complicates the design of the system, leads to high energy costs and reduces the reliability of the system.

 The fuel supply system is installed in a separate heated building adjacent to the boiler room, or outdoors. In the first case, this leads to additional capital and energy costs, and in the second, to the deterioration of the operating conditions of the fuel supply system in the cold season. In addition, fuel is fed into the furnace without taking into account the necessary heat output.

 The problem solved by the claimed invention is to simplify the design, increase reliability and reduce energy consumption during operation.

 The present task is achieved in that the system for supplying solid fuel to the furnace containing conveyors, a receiving hopper, an electric metering unit, a boiler, a furnace of a boiler, an input of a furnace for supplying small fuel, coupled to the metering outlet, the system is equipped with an adjacent hopper connected to one of the walls a receiving hopper, in the upper part of which a window is made, with a press for the manufacture of fuel briquettes connected to the input to the output of an adjacent hopper, a fuel briquette hopper connected to the inlet of the furnace for supplying fuel briquettes, yes a pressure sensor, the output of which is connected to the control input of the frequency converter, and the output of the frequency converter is connected to the metering drive.

 The drawing shows a system for supplying solid fuel to the furnace.

 The system for supplying solid fuel to the furnace contains a conveyor 1 for receiving solid fuel (husks of sunflower), a receiving hopper 2, a window 3 made in the upper part of the wall of the receiving hopper 2, a dispenser 4 with an electric drive (not shown), a frequency converter 5, the output of which is connected to the input of the metering actuator 4, the pressure sensor 6, the output of which is connected to the control input of the frequency converter 5, boiler 7, furnace 8 of the boiler, input 9 of the furnace 8 for supplying small fuel, input 10 of the furnace 8 for supplying fuel briquettes, conveyor 11, hopper 12 tidal briquette press 13 for the manufacture of fuel briquettes from sunflower husks adjacent hopper 14 connected to the receiving hopper 2.

 The system for supplying solid fuel to the furnace operates as follows.

 Through the conveyor 1, solid fuel from the source of its formation, for example, sunflower husk from the preparatory workshop of the oil factory, enters the receiving hopper 2. The dispenser 4 feeds the husk for combustion into the furnace 8 through the inlet 9. When the receiving hopper 2 is filled, the husk through the window 3 enters adjacent hopper 14 and enters the press 13, which makes briquettes from it. From the output of the press 13 fuel briquettes randomly enter the hopper 12, the capacity of which provides 3-4 daily supply. The conveyor 11 delivers fuel briquettes to the furnace 8 through its inlet 10.

 When the pressure of the coolant in the boiler 7 changes, the magnitude of the electrical signal at the output of the pressure sensor 6, which is fed to the control input of the frequency converter 5, changes proportionally. Depending on the change in the magnitude of the electric signal, the frequency converter 5 inversely changes the frequency of the supply current and, accordingly, the number of revolutions per minute n electric drive of the dispenser 4, which can be determined from the relation n = 60 f / p, where f is the frequency of the alternating current, p is the number of pairs of poles of the electric motor .

 With increasing or decreasing frequency f, the number of revolutions of the electric drive of the dispenser 4 also changes. Thus, the fuel supply to the furnace 8 is regulated depending on the pressure of the coolant in the boiler 7.

 The system is reliable in operation due to the simplicity and manufacturability of the design and has low energy consumption during operation.

Claims (2)

1. The system for supplying solid fuel to the furnace, containing conveyors, a receiving hopper, an electric batcher, a boiler, a furnace of a boiler, an inlet of a furnace for supplying small fuel, coupled with the outlet of the dispenser, the system is equipped with an adjacent hopper connected to one of the walls of the receiving hopper, in the upper part of which is made a window, a press for the manufacture of fuel briquettes, connected by an input to the output of an adjacent hopper, a hopper of fuel briquettes connected to the inlet of the furnace for supplying fuel briquettes, a pressure sensor, the output of which is connected inen with the control input of the frequency converter. 2. The system for supplying solid fuel to the furnace according to claim 1, characterized in that the output of the frequency converter is connected to the metering drive.