RU2443759C1 - Rabika gas generator - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: gas generator includes vertical gasification chamber, grate, air supply device, generated gas discharge device, vent pipe and extraction device of heat obtained from combustion of generator gas. The new feature consists in the fact that generated gas discharge device is installed above gasification chamber and made in the form of the bottom of gas combustion chamber. At the bottom there fixed are flame burners made in the form of connection pipes connecting the gasification chamber to gas combustion chamber. Heat removal device is made in the form of water heat exchangers installed in gas combustion chamber. Gas combustion chamber bottom is made of two parallel plates connected by means of a shell so that tight cavity to which air is supplied is formed between them. Air supply holes to gas combustion chamber are made on upper plate. Air supply holes are made on concentric circles; sleeves guiding the air flow to combustion zone are fixed on holes. Heat extraction device includes water jacket made on outer surface of gas generator housing and connected to heat exchangers installed in gas combustion chamber. Water heat exchangers are made in the form of tight reservoirs with water supply and discharge connection pipes consisting of metal plates connected by means of a shell. Holes connected by means of connection pipes are made in plates of heat exchangers.

EFFECT: reduction of costs for manufacture of gas generator and increase in its efficiency when using the device in heating systems of domestic and production premises.

8 cl, 1 dwg

Description

The invention relates to gas generating units for producing generator gas from cheap types of solid fuel, followed by gas burning in a heating system of residential and industrial premises.

Known gas generator installation containing a gas generator, in which a gasification chamber with a grate is formed (RF patent for utility model No. 89674). The installation includes a device for supplying fuel and unloading its focal residues, an oxidizer supply system including a fan and a heat exchanger, as well as a generator gas delivery system.

The installation is not effective enough when used in heating systems, as when the generator gas is removed, heat is lost.

Known household gas generator (US Pat. RF invention No. 2036222) containing a gas generator with a vertical gasification shaft, loading hatch and grate. The installation comprises means for supplying air, a device for removing the generated gas from the mine, a gas burner and an exhaust pipe.

The known installation contains a system for removing the generated gas and a self-contained gas burner, which complicates its design. The efficiency of the installation is reduced due to heat loss in the communications.

The task of the invention is to simplify the design of a gas generator and increase the efficiency of heat recovery from fuel combustion.

The technical result from solving the problem is to reduce the cost of manufacturing a gas generator and increase its efficiency when using the device in heating systems of residential and industrial premises.

The technical result is achieved by a gas generator comprising a vertical gasification chamber, a grate, a means for supplying air, a device for removing the generated gas, an exhaust pipe and means for removing heat from the combustion of the generator gas.

The new lies in the fact that the device for removing the generated gas is installed above the gasification chamber, made in the form of the base of the gas combustion chamber. At the base there are fixed torch burners made in the form of nozzles connecting the gasification chamber to the gas combustion chamber. The heat removal means is made in the form of water heat exchangers installed in the gas combustion chamber. The base of the gas combustion chamber is made of two parallel plates connected by a shell to form a sealed cavity between them into which air is supplied. On the upper plate, holes are made for supplying air to the gas combustion chamber. Air supply openings are made on concentric circles, bushings are fixed to the holes, directing the air flow into the combustion zone. The heat removal means includes a water jacket made on the outer surface of the gas generator housing and connected to heat exchangers installed in the gas combustion chamber. Water heat exchangers are made in the form of sealed containers with water inlet and outlet pipes, consisting of metal plates connected by a shell. In the plates of the heat exchangers made holes connected by nozzles.

The drawing shows the inventive gas generator in the context.

The gas generator comprises a housing 1 with double walls, between which there is a water jacket 2. At the bottom of the gasification chamber 3 there is a grate 4. The base of the gas combustion chamber is fixed above the gasification chamber 5. The base 5 is made in the form of a flat container, which is located between two horizontal plates . Torch burners are fixed in the plates 6. Through holes are made in the upper plate on concentric circles, in which guide bushings 7 for air flow are fixed. Above the combustion chamber of gas 8, water heat exchangers 9 are installed. The heat exchangers are made in the form of flat containers, in the plates of which pipes 10 are mounted for passing hot air. Inlet pipe 11 and water outlet 12 are fixed in the outer wall of the gasifier case. An exhaust pipe 13 is fixed in the upper cover of the gas generator. There is a blower 14 with an air supply channel (not shown) in the lower part of the grate, in which the damper is installed air supplied to the blower. The drawing shows one heat exchanger 9, however, for the best use of heat, it is advisable to install two or more heat exchangers.

The device operates as follows.

First, the fuel placed on the grate is ignited 4. The maximum amount of air enters the blower 14, for which the damper in the air supply channel is open to its full width. After firing up and reaching the operating mode of gas generation, when a sufficiently high temperature is reached to ensure dry sublimation of the fuel, the damper in the air supply channel is closed to a minimum clearance. In the gasification chamber 3, pyrolysis of solid fuel occurs. The generated generator gas enters the flare burners 6. In the combustion chamber 8, gas is burned in the flare burners 6. To maintain stable and efficient combustion, air is supplied to the chamber 8 through the guide bushings 7. Air enters the cavity of the base 5 of the gas combustion chamber from the outside through special nozzles (not shown in the drawing) connecting the cavity with the external environment. The air supply is regulated by dampers installed at the inlet to the nozzles. The heat from the gasification chamber 3 and the gas combustion chamber 8 heats the water contained in the system combining the water jacket 2 and the heat exchangers 9. Hot water is supplied through the branch pipe 12 to the heating system of the living quarters.

In the inventive gas generator, the heat obtained during the thermochemical processing of the initial solid fuel and the further combustion of the generator gas is used to the maximum. The efficiency of the gas generator is due to its design, in which the gasification chamber and the combustion chamber of the generator gas are arranged in series. The developed working surfaces of the heat exchangers are located directly in the combustion zone of solid fuel and generator gas.

Prototypes of the gas generator of the proposed design were manufactured and tested in heating systems. Operation has shown high reliability and efficiency of the device. The achievement of the claimed technical result was confirmed - a relatively simple design and high efficiency.

Claims (8)

1. A gas generator containing a vertical gasification chamber, a grate, means for supplying air, a device for removing the generated gas, a chimney and means for removing heat from the combustion of fuel, characterized in that the device for removing the generated gas is installed above the gasification chamber, made in the form of the base of the gas combustion chamber, in which flare burners are mounted, made in the form of nozzles connecting the gasification chamber to the gas combustion chamber, while and heat is made in the form of water heat exchangers installed in the gas combustion chamber. 2. The gas generator according to claim 1, characterized in that the base of the gas combustion chamber is made of two parallel plates connected by a shell to form an airtight cavity between them into which air is supplied. 3. The gas generator according to claim 2, characterized in that the holes for supplying air to the gas combustion chamber are made on the upper plate. 4. The gas generator according to claim 3, characterized in that the holes for air supply are made on concentric circles. 5. The gas generator according to claim 3, characterized in that bushings are fixed to the air supply openings, directing the air flow into the combustion zone. 6. The gas generator according to claim 1, characterized in that the means for heat removal includes a water jacket made on the outer surface of the gas generator housing and connected to heat exchangers installed in the gas combustion chamber. 7. The gas generator according to claim 1, characterized in that the water heat exchangers are made in the form of sealed containers with water inlet and outlet pipes, consisting of metal plates connected by a shell. 8. The gas generator according to claim 7, characterized in that the holes in the plates of the heat exchangers are connected by nozzles.