RU187978U1 - Carbonated Gasifier - Google Patents

Abstract

The utility model relates to the field of chemical engineering and can be used to produce gas from solid fuels. The gasifier for carbon-containing raw materials contains a vertical lined body, along the entire height of which there are uniformly tangential nozzles installed in several tiers, each of which contains two diametrically opposite tangential embrasures for supplying the fuel-oxygen mixture with the same twist direction. According to a useful model, the axes of the embrasures are directed between the joints of the blades of the blade vortexes with a hollow insert installed inside the casing and made of perforated half rings, the hollow inserts being made up and down with increasing diameters and brought into one another with the formation of ring gaps. This allows you to reduce the time of gasification of raw materials, since the fuel is supported by the blades and the hollow insert in suspension, which reduces the height of the gasifier and its cost. 2 ill.

Description

The utility model relates to the field of chemical engineering and can be used to produce gas from solid fuels.

A known method of producing generator gas and a device for its implementation (RF patent No. 2293108, IPC C10J 3/68, C10J 3/74, C10J 3/82 published: 02/10/2007), containing a vertical metal casing, nozzles for tangential air supply and a generator gas exhaust system made in the form of a pipe located inside the housing coaxially with it.

A disadvantage of the known device is the one-stage main process, carried out at the bottom of the housing.

A gasifier for carbon-containing raw materials is known (utility model of the Russian Federation No. 67581, IPC C10J 3/20, published: 10.27.2007), containing a vertical lined body, two diametrically opposite tangential embrasures for feeding fuel-oxidative are uniformly spaced along their entire height mixtures with the same twist direction.

A disadvantage of the known gasifier is a significant twist time for the gasification of raw materials, which increases the height of the apparatus.

The objective of the utility model is to reduce the time of gasification of raw materials.

The problem is solved in that in the gasifier of carbon-containing raw materials containing a vertical lined body, along the entire height of which there are uniformly tangential nozzles installed in several tiers, each of which contains two diametrically opposite tangential embrasures for supplying the fuel-oxygen mixture with the same twist direction characterized in that the axes of the embrasures are directed between the joints of the blades of the blade vortexes with a hollow insert installed inside the housing and made of perforated oriented semirings, and the hollow inserts are made from bottom to top with increasing diameters and introduced one into another with the formation of annular gaps.

The direction of the axes of the embrasures between the joints of the blades of the bladed swirlers with a hollow insert installed inside the casing and made of perforated half rings, the hollow inserts being made up and down with increasing diameters and introduced one into the other with the formation of annular gaps, can reduce the time of gasification of raw materials, since the fuel during twisting is supported by the blades and the hollow insert in suspension until complete gasification.

In FIG. 1 shows a vertical section of a gas generator; in FIG. 2 is a section AA in FIG. one.

The carbon-containing raw material gasifier contains a vertical lined housing 1, along the entire height of which the tangential nozzles 2 are arranged uniformly in several tiers, while each of the tiers contains two diametrically opposite tangential embrasures 3 for supplying the fuel-oxygen mixture with the same twist direction. According to a utility model, the axes of the embrasures 3 are directed between the joints of the blades of the blade vortexes with hollow inserts 4 installed inside the housing 1 and made of perforated half rings 5 and 6, the hollow inserts 4 being made up and down with increasing diameters and brought into one another with the formation of ring the gaps 7. The lower part of the gasifier housing 1 is made in the form of a cone 8 and forms an ash pan 9 with a gate 10. The upper part of the gasifier has an outlet pipe 11, which is connected to a cyclone 12 connected to a smoke exhauster 13 Without a heat exchanger 14, which is used to heat the oxygen supplied to the gasifier.

Gasifier carbon-containing raw materials works as follows.

In the embrasures 3, a fuel-oxygen mixture is supplied from the nozzles 2, which, falling on the perforated half rings 5 and 6 of the blade swirler, rotates on them in suspension until complete gasification. The half rings 5 and 6 and the hollow inserts 4 do not allow the fuel to fall down, since the half rings 5 and 6 are directed upstream from the embrasures 3 and throw the fuel up. Gases emitted as a result of fuel twisting on half rings 5 and 6 are sucked into annular gaps 7 due to rarefaction at the outlet pipe 11 connected to the exhaust fan 13 through a heat exchanger 14, which is used to heat the oxygen supplied to the gasifier. The ash formed on the perforated half rings 5 and 6, falls through the perforation holes down, and enters the ash pan 9, where it is removed with the gate 10 with a shutter (not marked) as it accumulates.

The proposed technical solution allows to reduce the height of the gasifier and its cost.

Claims (1)

A gasifier for carbon-containing raw materials containing a vertical lined body, along the entire height of which there are uniformly tangential nozzles installed in several tiers, each of which contains two diametrically opposite tangential embrasures for supplying the fuel-oxygen mixture with the same twist direction, characterized in that the axis the embrasures are directed between the joints of the blades of the blade swirls with a hollow insert installed inside the housing and made of perforated half rings, The hollow inserts are made from bottom to top with increasing diameters and inserted one into the other with the formation of annular gaps.

Images