RU136800U1 - SOLID FUEL GASIFIER - Google Patents

Abstract

A solid fuel gasifier, comprising a vertical retort, in the lower part of which one or more holes are made with adjacent flues for removing pyrolysis gases from the retort, while the gasifier contains three non-mixing heat exchanger media, in the first of which pyrolysis gases leaving the retort are heating medium, and the cooling medium is water, in the second cooled medium are the pyrolysis gases leaving the first heat exchanger, and the heated medium are the recycle gases, in the third heat exchanger The heating medium is pyrolysis gases leaving the second heat exchanger, and the heated medium is water, the gasifier also contains a ash container with a gas tight lock gate, characterized in that the gasifier includes a device for introducing steam from the third heat exchanger into the retort and located in ash containers in the immediate vicinity of the gas tight lock gate below the holes for the output of pyrolysis gases from the retort.

Description

The proposed utility model relates to the use of solid fuels, in particular low-grade coals, peat, industrial and municipal solid waste, in the energy sector to produce gaseous motor and furnace fuels, as well as in organic synthesis.

A device is known for thermal processing of materials of plant origin, including a sealed chamber located inside a heat-insulating layer with a gap between them, in which a coolant moves to heat the pyrolyzable material through the chamber wall. The device also includes an opening with a gas duct adjacent to it for supplying natural gas heated in a heat exchanger above 150 ° C to the retort and a section for separating natural gas from pyrogases released during pyrolysis (RU, patent 2105034, IPC 6 С10В 53/02).

The disadvantage of this device is the presence of a separation of natural gas from pyrogas.

Closest to the proposed utility model is a device for the conversion of granular organic substances into gaseous fuel, including a vertical retort with the possibility of pyrogas exiting at the bottom of the retort, equipped with a bottom with holes, one or more holes with adjacent gas ducts are made in the bottom of the retort above the bottom for output from pyrolysis gas retorts, the device contains three non-mixing heat exchanger media, in the first of which pyrolysis gases leaving the retort are the heating medium the basics, and the cooling medium is water, in the second cooled medium are the pyrolysis gases leaving the first heat exchanger, and the heated medium are the recycle gases, in the third heat exchanger the heating medium is the gases leaving the second heat exchanger, and also the ash tank through the openings in the bottom with a gas tight lock gate, inside of which there is a heat exchanger for ash cooling and air heating (RU 115353, IPC С10В 53/00; F23G 5/00, prototype).

The disadvantages of the prototype are:

1. The need to manufacture the bottom of the retort from heat-resistant materials.

2. Low heat transfer rate in the ash cooling heat exchanger. As a result, to ensure the operability of a lock device with a unloader through which the ash residue of gasification is unloaded, additional measures must be taken, for example, water cooling using heat-resistant materials, which complicates and increases the cost of the system.

The proposed utility model solves the technical problem of eliminating the bottom with holes from the retort design, as well as intensifying the cooling of the ash residue, which ensures the functioning of the discharge system without the use of expensive materials and special cooling.

The stated technical problem is solved in that the solid fuel gasifier, including a vertical retort, in the lower part of which one or more holes are made with adjacent gas ducts for withdrawing pyrolysis gases from the retort, contains three non-mixing heat exchanger media, in the first of which the heating medium is leaving retorts are pyrolysis gases, and the cooling medium is water, in the second cooled medium are pyrolysis gases leaving the first heat exchanger, and the heated gases are rec icle, in the third heat exchanger the heating medium is pyrolysis gases leaving the second heat exchanger, and the heated medium is water, the gasifier also contains a ash container with a gas tight lock gate, characterized in that the gasifier includes a device for introducing into the retort the steam obtained in the third heat exchanger and located in the ash container in the immediate vicinity of the gas tight lock gate below the holes for the output of pyrolysis gases from the retort.

The essence of the proposed utility model is illustrated by the circuit shown in figure 1. As an example of solid fuel, not limiting the essence of the utility model, wood chips with an initial moisture content of 40% were adopted. Consumption and temperature indicators of gas-material flows are indicated in the diagram from the calculation of material and heat balances. For other starting materials that differ from wood chips in the content of elements in the combustible mass, these indicators will be slightly different.

The device comprises a feed hopper 1, a dryer 2 with a gas tight lock gate 3, a carbonizer 4, a vertical retort 5 with openings 6 and 7 for introducing superheated steam and output of pyrolysis gases, respectively, an ash capacity 8 with a steam input device 9 and a gas tight lock gate 10, a heat exchanger 11 gas recycle heating, heat exchanger 12, heat exchanger 13. For the purpose of providing electricity to internal and external consumers, a gas piston machine GPM can be installed (not numbered in Fig. 1). The gas generator is equipped with shut-off and control valves, dust removal and draft equipment.

The gas generator operates as follows. From dryer 2, dried granular material, for example, wood chips with a moisture content of 8-12%, is fed through a gas tight lock gate 3 to carbonizer 4. In the carbonizer, solid material is heated to 400-450 ° C due to the heat of the recycle gases heated in the heat exchanger 11. Solid carbonizate enters retort 5 along with the gas-vapor phase. The retort 5 is heated by the combustion products of a part of the pyrolysis gas produced in the furnace (not numbered in FIG. 1). As the retort moves from top to bottom, the material successively passes through the stage of exothermic reactions of the formation and condensation of polynuclear aromatic compounds with the formation of the structure of semicoke and coke in the range 500–750 ° C, then the final stage of the endothermic reactions of dissociation of high molecular condensing hydrocarbons and reactions of coke carbon with carbon dioxide and water vapor at a temperature of 950 ÷ 1000 ° C. The pairs of condensing resinous compounds formed during pyrolysis, being filtered through a high-temperature layer, decompose with the formation of a mixture of non-condensable gases, which consists mainly of hydrogen and carbon monoxide. In this zone, coke carbon is “burned out” mainly by the endothermic reactions C + H ₂ O → CO + H ₂ and C + CO ₂ → 2CO. To ensure the greatest completeness of the carbon gasification reaction, the superheated steam generated in the heat exchanger 12 is introduced through the hole 6 through the hole 6. The heating medium in the heat exchangers 11, 12 and 13 are the pyrolysis gases resulting from gasification, which are removed from the retort through the hole 7.

The maximum temperature of the material and the gases exiting the retort is limited by the softening temperature of the ash. The higher the temperature of thermochemical processing of solid fuel, the higher the degree of conversion of energy accumulated in the original fuel into the heat of combustion of the resulting gases. In the case of wood waste, this temperature is at least 950 ° C. The gases cooled in the heat exchanger 13 are injected by a gas blower 14 in the gas supply line to the heat exchanger 11, into the furnace of the retort heating system, and to consumers, including, for example, a gas piston machine. These lines are equipped with control valves and draft equipment. To ensure the operability of the gas-tight shutter with a unloader 10, inside the container 8, into which the ash residue is poured with a high initial temperature of 950 ... 1000 ° C, a steam input device 9 with a temperature of 110 ... 120 ° C and overpressure is installed. The fine ash residue of gasification of solid fuel has an extremely high specific surface, therefore it is intensively cooled by steam, providing a temperature of the ash residue at the inlet to the unloader close to the temperature of the incoming steam. This ensures the operability of the lock gate with an unloader made using ferrous metal. The use of a steam input device increases the degree of energy conversion of the initial biomass, because the degree of “burnout” of the carbon ash residue increases during the reaction of carbon with steam. To ensure the operation of the gas blower 14, a dust collector 15 is installed.

Some calculated parameters of the pilot plant for the conversion of wood chips with an initial humidity of 40% are given below.

BASIC SETTING INSTALLATION PARAMETERS

The consumption of the original wood chips with a moisture content of 40% 30 kg / h Gas consumption in the heating system furnace 17.55 nm ³ / h Gas consumption for a gas piston machine 18.81 nm ³ / h

Efficiency of the conversion of the heat of combustion of wood chips to heat

gas combustion at the consumer 0.7

Output electric power at coefficient

conversion of thermal energy into electrical energy 0.3 16.8 kW

Claims (1)

A solid fuel gasifier, comprising a vertical retort, in the lower part of which one or more holes are made with adjacent flues for removing pyrolysis gases from the retort, while the gasifier contains three non-mixing heat exchanger media, in the first of which pyrolysis gases leaving the retort are heating medium, and the cooling medium is water, in the second cooled medium are the pyrolysis gases leaving the first heat exchanger, and the heated medium are the recycle gases, in the third heat exchanger The heating medium is pyrolysis gases leaving the second heat exchanger, and the heated medium is water, the gasifier also contains a ash container with a gas tight lock gate, characterized in that the gasifier includes a device for introducing steam from the third heat exchanger into the retort and located in ash containers in the immediate vicinity of the gas tight lock gate below the holes for the output of pyrolysis gases from the retort.

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