RU73334U1 - COGENERATION GAS-GENERATING INSTALLATION ON SOLID FUEL - Google Patents

Abstract

The utility model relates to combined installations operating on solid fuel and designed to generate heat and electricity.

The problem to be solved when using the claimed utility model is to create an installation that provides a low-temperature gas free of mechanical impurities and tar fractions, supplied to the engine of a cogeneration unit.

The solid fuel cogeneration gas generator set comprises a reverse process gas generator, which ensures the decomposition of resinous substances during gasification. The installation is equipped with a device for supplying solid fuel to a gas generator, this gas generator is connected to auxiliary equipment containing series-connected devices - a device for rough gas purification in the form of a cyclone or a group of cyclones, a gas cooler, a fine filter in the form of a cassette filter, a water vapor sump, contained in the gas. The sump is connected via a pipeline to an engine mounted on the same shaft as an electric generator.

In the inventive installation, a skip hoist is used as a device for supplying solid fuel.

In the inventive installation, the cooler is made in the form of a multi-pass heat exchanger.

In the inventive installation, auxiliary equipment is equipped with a receiver installed between the sump and the engine.

1 nep.p. f-ls, 3 z.p.p-ff, 1 ill.

Description

The utility model relates to combined installations operating on solid fuel and designed to generate heat and electricity.

A known system of in-cycle gasification for combined-cycle plants for solid fuels (RU 47886 U1). The installation comprises a gas generator of the furnace type with a device for loading solid fuel into the reaction chamber, lances for air blast under pressure, which provides an increase in the quality of the gas generator, a compressed air supply line to the gas generator, an auxiliary unit for coarse and fine cleaning of the generator gas from mechanical entrainment, and a supply line untreated gas to the installation for its purification, the line of removal of coarse and fine entrainment separated from the gas. The auxiliary unit for coarse and fine cleaning is made respectively in the form of a lined cyclone and bag filter.

The existing high-temperature system is effective for cleaning generator gas from mechanical impurities. However, providing the supply of purified gas to the consumer, the auxiliary installation includes a discharge line of coarse and fine entrainment separated from the gas, which indicates incomplete removal of impurities.

In addition, the design of the gas generator does not ensure the elimination of the resin fraction, its presence contributes to unwanted deposition in auxiliary equipment for rough and fine gas purification. It is possible that the resin fraction gets into the engine, which leads to its inefficient operation.

Also known is the design of the gas generator of the reversed process in accordance with the description of patent RU 36829, which is selected as a prototype. Gas resulting from the gas generation process enters the engine without tar. However, the mechanical impurities associated with the supply of gas to the engine complicate its operation and can damage the engine.

These devices do not provide low-temperature purified gas, which ensures efficient operation of the engine.

The problem to be solved when using the inventive utility model is to create an installation that provides a low-temperature purified

from mechanical impurities and tar fractions of the gas supplied to the engine of the cogeneration unit.

The problem is solved in that the cogeneration gas generator installation on solid fuel containing the gas generator of the reverse process, providing decomposition of resinous substances in the gasification process, according to a utility model, the installation is equipped with a device for supplying solid fuel to the gas generator, this gas generator is connected to auxiliary equipment containing serially connected devices - a device for rough gas purification in the form of a cyclone or a group of cyclones, a gas cooler, a device for I Hepa filter in the form of a cassette, the sump water vapor contained in the gas, connected via a conduit with a motor mounted on the same shaft with a generator.

In the inventive installation, a skip hoist is used as a device for supplying solid fuel.

In the inventive installation, the cooler is made in the form of a multi-pass heat exchanger.

In the inventive installation, auxiliary equipment is equipped with a receiver installed between the sump and the engine.

To supply purified low-temperature gas to the engine, a gas generator is used, connected to auxiliary equipment containing devices connected in series via a pipeline: a device for rough cleaning, a gas cooler, a device for fine cleaning, and a moisture settler.

The chosen design of the gas generator provides gas purification from the resin fraction, therefore, it is prevented from falling into auxiliary equipment designed for gas cooling and purification from mechanical impurities, thereby increasing the overall efficiency of the cogeneration unit.

The inventive installation is equipped with a device for supplying solid fuel to the gas generator of the reverse process, for this gas generator in its composition contains a loading device. A solid fuel supply device includes a skip lift installed next to a gas generator.

The technology for cleaning gas-generating gas from mechanical impurities, as a rule, provides for a two-stage cleaning of mechanical impurities, the so-called rough and fine cleaning. In the inventive installation, the obtained gas-generating gas is also subjected to two-stage purification.

As the first stage, a cyclone or a group of cyclones is used to clean the gas from ash and solids - ash and soot.

As a stage of fine cleaning, a filter is used, the design of which relates to cassette filters. This design allows you to clean the gas from particles of the finest dust thanks to the absorbent material filling the interchangeable cartridges. The use of a cassette filter brings an additional result that affects the effective uninterrupted operation of the engine, namely: the replacement of cassettes occurs without stopping the operation of the cogeneration unit.

For efficient engine operation without loss of power, it is necessary to supply a large mass volume of low-temperature gas; for this purpose, auxiliary equipment contains a gas cooler.

In the inventive installation, the technological sequence of obtaining purified low-temperature gas involves the supply of chilled gas to a cassette filter. For this, a cooler as part of auxiliary equipment is located between the cyclone (or group of cyclones) and the cassette filter. This feature provides the following technical result: firstly, when the gas temperature in the cooler decreases, its volume decreases, therefore, for gas purification in the second stage, there is no need to use large filters. Secondly, during gas cooling, water vapor condenses, and this circumstance leads to the fact that when the cooled gas enters the cassette filter, the absorbent material is able to absorb excess moisture.

In the inventive installation, it is advisable to use a multi-pass heat exchanger as a cooler. Thanks to this design, during the cooling process, there is a loss of gas velocity passing through the pipes of the heat exchanger, which contributes to the deposition of soot and other solid particles.

The auxiliary equipment contains a moisture sump, which is the final device in the technological sequence of gas purification before it is fed to the engine. It should be noted that all means intended for the production of low-temperature purified gas are connected via a pipeline. This indicates that when gas flows from the cassette filter into the moisture sump, the volume occupied by the gas changes from a smaller volume (internal cavity of the pipeline) to a larger one (cavity of the sump). Due to the change in volume, the gas loses speed, which also contributes to the precipitation of moisture particles and at the same time the deposition of residues of solid particles and soot.

Thus, the selected composition and connection sequence of the devices constituting the auxiliary equipment ensures the elimination of mechanical impurities in technological combination with the gas cooling process. Moreover, in this combination of devices, the gas cooler in addition to the main function helps to clean the gas from mechanical impurities and, in addition, determines the effective operation of the cassette filter and sump.

These and other features of the inventive installation are explained using the drawing (see. Fig.).

The cogeneration plant provides resin-free gas from wood for an internal combustion engine to generate electric and thermal energy.

The figure schematically shows a cogeneration unit containing a gas generator 1 of a reversed process that processes waste wood, peat, brown and hard coal and other types of solid fuels without the formation of resin fractions. The prior art designs of such gas generators are known, for example, from the patent descriptions RLJ 36829, RU 2303050.

To supply the required amount of solid fuel to the loading device of the gas generator 1, the installation is equipped with a skip hoist 2.

The gas generator 1 through a pipe 3 is connected to auxiliary equipment to obtain a low-temperature gas purified from mechanical impurities. This equipment includes: cyclone 4, gas cooler 5, cassette filter 6, moisture sump 7. All of these devices 4, 5, 6, 7 are connected in series by pipeline 3.

From the sump 7, the cleaned low-temperature gas is supplied to an engine 8 connected to an electric generator 9.

Cyclone 4 (or a group of cyclones) is the most common type of gas purification equipment used at the stage of rough cleaning of gas from mechanical impurities.

The gas cooler 5 is made in the form of a flat multi-pass heat exchanger with external fins, providing the intensity of heat exchange with the environment due to the high heat transfer coefficient.

As a cartridge filter 6, a filter similar to that described in patent RU 2303490 or in patent RU 2209655 can be used.

The moisture sump 7 is a tank whose shape provides a change in the direction of gas movement (in the inner cavity of the specified sump).

For example, a tank made with a rectangular base and with a stepped profile in the longitudinal direction, decreasing upward, can be used as a sump. So, when gas enters the lower part of this device, the direction of gas movement changes towards the narrow upper part of the sump.

The installation may additionally be equipped with a receiver (not shown in the drawing) installed between the sump 7 and the internal combustion engine 8.

Solid fuel — woodworking waste — is loaded into the reaction chamber of a gas generator 1 operating under pressure using a skip hoist 2; In the process of gasification of solid fuels, the resulting gas without tar fractions enters the auxiliary equipment. Successively passing the stages of cleaning and cooling in devices 4,5,6, the gas enters the moisture sump, in which it is finally cleaned of moisture and particulate matter. When monitoring the condition of the engine, it was found that all engine elements are free of tar and other deposits.

Thus, due to the arrangement of the gas generator with auxiliary equipment designed for cooling and purification from mechanical impurities of the gas generator, the installation as a whole allows you to increase the campaign of the engine.

Claims (4)

1. The cogeneration gas generator installation on solid fuel, containing a gas generator of the reverse process, providing decomposition of resinous substances in the gasification process, characterized in that the installation is equipped with a device for supplying solid fuel to the gas generator, this gas generator is connected to auxiliary equipment containing series-connected devices - a device for rough gas purification in the form of a cyclone or a group of cyclones, a gas cooler, a device for fine purification in the form of a cassette filter RA, a sump of water vapor contained in the gas, connected via a pipeline to an engine mounted on one shaft with an electric generator. 2. Installation according to claim 1, characterized in that a skip hoist is used as a device for supplying solid fuel. 3. Installation according to claim 1, characterized in that the cooler is made in the form of a multi-pass heat exchanger. 4. Installation according to claim 1, characterized in that the auxiliary equipment is equipped with a receiver mounted between the sump and the engine.