RU2334778C2 - Biopower station operated from plant refuse - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention refers to construction of power stations operated from carbonaceous refuse, and can be used for construction of lower-power power stations using plant refuse as fuel (wood chips of dry and sick trees, milled root crops, canes, branches, grapevine, wood processing refuse). Biopower station contains pyrolysis plant and gas-operated power facility, equipped with moisture separator and gasholder. Pyrolysis plant comprises inclined gasproof thermal enclosure with in-built angularly 45-50° hermetically sealed ribbed pipe retorts connected to vertical hermetically sealed loading and unloading box-type feeders. Upper part of retorts is attached to gas pipelines connected through moisture separator and gasholder with power facility. Exhaust pass of power facility is connected with thermal enclosure in its bottom section. Biopower station is additionally equipped with starting combustor and recovery boiler.

EFFECT: development of nonwaste technology of thermal refuse utilisation.

1 dwg

Description

The invention relates to gas generating units for producing biogas as a result of thermal processing of plant waste.

The invention can be used to produce electric and thermal energy in waste processing complexes from waste of plant origin, as well as from household waste of cities.

Known pyrolysis plants for thermal processing without access of air of waste of plant origin, including municipal solid waste (see B. B. Bobovich, V. V. Devyatkin "Processing of production and consumption waste", M., publishing house "Intermet engineering", 2000, p. 223).

The pyrolysis installation is made in the form of a vertical reactor, into which the waste is periodically loaded. Hot gases pass through the waste layer and are piped into the combustion chamber.

The disadvantage of this device is the lack of external heating of the retort and the frequency of loading the retort with waste.

Also known is the "Installation for producing generator gas from recycled wood or plant materials, including a gasification chamber made of refractory bricks, a metal hopper extending from it with a rectangular cross section and a hatch for loading raw materials (see RF patent No. 2081894 from 06.20.97, applicant, Tomsk State University).

The disadvantage of this installation is the lack of high-quality heating of raw materials in a capacious chamber for the generation of generator gas, as well as the cyclical loading of raw materials into the gasification chamber.

In addition, the issue of the efficient use of generator gas directly at the facility in order to obtain electric and thermal energy has not been resolved.

The objective of the present invention is to provide an effective bioelectric power plant operating on waste of plant origin with the aim of generating electrical and thermal energy.

The solution to this problem is achieved as follows:

A plant-based bioelectric power station containing a pyrolysis installation and a gas-powered power station equipped with a water separator and a gas holder, characterized in that the pyrolysis installation is made in the form of an inclined gas-tight heat-insulating chamber, inside of which sealed finned tubes are installed at an angle of 45-50 ° - retorts connected to vertical sealed loading and unloading feeders of a box type, gas pipelines, connected to the upper part of the retorts data through a dehumidifier and a gas holder with a power plant, while the exhaust gas duct of the power plant is connected to the heat-insulating chamber in its lower section, and the bioelectric power station is additionally equipped with a starting firebox and a waste heat boiler.

An example of a bioelectric power plant operating on waste of plant origin is presented in the drawing.

The bioelectric power station includes a receiving hopper 1 for loading with waste of plant origin (chips of dry and diseased trees, shredded root crops, stems, branches of shrubs, vine, waste from wood processing enterprises). Sealed loading box-type feeders 2 are installed under the hopper.

To the feeders are attached tubular sealed retorts 3, which are located obliquely in a gas tight heat-insulating chamber 4.

In the lower part of the retort are equipped with sealed discharge feeders 5, with which the slag is unloaded into the trolley.

Gas pipelines are connected to the upper part of the retort, through which the pyrolysis gas enters the moisture separator 6, the gas holder 7, and then to the gas engine power station 8.

The gas-engine power station is equipped with an exhaust gas duct, which in turn is connected to the lower part of the gas-tight heat-insulating chamber, in which retorts are blown by exhaust gases.

For the initial start-up, the bioelectric power station is equipped with a starting firebox 9, which runs on wood, coal, fuel oil, gas fuel.

For the disposal of exhaust flue gases, the bioelectric power station is equipped with a waste heat boiler 10.

The work of bioelectric power is as follows.

In the receiving hopper 1 load the waste of plant origin. With the help of sealed loading feeders of box type 2, waste enters the tubular finned sealed retorts 3.

The starting firebox 9 is ignited, and hot flue gases enter the internal cavity of the gas-tight heat-insulating chamber 4, which flow around the retorts and heat their bodies.

The heat from the body of the metal retorts is transferred to the waste of plant origin located inside. As a result of heating carbon-containing wastes, pyrolysis gas is released, which is supplied through a gas pipeline to a moisture separator 6, to a gas tank 7, and to a gas engine power station 8.

As a result of the rotation of the gas engine and the electric generator connected to it, the industrial electric current is removed.

The exhaust gases from the gas engine power station enter the lower cavity of the gas-tight heat-insulating chamber through the outlet gas duct and heat the retorts, in which pyrolysis biogas is formed without air access, designed to supply gaseous fuel to the gas engine power station.

After heat treatment in sealed retorts of vegetable waste, the resulting ash is discharged into a trolley and exported as fertilizer for agricultural purposes.

Flue gases from the gas-tight heat insulating chamber enter the waste heat boiler 10 and then are emitted after cleaning in a wet filter into the atmosphere through a chimney.

Thus, a non-waste technology of thermal processing of plant waste is carried out in order to obtain electric and thermal energy.

Claims (1)

A bioelectric power station operating on vegetable waste containing a pyrolysis plant and a gas-powered power plant equipped with a dehumidifier and a gas holder, characterized in that the pyrolysis plant is made in the form of an obliquely arranged gas-tight heat-insulating chamber, inside which sealed finned tubes are installed at an angle of 45-50 ° - retorts connected to vertical sealed loading and unloading feeders of a box type, gas pipelines, connected to the upper part of the retorts data through a dehumidifier and a gas holder with a power plant, while the exhaust gas duct of the power plant is connected to the heat-insulating chamber in its lower section, and the bioelectric power station is additionally equipped with a starting firebox and a waste heat boiler.