RU172706U1 - ABLATION INSTALLATION - Google Patents

Abstract

The ablation unit is designed to produce high-calorie combustible gas to power internal combustion engines. An ablation installation containing a gas generator 1 with a fuel hopper 2 is provided with a gasification chamber 3, on which an additional fuel hopper 4. 1 is installed.

Description

The utility model relates to the field of energy, in particular to gas generating units for the production of combustible gas from bulk fuel and can be used to power internal combustion engines of industrial production.

Known installations of the same purpose (RU patents for inventions No. 2280820, 2443760), however, the closest in technical essence to the claimed is a gas generator (RU patent for utility model No. 137552, IPC C10J 3/20, 02/20/2014), containing series-connected loading chamber, gas generator and cleaning and cooling systems.

The disadvantage of this installation is that the generator gas produced by it does not have a high level of calorific value and combustibility.

The task to which the claimed utility model is directed is to create an installation capable of producing high-calorie and combustible generator gas, with parameters set by manufacturers of industrial engines.

The technical result is achieved by the fact that the ablation installation, which includes a gas generator with a fuel hopper, is equipped with a gasification chamber, which is a cylindrical body, divided diagonally by an inclined sheet of heat-resistant steel into two parts, the right side of the chamber lined with a radius of fire brick with holes at the bottom for the gas generator torch and at the top for the outlet pipe for hot air, while at the top of the left part there is a hole for the outlet pipe for generator gas, and above the chamber itself of azo formation, an additional fuel hopper with a controlled valve is installed.

The utility model is illustrated in the drawing.

The figure shows a General view of the installation.

The proposed utility model is designed to produce high-calorific combustible gas by decomposing bulk fuel in an enclosed space without air access to power industrial combustion engines that generate electrical and thermal energy in the absence of energy supply in agricultural enterprises. At the same time, the plant utilizes agricultural crop waste.

The ablation installation includes a gas generator 1 with a fuel hopper 2 connected to a gas generation chamber 3, above which an additional fuel hopper 4 with a controllable gate valve 5 is mounted on top.

The gas generator 1 is designed to create a high-temperature torch that transfers thermal energy to the gasification chamber 3.

The gas chamber 3 is designed to convert thermal energy into generator gas. It is a cylindrical body 6, diagonally divided by an inclined sheet 7 of heat-resistant steel into two parts 8, 9, right and left.

The right side 8 of the chamber 3 is lined with a radius of refractory brick 10 to avoid overheating and deformation of the structure. It has a hole 11 for the torch of the gas generator 1 at the bottom, and at the top has a hole 12 for the hot air outlet pipe 13.

The left part 9 at the top has an opening 14 for the nozzle 15 of the outlet of the generator gas, and at the bottom there is an opening 16 with a valve 17 for pouring ash into the receiving hopper.

The fuel hopper 2 is designed to accumulate fuel and transport it with a screw mechanism 18 to the gas generator 1. Fuel is sawdust, buckwheat husk, husk, etc.

An additional fuel hopper 4 with a controlled valve 5 is installed above the gas generation chamber 3 and is designed to accumulate fuel and pour it into the chamber 3 on an inclined sheet 7, which is the plane of fuel decomposition. To constantly maintain the temperature on the decomposition plane, low-grade wet vegetable waste is used as fuel.

The controlled valve 5 is designed to prevent the ingress of fire from the gasification chamber 3 into the fuel hopper 4. It opens to pour off fuel at set intervals.

The installation is also equipped with automatic fuel loading devices and a special tank for unloading the combustion products (ash) from the gasification chamber 3.

Installation works as follows.

The fuel, automatically loaded into the fuel hopper 2 by the screw mechanism 18, is supplied to the gas generator 1. In the gas generator 1, the fuel is ignited and a high-temperature flame is formed using the blower, which through the hole 11 heats the inclined sheet 7 in the gas-generating chamber 3. From the additional fuel hopper 4, bypassing the controlled valve 5, the fuel is poured onto the inclined sheet 7 heated by a torch to a high temperature (more than 1200 ° C). The fuel that gets on it undergoes thermal destruction (burns down) turning into ash, which slides down the chamber 3 along the inclined sheet 7.

When fuel is burned, an intense gasification process occurs. The resulting high-calorie combustible gas (from 4 thousand kcal in m ³ ) leaves through the pipe 13.

The resulting generator gas is cleaned of impurities and ash and cooled to 40-60 ° C.

The proposed utility model has a low manufacturing cost due to the simplicity of the design.

Claims (1)

An ablation installation including a gas generator with a fuel hopper, characterized in that it is equipped with a gas generation chamber, which is a cylindrical body, divided diagonally by an inclined sheet of heat-resistant steel into two parts, the right side of the chamber lined with a fire brick with holes at the bottom for the gas generator torch and at the top for the outlet pipe for hot air, while at the top left side there is a hole for the outlet pipe for generator gas, and above the gas chamber itself tanovlen additional fuel hopper with a controllable valve.

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