RU165918U1 - LINE FOR PROCESSING CARBON-CONTAINING MINERAL RAW MATERIALS - Google Patents

Abstract

The utility model relates to the chemical industry, in particular, to the processing of carbon-containing mineral raw materials. The line for processing carbon-containing mineral raw materials includes a reactor for burning carbon-containing raw materials, equipped with a loading unit and an ash residue bin, a boiler furnace with a burner, a recirculation smoke exhauster and an oxygen source, the reactor being equipped with an exhaust gas pipeline, and the burner and reactor are connected by additional gas pipelines to an oxygen source. According to a utility model, the inlet of the reactor is connected by a gas duct to the outlet of the boiler furnace, and the outlet gas pipe of the reactor is connected to a recirculation smoke exhauster connected to the burner of the furnace of the boiler. This allows you to get high-calorie gas (CO) due to cheap raw materials (coal) and reduce emissions of greenhouse gases and dust into the atmosphere. 1 ill.

Description

The utility model relates to the chemical industry, in particular, to the processing of carbon-containing mineral raw materials.

A known line for processing carbon-carbonate mineral raw materials (patent No. 74912 for a utility model, IPC С04В 2/02, published July 20, 2008), including a reactor for firing carbon-containing raw materials, equipped with a loading unit, a hopper, a dispenser, and an oxygen source.

A disadvantage of the known line for processing carbon-carbonate mineral raw materials is its complexity.

A known line for processing carbon-carbonate mineral raw materials (patent No. 110734 for utility model, IPC СВВ 31/00, published November 27, 2011), including a reactor for firing carbon-carbon raw materials, equipped with a loading unit and an ash residue hopper, a boiler furnace with a burner, a smoke exhauster, and an oxygen source, the reactor being connected by a gas line to the burner, and the burner and the reactor are connected by gas lines to an oxygen source.

A disadvantage of the known line for processing carbon-carbonate mineral raw materials is its complexity.

The objective of the utility model is to obtain high-calorie gas (CO) through the use of cheap raw materials (coal) and reduce greenhouse gas and dust emissions into the atmosphere

The problem is solved in that in the line for processing carbon-containing mineral raw materials, including a reactor for firing carbon-containing raw materials, equipped with a loading unit and an ash residue hopper, a boiler burner with a burner, a recirculation smoke exhauster and an oxygen source, and the reactor is equipped with a discharge gas line, and the boiler burner has a burner and the reactor is connected by additional gas pipelines to an oxygen source, according to a utility model, the inlet of the reactor is connected by a gas duct to the outlet of the boiler furnace, and the outlet gas pipe of the reactor connected to a recirculation smoke exhauster connected to the boiler burner

The connection of the reactor inlet with the flue to the outlet of the boiler furnace and the connection of the exhaust gas pipe of the reactor to the recirculation smoke exhauster connected to the burner of the furnace of the boiler allows to obtain high-calorie gas (CO) due to cheap raw materials (coal) and reduce greenhouse gas emissions and dust into the atmosphere.

The drawing shows the proposed line for the processing of carbon-containing mineral raw materials.

The line for processing carbon-containing mineral raw materials includes a reactor 1 for burning carbon-containing raw materials, equipped with a loading unit 2 and a hopper 3 of the ash residue, a furnace 4 with a burner 5 of the boiler 6, a smoke exhaust fan 7 and a source of oxygen 8. The reactor 1 is equipped with a discharge gas line 9, and the burner 5 and the reactor 1 are connected by additional gas lines 10 and 11 with an oxygen source 8. According to a utility model, the inlet of the reactor 1 is connected by a gas duct 12 to the outlet of the boiler 6, and the exhaust gas pipe 9 of the reactor 1 is connected to a recirculation smoke exhauster 7 connected to the burner 5.

This allows you to get high-calorie gas (CO) due to cheap raw materials (coal) and reduce emissions of greenhouse gases and dust into the atmosphere.

The line for processing carbon-containing mineral raw materials is as follows.

Coal-containing mineral raw materials (calcined coal) are fed into the reactor 1 from the loading unit 2. Using ignition nozzles (not indicated) in the reactor 1, coal is ignited and subsequently burned in oxygen. The inlet of the reactor 1 is connected by a gas duct 12 to the outlet of the boiler 6, from which carbon dioxide (CO ₂ ) formed during the combustion of coal in the furnace 4 of the boiler 6 is supplied to the reactor 1, which, passing through the upstream layers of coal heated to 700 degrees, turns into high-calorie combustible gas (CO) (B.V. Nekrasov. A short course in general chemistry. Moscow, 1937, p. 194), which is sucked from the reactor 1 through the exhaust gas pipe 9 to the recirculation smoke exhauster 7 and enters the burner 5 of the furnace 4 of the boiler, oxygen is supplied to burner 5 from source 8 by additional telnomu gas line 10 and fed to the reactor 1 oxygen from an oxygen source 8 to further pipeline 11. The bottom ash is removed from the reactor 1 into the bottom ash hopper 3.

The proposed technical solution allows to obtain high-calorie gas (CO) due to cheap raw materials (coal) and to reduce emissions of greenhouse gases and dust into the atmosphere.

Claims (1)

A line for processing carbon-containing mineral raw materials, including a reactor for burning carbon-containing raw materials, equipped with a loading unit and an ash residue hopper, a boiler furnace with a burner, a recirculation smoke exhauster and an oxygen source, the reactor being equipped with an exhaust gas pipeline, and the boiler furnace burner and the reactor are connected by additional gas pipelines to the source oxygen, characterized in that the reactor inlet is connected by a gas duct to the outlet of the boiler furnace, and the outlet gas pipe of the reactor is connected to a recirculation smoke exhauster, connected to the boiler burner.

Images