RU2028541C1 - Method of burning fuel - Google Patents

Abstract

FIELD: power engineering. SUBSTANCE: fuel and water is fed to the combustion zone. Oxygen is used as a oxidizer. Mixture of carbon dioxide and water vapor, obtained in so manner, is cooled. The condensate is supplied to a furnace, and carbon dioxide is dried and compressed up to liquid. EFFECT: decreased harmful emissions. 2 cl, 1 dwg

Description

 The invention relates to energy and can be used in thermal power plants.

 The drawing shows a schematic diagram of a thermal power plant in which this method can be implemented.

 The thermal power plant comprises a line 1 for supplying fuel and a line 2 for supplying oxygen, a furnace 3, a heat exchanger 4, a compressor 5, a carbon dioxide storage 6 and a condensate return line 7.

 Fuel is supplied to the furnace 3 simultaneously through line 1, oxygen is supplied through line 2, and water is injected. In this case, water is injected in such a way as to ensure optimal temperature distribution along the height of the furnace 3 while maintaining the required temperature level in the combustion zone to ensure complete burnout of the organic part of the fuel.

 When burning fuels containing sulfur, sulfur-binding additives are injected at the same time.

Combustion products consisting essentially of a mixture of carbon dioxide and water vapor are supplied to the heat exchanger 4 where the condensate is returned via line 7 to the furnace 3, and carbon dioxide by a compressor 5 is blown into the storage 6, which is stored at temperatures up to ²⁰ ° C, and pressure in excess of 58.5 kgf / cm ² in the liquid state.

 4.63 million tons per year are burned at the boiler unit. At the same time, the annual consumption of the oxidizing agent is 18.5 million tons, the water consumption in the combustion chamber is 13.9 million tons. in year. The result is 12.7 million tons of marketable carbon dioxide.

Claims (2)

 1. METHOD FOR BURNING FUEL by supplying fuel and an oxidizing agent to the combustion chamber, obtaining combustion products and purifying the latter from harmful emissions, characterized in that, in order to reduce harmful emissions, oxygen is used as an oxidizing agent with the simultaneous supply of water to the combustion zone, the resulting the mixture of carbon dioxide and water vapor is cooled, the condensate is sent to the furnace, and carbon dioxide is dried and compressed to a liquefied state.  2. The method according to claim 1, characterized in that the water is fed into the combustion zone with dispersed streams and regulate the flow of water in each stream.

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