SU1601461A2 - Boiler - Google Patents

Abstract

The invention relates to energy and can be used in steam boilers. The goal is to reduce the flue gas temperature (H) while providing protection against corrosion. Heating flue gas is fed successively to sections 6, 5 and 4. Air (B) enters the air duct (VC) 8, passing sequentially sections 4, 5 and 6 and exiting through VC 11. A water evaporator installed in one of the connecting VC 2, where water is supplied, it heats and evaporates it, thereby taking heat from B and cooling it. Accordingly, the temperature difference in the air preheater increases and F cools more deeply. The generated steam through pipe 9 is fed to BX 8, where it mixes with B, preheating the latter and thus providing protection against corrosion. 1 il.

Description

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The invention relates to power generation, may be used in steam boilers and is an improvement of the invention: software auth. St. No. 1361434.

i The purpose of the invention is to reduce the temperature of flue gases while providing protection against corrosion.

; The drawing schematically depicts the pre-: lag boiler. |

i The boiler contains a multi-way recuperative air heater 1 with connecting ducts 2 and 3 between sections 4-6 and air cooler 7, installed in the connecting duct 2. The boiler also contains supply duct 8 before section 4-6. The air cooler 7 (made in the form of a water evaporator, the outlet i branch pipe 9 of which is connected to the air duct 8 before sections 4-6. Sections 4-6 are installed in the flue 10, and the air duct 11 behind the last section 6 is connected to the air - 1 to 8 bypass pipe 12. i The boiler is running the following The heating flue gases are fed successively to the heat exchange sections 6, 5 and 4 through the duct 10 in which they are installed. Through the supply duct 8, the air that cools the flue gases enters the air 1. The air I passes successively through the heat exchange sections 1 4-6, and then heated exits through the outlet duct I. For the implementation of preheating the air through the pipeline 12, a portion of the hot air is supplied; spirit nz duct 11 to mix with cold air B duct 8. Install-: Lenny in one of the connecting air

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Water, namely in the air duct 2, the water distributor, where water is supplied through the water supply pipeline, heats it and evaporates, thereby taking heat from the air and cooling it. Accordingly, the temperature head of the air preheating increases. The flue gases are deeply cooled in it, which is necessary for efficiently collecting the ash in the electrostatic precipitator. The generated steam through the outlet 9 is fed into the duct 8, where it, by mixing with air, participates in its preheating, providing corrosion protection and making it possible to somewhat reduce the consumption of recirculating air and, accordingly, reduce the energy consumption for its pumping.

The operation of the air preheater additionally intensifies the general increase (due to steam) of the flow rate of the heated medium through it, which provides additional cooling of the flue gases. The presence of steam in the air, which subsequently enters the boiler, conditions the flue gases, helping to reduce the formation of nitrogen oxides and improve the ash trapping in electrostatic precipitators.

Claims (1)

Invention Formula Boiler for auth. St. No. 1361434, characterized in that, in order to reduce the temperature of flue gases while providing protection against corrosion, the air cooler is made in the form of a water vaporizer, the outlet of which is connected to the air duct before the air preheater sections.