RU2039322C1 - Boiler plant - Google Patents

Abstract

FIELD: heat power engineering. SUBSTANCE: plant has boiler apparatus 1 and gas duct 2 with V-shaped part. Sprinkler 18 for supplying carbamide is mounter at the inlet of the gas duct. Sprinkler 4 for sodium sulfite (bisulfite), sprinkler 5 for alkali solution, and sprinkler 12 for solution of sodium sulfite (bisulfite) are arranged downstream in the direction of flue gas flow. The supply system of sprinkler 12 is provided with heat exchanger 25 of the outer loop. Supplying of hot water to the heat exchanger is controlled by pickups 27 and 28 of moisture and temperature. EFFECT: enhanced quality of purifying flue gas. 2 cl, 1 dwg

Description

 The invention relates to a power system and can be used in boilers operating on gas oil fuel.

 The closest in technical essence and the achieved technical result to this invention is a boiler installation comprising a boiler with gas-oil burners, a gas duct with a V-shaped section in which a blower air heater is installed, an irrigation system with an irrigation power system.

 A disadvantage of the known solution is that it does not provide an effective purification of flue gases from oxides of nitrogen and sulfur.

 The technical result of this invention is to improve the quality of cleaning and the reliability of the installation.

 The specified technical result is achieved by the fact that in a known boiler installation comprising a boiler with gas-oil burners, a gas duct with a V-shaped section in which a blower heater is installed, an irrigation system with an irrigation power system, the irrigation system includes an alkaline solution sprinkler installed in the lower part V-shaped duct section, two sodium sulfite sprinklers, one of which is installed in the lifting part of the V-shaped duct section, urea sprinkler installed at the entrance to the duct, Supply system sprinkler sodium sulfite, mounted in lifting part of V-shaped portion of the gas flue is provided with an external heat exchanger loop. The external circuit heat exchanger may have a heating medium flow controller connected to a humidity sensor installed in the outlet of the duct.

 The drawing shows a diagram of a boiler installation.

 The boiler installation consists of a boiler 1 with a gas-oil burner, a gas duct 2 with a V-shaped section. In the flue 2, a urea sprinkler 3 installed at the inlet of the flue 2, a sodium sulfite (bisulfite) sprinkler 4, an alkaline solution sprinkler 5, are located sequentially in the direction of the flue gas, and the sprinkler 5 is located in the lower part 6 of the V-shaped duct 2, in which is also located the second stage 7 (in the direction of air movement) of the boiler blast air heater. The lowering 6 and lifting part 8 of the V-shaped duct section have autonomous trays 9 and 10. Above the first stage 11 of the blast air heater, a sodium sulfite (bisulfite) sprinkler 12 is installed.

 The irrigation feed system consists of an alkaline solution tank 13, pump 14, pipeline 15, urea tank 16, pump 17, pipeline 18. The pan 9 is connected by pipeline 19 to the irrigation feed system 4 and 12, consisting of a regeneration and cleaning unit 20, pump 21 and pipelines 22 and 23, through which the sodium sulfite solution is supplied to the sprinklers 12 and 4.

 For the removal of cleaning products is the pipeline 24.

 The power supply system of the sprinkler 12 includes an external circuit heat exchanger 25 with a flow control 26 of the heating medium. The controller 26 is connected to a flue gas humidity sensor 27 installed in the outlet of the gas duct 2 and a medium temperature sensor 28 in line 21.

 The operation of the boiler installation is as follows.

The combustion of the fuel (gas, oil, or gas-oil mixture) flue gases are passed into flue 2. In primary (input) of the gas flue zone, where the flue gas temperature is 400-800 ^{° C} occurs irrigation sprinkler 3 from their supply high concentrations of urea solution ( 40-70%). In this case, in the contact zone, nitrogen oxides are determined by the reaction
2 (NH ₂ ) CO + 6NO 6NO 5N ₂ + 4H ₂ O +
+ 2CO ₂ .

In the horizontal section of the gas duct in front of the V-shaped section, sodium sulfite is concentrated at a concentration of 40-70% from sprinkler 4 and further nitrogen fixation is carried out by reactions
2Na ₂ SO ₃ + 2NO - >> 2Na ₂ SO ₄ + N ₂ ;
2NaHSO ₃ + 2NO - >> N ₂ + 2NaHSO ₄ . and partial binding of sulfur oxide by reaction
Na ₂ SO ₃ + SO ₂ + H ₂ O - >> 2NaHSO ₃ .

The reaction products of the interaction with sulfur oxide enter the lower part 6 of the V-shaped section of the gas duct 2, where an alkaline solution (Na ₂ CO ₃ , NaOH) is supplied through the sprinkler 5 and sulfur oxide is bound by the reaction
Na ₂ CO ₃ + SO ₂ Na ₂ SO ₃ + CO ₂ ;
NaOH + SO ₂ NaHSO ₃ .

Condensation of water vapor from flue gases occurs on the surface of the second stage 7 of the blast air heater, and a concentrated solution of chemical reaction products with a predominance of sodium sulfite (bisulfite) accumulates in the pan 9. From the pan 9, the solution is sent to the purification and regeneration unit 20, where the trapped soot is separated, and the purified concentrated sodium sulfite (bisulfite) solution is pumped through the pipelines 22, 23 to the sprinklers 12 and 4. The pipeline 22 passes through the heat exchanger of the external circuit 25, where the solution is heated. The heated solution through the sprinkler 12 is fed into the lifting part of the V-shaped section of the gas duct, where the solution evaporates and actively interacts with the sulfur and nitrogen oxides remaining in the flue gases by reactions
Na ₂ SO ₃ + SO ₂ + H ₂ O ₂ NaHSO ₄ ;
2NaHSO ₃ + 2NO N ₂ + 2NaHSO ₄ ;
2Na ₂ SO ₃ + 2NO 2Na ₂ SO ₄ + N ₂ .

 The reaction products with a predominance of sodium sulfate accumulate in the pan 10, from where they are discharged through the pipe 24.

 Depending on the degree of humidity of the flue gases, the degree of heating of the solution supplied to the sprinkler 10 is controlled through the sensors 27 and 28 and the flow regulator 26, which ensures the minimum relative humidity of the flue gases at the outlet of the flue and prevents moisture condensation on the walls of the chimney (not shown).

 Due to irrigation with a urea solution in the high temperature zone, the most favorable reaction conditions for the interaction of the irrigation solution and the oxides contained in the flue gases are provided without the use of catalysts, and the heating of the sodium sulfite solution supplied to the low-temperature zone of the lifting part of the V-shaped duct section provides optimal conditions for interaction reagents with a minimum flow of irrigation fluid, which reduces the humidity of the exhaust flue gases.

Claims (2)

 1. BOILER PLANT, comprising a boiler with gas-oil burners, a flue with a V-shaped section in which a blower heater is installed, an irrigation system with an irrigation feed system, characterized in that the irrigation system includes an alkaline solution sprinkler, two sodium sulfite sprinklers, one of which is installed in the lifting part of the V-shaped section of the gas duct, a carbamide sprinkler installed at the entrance to the gas duct, and the power supply system of the sodium sulfite sprinkler installed in the lifting part of the V-shaped gas duct section ode, equipped with an external circuit heat exchanger.  2. Installation according to claim 1, characterized in that the external circuit heat exchanger is equipped with a heating medium flow controller connected to a humidity sensor installed in the outlet section of the gas duct.