RU2057165C1 - Additive to brown coals for torch burning in furnaces of power-generating boilers - Google Patents

Abstract

FIELD: solid fuel technology. SUBSTANCE: use of clinoptylolite of composition (Na₂,K₂)•O•Al₂O₃•10SiO₂•8H₂O is offered as additive to brown coals for torch burning in furnaces of power-generating boilers. EFFECT: enhanced efficiency. 1 tbl

Description

 The invention relates to a method for purifying gases from harmful substances generated by the combustion of solid fuel by introducing additives to the fuel.

Known additive to the fuel of limestone, which is introduced into the fuel or pre-flame zone [1] Also known is an additive to fuel-minerals serpentine, which includes silicon and magnesium-containing substances [2]
The disadvantages of the known additives are the selectivity of the interaction of additives with harmful components of the gases and the lack of cleaning efficiency.

In addition, it is known to use natural zeolites, one of which is clinoptilolite, as an additive in briquetting solid fuels to absorb SO ₂ or SO ₃ released during coal combustion [3]
The disadvantage of this additive is also the selectivity of the interaction of the additive only with SO ₂ or SO ₃ , as well as its use only in briquetting, and therefore with layer burning of fuel.

The essence of the invention lies in the fact that clinoptilolite composition (Na ₂ , K ₂ ) · O · Al ₂ O ₃ · 10 SiO ₂ · 8 H ₂ O is used as an additive to brown coal during flaring in the furnaces of power boilers. Due to this additive in the conditions of flaring, absorption of nitrogen oxides (NO _x ) simultaneously occurs with SO ₂ and SO ₃ .

 Clinoptilolite belongs to the group of natural zeolites, which are aqueous aluminosilicates mainly of calcium and sodium, less often barium, strontium and potassium. Clinoptilolite has a skeleton structure in which there are cavities occupied by large ions and molecules, the mobility of which provides the possibility of ion exchange and reverse dehydration.

 The clinoptilolite fire resistance is 1250-1500 K.

 The richest reserves of clinoptilolite are available in Transbaikalia.

The average chemical composition of the studied zeolite, wt. SiO ₂ 66.64 TiO ₂ 0.17 Al ₂ O ₃ 14.87 Fe ₂ O ₃ 2.16 FeO 0.34 MnO 0.29 MgO 1.38 CaO 3.1 Na ₂ O 1.61 K ₂ O 0 , 32 P ₂ O ₅ 0.38 H ₂ O 4.52 M ₂ O 2.78
The additive is an aluminosilicate containing crystallization water. When heated to 1250 K, which occurs when the additive, together with the fuel, enters the flare zone of the boiler installation, this water is split off and a developed system of pores of the so-called inner surface is formed. This leads to the appearance of high adsorption properties of the additive.

 In addition, clinoptilolite contains compounds of Ti, Mg, Mn, which at high temperatures manifest themselves as catalysts, causing the catalytic properties of the additive.

 Solid fuels for which the clinoptilolite additive of coals is proposed, in particular brown.

The composition and, consequently, the properties of the coals depend on the deposit and significantly differ from each other. Therefore, steam coal should be considered as an object for the use of clinoptilolite additives, having the following average main characteristics:
Q $\genfrac{}{}{0ex}{}{\text{R}}{\text{n}}$ ≈12 mJ / kg (2000 kcal / kg);
W ^p ≅ 40% A ^p ≈8.6% S $\genfrac{}{}{0ex}{}{\text{R}}{\text{^}}$ 0.3%
Clinoptilolite can be used in relation to coal in mass proportions of 1: 12-1: 20, depending on the quality of the fuel and operating factors.

 PRI me R. Use the coal of the Kharanorsk deposit, which is mixed with the additive in a mass ratio of 1:20 with respect to coal. The resulting mixture after grinding in mills is burned in a boiler unit. These results are shown in the table.

 The use of clinoptilolite as an additive to solid fuels, in particular brown coal, when they are flared in the furnaces of energy boilers has great advantages compared to other additives, since clinoptilolite is quite cheap and can be obtained in large quantities. The use of clinoptilolite as an additive will reduce the cost of gas cleaning and solve the problem of placing additional gas cleaning equipment at existing power plants.

 The use of clinoptilolite as an additive to solid fuels, in particular brown coals, during their flaring, allows to reduce emissions of nitrogen and sulfur oxides.

Claims (1)

The use of clinoptilolite composition (Na ₂ , K ₂ ) • O • Al ₂ O ₃ • 10SiO ₂ • 8H ₂ O as an additive to brown coals for flaring in the furnaces of power boilers.

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