DE4039821C1 - Redn. of sulphur di:oxide discharge from small lignite furnace - comprises using lignite briquette contg. lignite, anthracite, petroleum coke, limestone powder, binder - Google Patents

Abstract

SO2 content, in the waste gases of a small furnace, is reduced by binding sulphur contained in lignite and liberated as SO2, during combustion, into the solid combustion residues. Finely ground, S-binding cpds., pref. CaO or cpds. which release CaO at elevated temps., are intimately blended with comminuted lignite, and opt. dried, and the dry mixt. is processed to briquettes. The improvement is that fuels of elevated ignition temps. and heat values are added to lignite, and the briquettes produced from the dry mixt. have the following compsn.: (a) 50-80 wt.% lignite; (b) 7-20 wt.% anthracite, or a fuel of comparable heat value and ignition temp., (c) 7-20 wt.% petroleum coke; (d) 3-5 wt.% limestone powder; (e) 3-5 wt.% briquette binder; (f) remainder impurities. ADVANTAGE - SO2 discharge, during combustion of lignite in small furnaces, is greatly reduced.

Description

The invention relates to a method for reducing the Sulfur dioxide content in the exhaust gases of Small combustion plants by integrating the in Lignite contained and when burning as Sulfur dioxide released in the solid Combustion residues, with finely ground, sulfur-binding substances, preferably CaO or at higher temperatures with CaO-releasing compounds crushed lignite intimately mixed and optionally dried, and the dry mix is processed into briquettes.

The possibility of reducing sulfur dioxide Emissions in the exhaust gases from combustion plants Adding lime to the burned Sulfur-containing fuels have been known for a long time. For example, in the incineration plants of Large power plants of the coal to be burned before Abandon calcareous substances such as calcium carbonate or Calcium oxyhydrate mixed with the coal to dust grind and the dust mixture in the furnace blown in. As is well known, this is a high one Technical effort required, that with enormous costs connected is.  

A significant part of the sulfur dioxide pollution Is caused by the emissions of Small combustion plants, for example from Firing systems for houses, business premises, public buildings, but also stoves and stoves caused that are fired with coal or briquettes.

This can be done technically for such furnaces complex process of simultaneous blowing in Fuels and the sulfur dioxide binder in the Combustion chamber from economic and spatial Do not realize reasons in general.

DE-OS 33 19 086 therefore describes a method for Incorporation of the sulfur in the brown coal in the solid combustion residues for Small combustion plants described in the shredded Lignite and finely ground, sulfur binding Substances such as CaO or MgO are mixed and used as Briquetted fuel.

The disadvantage of this method is the low one Calorific value (approx. 19000 kJ / kg) as well as the low one Ignition temperature (approx. 300 ° C) of the brown coal, so that at normal heating mode in the kiln temperatures arise, which are not sufficient to the sulfur dioxide in a satisfactory share in the sulfur binding To incorporate substances. Leave only with strong under air the optimum temperatures for desulfurization 800 to 900 ° C to incorporate the sulfur dioxide reach into the ashes. Such a driving style under However, full load is uneconomical and in continuous operation not useful.  

Therefore, in DE-OS 33 26 826 a method for Incorporation of at least part of the sulfur into the Combustion residues indicated that in place of Lignite hard coal or mixtures of hard coal and Lignite mixed with sulfur-binding substances such as CaO or MgO, as fuel in small combustion plants starts. But even with this procedure the degree is Reduction of the sulfur dioxide content in the exhaust gases not satisfactory.

Lignite also has the advantage that it is inexpensive, especially in areas with large Occurrence.

The invention is therefore based on the object To specify methods of the type described at the beginning with which the sulfur dioxide emissions during combustion of lignite in small combustion plants far stronger can be reduced than was previously possible.

This object is achieved according to the invention in that fuels with higher ignition temperatures and calorific values are added to lignite and the briquettes produced from the dry mixture have the following composition:
50 to 80 weight percent lignite,
7 to 20 percent by weight anthracite or a fuel comparable in terms of calorific value and ignition temperature,
7 to 20 percent by weight of petroleum coke,
3 to 5 weight percent limestone flour,
3 to 5 percent by weight of briquette binder,
Rest usual impurities.

The advantages achieved with the invention exist in particular in that by the inventive Addition of fuels with higher calorific values and Ignition temperatures for lignite for optimal Desulfurization requires temperatures of 800 to 900 ° C achieved with normal heating habits in the firebox and it is possible, also economically, To get sulfur dioxide levels in the exhaust gases when burning solid fuels in Small combustion plants were previously unavailable.

According to the invention, to achieve one possible low sulfur dioxide content in the at Burning brown coal in small combustion plants resulting exhaust gases added fuels, the higher Have calorific values and ignition temperatures than those previously usual fuels such as lignite and hard coal or Mixtures of the two.

The ignition temperatures of lignite briquettes are included approx. 300 ° C, their calorific value is approx. 19,000 kJ / kg. Hard coal has an ignition temperature of approx. 350 ° C and a calorific value of approx. 30,000 kJ / kg.

The fuels added according to the invention, namely Anthracite and petroleum coke, on the other hand, have ignition temperatures from 450 or 750 ° C and have calorific values between approx. 31,500 kJ / kg and 38,000 kJ / kg. As a result, Combustion chamber reached combustion temperatures so high that a high degree of sulfur binding is guaranteed at all times is. Thus, with minimal financial outlay achieved good pollutant reduction.  

The coals used according to the invention are after known method on one for briquetting reasonable grain size crushed and with sulfur binding Substances such as lime or limestone powder are mixed, whereby care is taken that the reaction surfaces for the accumulation of lime or limestone powder are as large as possible. To the chemical reactions to favor, the lime or limestone becomes very fine ground and if possible by intensive mixing evenly over the surfaces of the carbon grains distributed. Without restricting the burning properties of the Coal mixtures can still be a common one for briquetting Briquette binders, for example water glass, added will.

Despite the intensive mixing of fuel and sulfur-binding substance is the proportion of sulfur-binding substance selected higher in the mixture, than the stoichiometric ratio. The guarantees a high degree of binding of the sulfur dioxide into the solid combustion residue, creating a Reduction in exhaust gases reached and an exit from the chimney is prevented.

When burning the according to the present procedure Briquettes produced run for sulfur binding following chemical reactions:

1. The calcium carbonate contained in the limestone flour is releasing carbon dioxide to burnt lime reduced:

CaCO₃ → CaO + CO₂

2. The burnt lime then combines with the sulfur dioxide generated during the combustion process to calcium sulfite:

CaO + SO₂ → CaSO₃

3. Calcium sulfite oxidizes with oxygen from the Combustion air to gypsum as an integral part in the ashes that can be disposed of as usual:

CaSO₃ + ½ O₂ → CaSO₄.

A preferred composition of the invention Briquettes contains:

50 to 80 weight percent lignite,
7 to 20 percent by weight anthracite,
7 to 20 percent by weight of petroleum coke,
3 to 5 weight percent limestone flour,
3 to 5 percent by weight of briquette binder,
Rest usual impurities.

It is also within the scope of the invention that anthracite by another in the calorific value and the ignition temperature comparable fuel can be replaced.

The proportions of non-combustible substances, such as Limestone powder and briquette binders are selected so that they fully perform their functions, and the burning properties of the briquettes are not noticeable influence.

By using the briquettes according to the invention, it is not required to have small combustion plants Additional devices for desulphurization of the exhaust air Mistake.

Claims (1)

Process for reducing the sulfur dioxide content in the exhaust gases from small combustion plants by incorporating the sulfur contained in lignite and released as sulfur dioxide in the combustion in the solid combustion residues are mixed and optionally dried and the dry mixture is processed into briquettes, characterized in that fuels with higher ignition temperatures and calorific values are added to lignite and the briquettes produced from the dry mixture have the following composition: 50 to 80 percent by weight of lignite,
7 to 20 percent by weight anthracite or a fuel comparable in terms of calorific value and ignition temperature,
7 to 20 percent by weight of petroleum coke,
3 to 5 weight percent limestone flour,
3 to 5 percent by weight of briquette binder, the rest usual impurities.