CS271033B1 - Equipment for combustion products desulphurization - Google Patents

Abstract

The solution concerns desulphurisation carried out by means of an additive calcification method. It also increases exploitation of limestone during the desulphurisation process. The substance of this device is the following: drying chamber (5) connected to a smoke flue (3) in front of the precipitator (7) and a discharge hopper (8) of the precipitator (7) connected to a sorter (9), which is connected to the drying chamber (5) with backward piping (10), where an inlet of water (11) is connected to the bottom part of the backward piping (10). The atomizer (4) is connected to the smoke flue (3) for humidifying combustion gases and calcination products in the smoke flue.<IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to a flue gas desulfurization plant comprising an additive metering boiler connected by a flue gas duct to a dust collector with a hopper, the flue gas outlet being connected via a flue gas fan to a chimney.

So far, a dry limestone additive flue gas desulfurization method has been used, which is low, efficient and has a large consumption of limestone. It is uneconomical for long-term use. To increase the efficiency of this method, humidification of flue gases and water calcination products in special activation reactors has been introduced. The process is such that part of the solid product of the reaction of limestone in the flue gas activated by the dry water vapor in the hearth and reacting with the sulfur dioxide is trapped together with the fly ash, for example in cyclone dust separators. water vapor. The mixture obtained, containing Ca (OH) ₂ and water vapor, is introduced into the waste gases at temperatures close to chimney temperatures. A major drawback of this method is that only part of the calcination product in the boiler is always used for the desulfurization reaction together with part of the fly ash, while the greater part of the calcination product is not immediately used. Since all the solid limestone cleavage product cannot be reacted with water vapor and SO ₂ , many of the additives remain under-utilized. It is also known to desulfurize the flue gas by the wet-dry method by spraying an aqueous slurry of slaked lime into the flue gas, which is dried in an absorption dryer, whereupon the dry product of Ca (OH) ₂ and SO ₂ together with dust is separated from the flue gas in a separator. The method has two main drawbacks: slaked lime has to be used in suspension, while ground limestone is cheaper and more affordable, and moreover, the reaction product contains much unreacted Ca (OH) ₂ , which remains unused. All this significantly reduces the economic advantage of the technology.

The above-mentioned disadvantages are eliminated by the flue gas desulphurisation device according to the invention, characterized in that a drying chamber is connected to the flue gas duct in front of the separator, the separator hopper being connected to a separator connected by a return line to the drying chamber. .

In a preferred embodiment, a water or steam atomizer is connected to the flue gas duct between the boiler and the drying chamber.

The device according to the invention removes the drawbacks of the known devices, in particular by allowing the use of inexpensive ground limestone and not more expensive lime as the active ingredient. At the same time, it makes it possible to make better use of the additives by returning part of the desulfurization reaction product to the reaction in hydrated and thus in activated form with the flue gas for reuse. All this means significant economic savings. In addition, the entire plant is both investment and operationally demanding.

An example of a flue gas desulfurization plant according to the invention is shown schematically in the drawing.

The apparatus consists of a boiler 6, for example for the combustion of brown coal, equipped with a feeder 2 of finely ground limestone for the fireplace. The boiler 6 is connected to a flue gas duct 2, to which an atomizer 6 is connected immediately after the boiler. The flue gas duct 2 opens into the upper part of the drying chamber 2, the lower part of which is connected to a connecting line 6 leading to a separator 7, for example an electrostatic dust separator. A separator 9 is connected to the hopper 2 of the separator 1, connected by a return line 10 to which the water supply 11 is connected. The return line 10 opens at the top of the drying chamber 5. The separator 2 is connected to a flue gas fan 12 which is connected to the chimney 13.

The finely ground limestone is fed by the feeder 2 to the furnace fireplace χ. Combustion products of lignite and limestone calcination and partial desulphurisation are passed through a flue gas duct 2 where they are moistened with a spray of fine droplets of water or steam from the atomiser 4 and moistened into the drying chamber 2. The damp active products in the drying chamber 2 react with SO ₂ and are dried. The dry product is entrained by another interconnector

CS 271Q33 01 via piping 6 to separator 6, for example. into the electrostatic precipitator - the dust is separated from the flue gas. Separated dust is introduced from the hopper 8 to the sorter 9, where a proportion of solid product with the same mass flow rate as the CaO mass flow from the finely ground limestone fed to the furnace furnace 8 is discharged via the return line 10 to hydration through the water supplied 11 and finally in the form of an aqueous suspension to the top of the drying chamber 6. The remainder of the solid product is discharged from the separator 9 ^to waste (not shown).

The invention can be used in the desulfurization of flue gases, in particular fossil fuel flue gases, for example brown coal.

Claims (2)

A flue gas desulfurization plant comprising an additive metering boiler connected by a flue gas duct to a dust collector with a hopper, the flue gas outlet being connected via a flue gas fan to a chimney, characterized in that the flue gas duct (3) is connected to a drying chamber (5), the hopper (8) of the separator (7) being connected to a sorter (9) connected by a return line (10) to the drying chamber (5), and a supply ( 11) water. Flue gas desulfurization plant according to claim 1, characterized in that a water or steam atomizer (4) is connected to the flue gas duct (3) between the boiler (1) and the drying chamber (5).