CS272381B1 - Flue gas desulfurization plant - Google Patents

Abstract

The purpose of the device is to increase the efficiency of desulfurization of flue gases containing sulfur oxides, the essence of the device being that a smoke humidifier (10) with a water or aqueous solution supply is connected to the flue (2) between the boiler (1) and the dust separator (3), while the discharge (6) of the dust separator (3) is connected by a recirculation pipe (7) to a sprayer (8), preferably located in the inlet part of the flue (2), preferably in the vicinity of the smoke humidifier (10).

Description

The invention relates to a flue gas desulphurisation plant consisting of an additive metering boiler connected by means of a flue to a dust separator with a hopper, the outlet of which is connected via a flue gas fan to a chimney.

Until now, the dry limestone additive flue gas desulfurization method has been used, which is inefficient and has a high consumption of limestone. It is uneconomical for long-term use. To increase the efficiency of this method, humidification of flue gases and calcination products with water has been introduced in special activation reactors. This process takes place in such a way that part of the solid product of the limestone reaction in the flue gas stream activated by dry water vapor in the hearth reacting with sulfur dioxide is trapped together with the fly ash, for example in cyclone dust collectors, then subjected to dry water vapor in activation reactors. The obtained mixture, containing Ca (OH) ₂ and water vapor, is introduced into the waste gases at temperatures close to the chimney temperatures. A major disadvantage of this method is the fact that only a part of the calcination product of limestone in the boiler is always used for the desulphurisation reaction together with a part of the fly ash, while a larger part of the calcination product is not used immediately. Due to the fact that not all solid calcination product of limestone can be reacted with steam and SOg, many additives always remain underused.

These disadvantages are eliminated by the device according to the invention, the essence of which consists in that a smoke humidifier with water or aqueous solution supply is connected to the flue between the boiler and the dust collector, the dust separator hopper being connected preferably in the vicinity of the smoke humidifier.

In a preferred embodiment, a recirculation humidifier with a water or aqueous solution supply is connected to the recirculation line.

The device according to the invention eliminates the drawbacks of the known devices, in particular by increasing the efficiency of the flue gas cleaning by recirculating the limestone back into the flue and also increasing the utilization of the limestone. The increase in the exposure time of water and steam to calcium products is not negligible either. This device mainly recirculates coarse and underused calcium products, which are selectively selected in the dust separator. There is also no need to grind the calcination products before their further use.

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

The device consists of a boiler 1, which is connected by a flue 2 to a dust separator 3. This dust separator 3 can be both a mechanical separator and a cyclone filter, a fabric filter or an electrostatic precipitator; The dust separator 6 is connected to a flue gas fan 4, which is connected to a chimney 5. The dust separator 3 is provided with a hopper 6, which is connected by a recirculation pipe 7 to a sprayer 8, preferably located in the inlet part of the flue. At its inlet from the hopper 6 of the dust separator 3, a recirculation humidifier 9 with a supply of water or an aqueous solution is introduced, or the recirculation humidifier 9 can be introduced into the recirculation pipe 7 at another location along its length. To increase the efficiency, a smoke humidifier 10 with a water or aqueous solution supply (not shown) is connected to the flue gas 2 between the boiler 1 and the dust separator 3. It is advantageous to place the smoke humidifier 10 close to the atomizer 8 in the direction of flue gas movement.

Ground limestone with an average grain size 1 to 5 times larger than the average grain size of fly ash is fed to the fuel or to the boiler 1. The flue gases leaving the boiler 1 are mixed and recirculated solid products collected by a dust separator 3. For better and more even mixing in the flue gases, the recirculated solid products are sprayed by an atomizer 8 in the flue inlet 2 into the flue gas, where it is mixed with mainstream Flue length 2 behind the smoke humidifier

CS 272381 B1 2 must be selected so that the hydration of the calcination products in the flue 2 takes place for 1.25 seconds. The crude products with most of the calcium products of calcination and desulphurisation are collected in a dust separator 3, for example in a mechanical separator. Fine calcination products react to a greater extent with sulfur dioxide and, as fine desulphurisation products, are trapped in a dust separator 3, for example in a fabric filter or an electrostatic precipitator. The coarse products are led from the dust separator 3, via the hopper 6, through the recirculation pipe 7 to the inlet part of the flue 2. In the inlet part of the recirculation pipe 7 or on its other part it is advantageous to moisten the coarse products from the recirculation humidifier 6 with water or aqueous solution. These coarse products are then fed to the atomizer 8 in the flue 2. The device according to the invention can increase the desulfurization efficiency to 55 to 80 percent and the degree of limestone utilization is at least twice that of the dry limestone additive method.

The invention can be used in the flue gas desulphurization of solid, liquid and gaseous fossil fuels.

Claims (2)

• FIELD OF THE INVENTION 1. · Flue gas desulphurisation plant, consisting of a boiler with additive dosing, connected by means of a flue to a dust separator with a hopper, the flue gas outlet being connected via a flue gas fan to a chimney, characterized in that between the boiler (1) and the dust separator (3) a smoke humidifier (10) connected to the flue (2) with a supply of water or an aqueous solution, the hopper (6) of the dust separator (3) being connected by a recirculation pipe (7) to a sprayer (8), preferably located in the inlet part of the flue (2). preferably in the vicinity of the smoke humidifier (10), 2. · Flue gas desulphurisation device according to claim 1, characterized in that a recirculation humidifier (9) with a water or aqueous solution supply is connected to the recirculation line (7).