DE3502732C2 - Flue gas cleaning processes - Google Patents

Abstract

It is known that for the simultaneous separation of SO2 and NOx from flue gases, the redox potential must be controlled in the negative range. Additives such as sodium dithionite are used to adjust the liquid. It is also known to control the redox potential electrolytically and/or by means of an iron reactor. In order to ensure high availability of flue gas desulfurization systems, the invention proposes that metal granulate balls be added to the scrubbing liquid in the direct scrubber sump or in a bypass and that the scrubbing liquid be passed through a fluidized bed reactor technology in which the iron granulate takes on the task of controlling the redox potential. The housing of the fluidized bed reactor can consist of an insulated container so that the mixture of liquid and metal granulate can be controlled electrolytically as a fluidized bed.

Description

The invention relates to a method for flue gas purification, wherein the redox potential of the scrubbing liquid is controlled to remove SO ₂ and NO _x .

It is known that for the simultaneous separation of SO ₂ and NO _x from flue gases, the redox potential must be controlled in the negative range. It is known that additives such as sodium dithionite, ethyldiamine, tetraacetic acid and similar substances can be used to adjust the scrubbing liquid.

It is also known that the redox potential of the washing liquid can be controlled electrolytically and/or by means of an iron reactor. The disadvantage here is that the installation and removal of these reactor parts required due to the removal of the fixed iron reactors is very time-consuming, not to mention that the required availability cannot be maintained.

DE-OS 24 16 660 discloses a process for removing nitrogen oxides from a gas using an aqueous solution containing an iron (II) chelate complex obtained by combining the iron (II) ion with the chelate ligand to react the nitrogen oxide with the iron (II) chelate complex.

Based on this state of the art, the invention is based on the object of creating a method of the type mentioned at the outset, which not only ensures a high availability of the flue gas cleaning system, but also requires only a comparatively low expenditure for the substances required to control the redox potential of the washing liquid.

According to the invention, this is achieved by passing the washing liquid through a metal granulate fluidized bed reactor, the housing of the fluidized bed reactor being made of plastic or rubber-insulated. In this way, a water fluidized bed is created in which the metal granulate takes on the task of controlling the redox potential of the washing liquid. The metal granulate used is very inexpensive, so that this feedstock can be easily and quickly replaced. By insulating the housing of the fluidized bed reactor, it is possible to create an electrolytic effect in the metal granulate bed.

The residual iron can be easily washed out of the gypsum during the gypsum discharge process using centrifuges or vacuum filters or filter presses, so that the gypsum does not suffer any loss of quality. The metal granulate can be refilled as required, without interruptions due to assembly.

The drawing shows the method according to the invention.

1 designates a raw gas scrubbing tower to which the flue gases loaded with SO ₂ and NO _x , e.g. from a power plant, are fed. The pump 2 conveys the scrubbing liquid in the circuit, whereby a portion is fed to the fluidized bed reactor 4 , which is filled with metal granulate that is fed via the inlet 9 .

A portion of the raw gas with the lowest oxygen content and/or a gas-water mixture is fed to the fluidized bed reactor 4 via the blower 3 , which is connected to the raw gas side. This creates fluidized bed turbulence in the metal granulate filling. The escaping gas is fed back to the raw gas scrubbing tower 1 via the vent line 11 .

By means of the pump 5, the washing liquid with the desired redox potential is fed via the lines 6, 7 and possibly other lines to the desired nozzle levels in the raw gas washing tower 1 .

The redox potential in the fluidized bed reactor 4 is switched electrolytically by making the housing of the fluidized bed reactor 4 out of plastic or by providing it with rubber insulation.

The gypsum produced during the washing process is removed via discharge 8. The discharge system also serves for dewatering, so it is equipped with centrifuges or the like.

The device for refilling the washing liquid with dissolved lime hydrate, limestone or the like is designated 10 .

NTA or EDTA, formic acid and other known additives can be added via additions 9 and 10 .

Claims (1)

Process for flue gas purification, wherein the redox potential of the washing liquid is controlled to separate SO ₂ and NO _x , characterized in that the washing liquid is passed through a metal granulate fluidized bed reactor ( 4 ), wherein the housing of the fluidized bed reactor ( 4 ) consists of plastic or is rubber-insulated.