DE3142775A1 - Process and apparatus for reducing the content of noxious gases in flue gases by means of atomising absorption - Google Patents

Abstract

The invention relates to a process for reducing the content of noxious gases in flue gases by means of atomising absorption, a flue gas being treated in a reaction chamber, which has a flue gas inlet, a distributor centrally located in the chamber and a flue gas outlet, by means of atomisation of a reagent in an aqueous solution or suspension, and the solution or suspension being atomised preferably in the upper, central part of the chamber. To improve the reaction conditions in the reaction chamber, a part of the flue gas is by-passed from the flue gas inlet around the flue gas distributor and blown into the chamber against or along the inside of the walls thereof. In this way, a zone of warm and dry flue gas is formed along the inside of the chamber wall, and this makes it possible to run a central zone of the chamber at a temperature close to the dew point.

Description

Method and apparatus for reducing the content of

harmful gases in flue gases with: the help of atomic absorption.

The present invention relates to a method of degradation the content of harmful gases in flue gases with the help of atomic absorption, a flue gas in a reaction chamber, which has a flue gas access, a central one has a flue gas distributor installed in the chamber and a flue gas outlet, treated by atomizing a reagent in aqueous solution or suspension is, the solution or suspension preferably in the upper, central part of the Chamber is atomized.

When fossil fuel and waste are burned a number of aggressive and environmentally harmful gases such as sulfur dioxide, Sulfur trioxide, hydrogen chloride etc. are formed.

For reasons of environmental protection, it is desirable to reduce the content of these To remove gases in flue gases completely or at least to reduce them before the smoke gases are released into the atmosphere, and there are already several procedures known, in which the content of the flue gases of acidic components to the reaction brought into aqueous solution or suspension with an alkaline reactant will. In particular, have two processes, a so-called "wet process" and a so-called dry process found widespread use.

In the wet process, the flue gases are in a so-called wet scrubber brought into contact with the alkaline agent by making it watery Solution or suspension in the washer in such large and often circulating amounts is injected so that the smoke gases reach their dew point. The inside of the wet washer is thus constantly moistened, and the reaction products, not consumed reagent as well as solid components of the flue gases are the wet scrubber in the form of a sludge-like Suspension taken. One advantage of this process is its high level of efficiency, while a disadvantage consists in the corrosion of those parts of the system, that are in contact with the circulating fluids, see. For example U.S. Patent No. 3,932,587.

The drying process is the one known from spray drying Technique exploited by placing an alkaline reactant in a suitable aqueous one Solution or suspension in fine droplets by means of a usually central in a Reaction chamber attached spray is atomized. The one in the atomization The amount of water supplied is adjusted in such a way that the temperature of the flue gases after the treatment is so much higher than the dew point temperature that it is through the drying and reaction formed product the reaction chamber as a dry, can leave free flowing powder, see. For example, the USA patent No. 3,966,418.

The powder in question can usually partly directly from the ground removed from the reaction chamber while another part of the treated Flue gas is entrained and in a filter, for example a pocket filter or an electrostatic filter.

The advantage of the dry process is u D at that you can Reason for the fact that the whole process is above the dew point of the Flue gases: takes place, it avoids the different parts of the installation the influence exposure to corrosive liquids, which is why the system is usually cheap, non-alloy construction materials can be used, as can the handling and depositing the reaction products is simplified by the fact that they are in one dry, flowable state.

A major disadvantage of the drying process, however, is that that the consumption of reactants is 50-75% higher than with the wet process. The reason for this can partly be seen in the very short time it takes for the reaction is available, and partly in that the tendency to react reduced because the reaction occurs at a temperature higher than the dew point temperature i.e. in an unsaturated atmosphere.

Various ways of reducing consumption have already been suggested to reduce reactants. For example, in the Danish patent applications Nos. 2051/79 and 3959/79 suggested the dried reaction product after dissolution / suspension respectively to be recirculated through the reaction chamber in the dried state.

Even if it was recognized through tests that the degree of utilization of the reactant with a decrease in the temperature difference in the chamber between the practically occurring temperature and the dew point temperature strongly is increased, a lower limit for the temperature in the chamber is given by that an operating temperature below this leads to heavy deposits of partial dried out reaction product on the inner surfaces of the reaction chamber and on the following surfaces that come into contact with the flue gases; leads with Problems arising from this with regard to the removal of the product from the floor the chamber, and the excretion in the attached filter.

The purpose of the invention is to provide a method with the help of which improved reaction conditions in the reaction chamber, and thus better Utilization of the reactant than in the known atomization absorption methods can be achieved without the disadvantages mentioned as a result of partially dried-out deposits Reaction products occur on the inner surfaces of the reaction chamber. this will achieved according to the invention that part of the flue gas from the flue gas inlet passed around the flue gas distributor and into the chamber against, or along the # inside of the walls of the same is blown This has to Consequence that along the inner wall surfaces in the reaction chamber one of very warm flue gases existing layers of a relatively low dew point temperature is brought to the eE that allows in the in the central part of the chamber befikidlichen smoke gases such an amount of solution or suspension are atomized that the temperature of the flue gases in this central part of the chamber can increase whose dew point temperature approaches, bringing the reaction conditions in this range be sustainably improved at the same time; that due to the warm and dry Gas layer on the wall surfaces runs the risk of a partially dried deposit Material on the inner walls of the chamber is avoided.

By diverting part of the flue gases in this way, and one Introduction of the same in that area of the chamber in which it is only slightly react with the atomized solution or suspension, it was suspected that only a small part of the harmful contained in this part of the smoke gases Gases would be removed.

Surprisingly, however, it has been shown that the negative Influence of this subset on the effectiveness of the flue gas cleaning within next Limits to the size of the subsets due to the more effective treatment of the rest The amount of flue gas is more than weighed, so that for the total amount of flue gas that leaves the reaction chamber, a more effective flue gas cleaning than by the conventional atomization processes with a lower consumption of reactants is achieved.

The part of the flue gases that is routed around the flue gas distributor is preferably tangentially into the chamber at one or more heights, and introduced through one or more injection openings at each altitude.

It is also possible to simultaneously pass flue gas through one or more, to blow in openings provided on the chamber ceiling.

The invention also relates to an apparatus for performing the Method, wherein the apparatus has a reaction chamber with a supply line for flue gas, a smoke gas distributor connected to the supply line and mounted centrally in the chamber, and a ~ outlet line for flue gases from the chamber as well as a: # preferably central in the upper part of the chamber: an atomizer for atomizing an aqueous one Has solution or suspension of a reactant, the apparatus .invention is peculiar in that a line is provided from the supply line leads to at least one injection opening in the chamber, the opening BEZW.

the openings against, respectively. along the inside of the wall of the Chamber is directed respectively. are.

Vor2ugswreame is the opening, respectively. the openings are tangential aligned to the inside of the chamber wall, with injection openings in different Elevations in the chamber can be provided.

In one embodiment for the apparatus according to the invention is on the chamber ceiling at least one aligned along the inside thereof Injection opening provided.

The invention is described in more detail below with reference to the drawing explained.

Fig. 1 shows schematically a longitudinal section through an embodiment for the apparatus according to the invention, FIG. 2 on a larger scale and in a sectional view along the line II-II in FIG. 1 an injection opening for flue gases, and FIG. 3 illustrates in the same way as # Fig. 1 the operating conditions in the apparatus.

1 shows a reaction chamber, which is designated generally by 1 is. Centrally above the chamber 1, a flue gas distributor 3 is attached, which with a Supply line 2 is connected for flue gases to be cleaned.

Central in the upper part of the chamber 1 is an atomizer 5 for the Atomization of a solution or suspension of a reactant produced by a line 10 is supplied, attached. In the lower part of the chamber 1 is located an outlet line 4 for flue gases from the chamber 1, the lower part conical in a known manner and with a lock, not shown Removal of the dry: powdery R # action product in the direction of an arrow 11 is provided.

A branch line 6 is with the flue gas supply line 2, and with Using branch lines 8 connected to annular distribution channels 9, which at three different heights a, b and c along the outer perimeter of the chamber 1 extend. The branch lines 8 can advantageously enter the channels tangentially 9 be introduced. Each of the channels 9 is provided with a number of injection openings ~ 7, which are attached at the same distance along the circumference of the chamber 1.

One of the injection openings 7 is shown on a larger scale in Fig. 2, which illustrates the wall 12 in the chamber 1, surrounded by the annular distribution channel 9.

The opening 7 is punched out in the wall 12, the wall 12 in FIG the chamber is bent in over a piece behind the opening 7. The opening 7 is oriented such that smoke gases from the channel 9 from the opening substantially flow out tangentially to the wall 12, i.e. that the smoke gases from the opening 7 in Flow circumferentially along the inside of the wall 12.

During operation, arise in the reaction chamber 1 of the apparatus the following operating conditions, which are illustrated schematically in Fig. 3: Im central part of the chamber forms a zone A, which is hatched in the drawing is indicated, and where the flue gases have a relatively low temperature and have a large moisture content, i.e. where there is little difference between the actual temperature of the Smoke gases and their dew point cmpcraur exists, and where therefore ideal conditions for a reaction between the atomized Reagent solution or reactant suspension with that of the flue gases prevail by means of absorption to be removed gases. The central zone A is from a zone B which extends up to the wall of the reaction chamber, and which consists of warm and dry flue gases, which are a deposit of partially dried out Prevent particles from zone A on the chamber wall and thus a deposit on the same, by completely drying such particles on their way through zone B and partly taken as a dry and pourable powder from the bottom of the reaction chamber can be, partly with a view to the flue gases through the outlet pipe an excretion can be carried along in a post-closed filter (not shown).

Various modifications are within the scope of the invention of the apparatus shown and described possible.

For example, instead of the flue gases at the top of chamber 1 through a flue gas distributor 3 attached above the chamber to introduce the flue gases Blow in from below, directed centrally towards the atomizer, as is the case, for example in the Danish interpretative document No. 129.602. The atomizer known as Centrifugal atomizer is shown, in particular, when speaking of reactant solutions is to be a nozzle atomizer.

Claims (6)

Claims 1. Method for reducing the content of harmful Gases in flue gases with the help of atomic absorption, with a flue gas in a reaction chamber (1), which has a flue gas inlet (2), one in the center of the chamber attached flue gas distributor (3), and a flue gas outlet (4), means Treated atomization of a reactant in aqueous solution or suspension is, the solution or suspension preferably in the upper, central part of the Chamber (1) is atomized, thereby indicating that a part of the flue gas from the flue gas inlet (2) around the flue gas distributor (3) and into the chamber (1) against or along the inside of the walls (12) thereof is blown in. 2. The method according to claim 1, characterized in that g e k e n n -z e i c h n e t that the part of the flue gases routed around the flue gas distributor is preferred tangentially into the chamber (1) at one or more heights (a, b, c), and is blown in through one or more injection openings (7) at any altitude. 3. The method according to claim 2, characterized in that g e k e n n -z e i c h n e t that at the same time flue gas through one or more, provided on the chamber ceiling Openings is blown. 4. Apparatus for carrying out the method according to claim 1, wherein the apparatus has a reaction chamber (1) with a supply line (2) for flue gas, a Smoke gas distributor connected to the supply line and mounted centrally in the chamber (3), and an outlet line (4) for flue gases from the chamber and preferably one centrally mounted in the upper part of the chamber atomizer (5) for atomizing a having aqueous solution or suspension of a reactant, thereby g e k E n n z e i c h -n e t that a line (6) is provided, which is from the Supply line (2) leads to at least one injection opening (7) in the chamber (1), the opening respectively the openings (7) against the, respectively. along the inside of the wall (12) of the Chamber (1) is directed respectively. are. 5. Apparatus according to claim 4, characterized in that g e k e n n -z e i c h n e t that the opening, respectively. the openings (7) tangential to the inside of the chamber wall (12) are aligned. 6. Apparatus according to claim 4 or 5, characterized in that g e -k e n n z e i c n e t that injection openings (7) at different heights (a, b, c) in the chamber (1) are provided.