DE19850054A1 - Improved removal of mercury from combustion exhaust gases uses a wash solution containing bromide ions in addition to hydrogen peroxide - Google Patents

Abstract

Removal of Hg from exhaust gas in a combustion plant for Hg-containing materials comprises filtering out the flue dust and then leading the gas into a wet washer where the metallic Hg is oxidized by H2O2 is such that the washer is operated with an acid wash solution which contains 0.5-10 g/l bromide ions and to which H2O2 has been added.

Description

The invention relates to a method for separating mercury silver from flue gas according to the preamble of the first patent entitlement.

Such a method is known from DE 44 36 612 A1. The method described there is used for the separation of mercury from combustion gases from sewage sludge incinerators. From the flue gas of these plants dust particles are removed by dust filter and the gaseous pollutants by wet scrubber ent. For the oxidation of gaseous, metallic mercury an aqueous solution of hydrogen peroxide is introduced into the flue gas stream before the wet scrubber at a reacti onstemperatur between 150 ° C and 300 ° C, so that in the subsequent wet scrubber mercury in the form of HgCl ₂ can be deposited. Reference is made to the relationship between the SO ₂ / HCl content in the flue gas and the possible reversion of metallic mercury from HgCl ₂ . If the reaction temperature in the range between between 240 ° C and 300 ° C, the majority of SO _{2 is} oxidized to SO ₃ by the described method and therefore separated in the wet scrubber in the form of sulfuric acid. At a Reakti onstemperatur below 240 ° C, this oxidation does not take place, so that the wash water contains no sulfuric acid. Further information on the composition of the wash water can not be found in this document.

EP 0 527 457 A1 describes a further method for Ab separating mercury from flue gas. In this method is at temperatures below 500 ° C gaseous, metallic Mercury with the help of those contained in the combustion gases Halides, in particular the chlorides contained, oxidized where however, an oxidation catalyst is required.

EP 0 235 414 A1 describes a method for the retention of metallic mercury in flue gases of a waste incineration plant, in which the pollutants SO ₂ , HCl and metallic mercury are separated silver in a wet scrubber, which is operated alkaline, preferably with a NaOH solution. Since SO ₂ has a reducing effect on mercury chloride, the washing solution is an oxidizing agent, for example H ₂ O ₂ , in the required amount is added, so that metallic mercury oxidized to HgCl ₂ and SO ₂ to SOs and the recovery of Hg (0) is avoided. In the washing solution, therefore, the chlorides of mercury and sodium and sodium sulfate are present.

It has been found that the described methods work satisfactorily only when the fuel contains sufficient amounts of chlorine or hydrogen chloride and not too high levels of metallic mercury. If this condition is not met, or if the concentrations of Hg (0) and Cl ₂ or HCl in the flue gas fluctuate greatly, increased emission of metallic mercury must be expected. Another problem is the deposition of metallic mercury from such flue gases that have already been subjected to a prewash for the removal of SO ₂ and therefore contain much smaller amounts of Cl ₂ or HCl in relation to the mercury content.

The invention has for its object to avoid these disadvantages and in particular to provide a method of the type mentioned, with the aid of metallic mercury inde pendent of the fuel from the flue gas of a combustion system by oxidation with H ₂ O ₂ and subsequent wet washing can be removed. The method should also be feasible at higher Hg (0) concentrations and precipitate Hg (0) in greater efficiency than the known methods from the flue gas.

The object is achieved by the ge in claim 1 marked feature solved. In the subclaims are be preferred embodiments of the method specified.

According to the invention, the flue gas of the incinerator is passed into egg Naßwäscher, which is operated with an acidic wash solution containing 0.5 to 10 g / l bromide ions, wherein the required for the oxidation of metallic mercury hydrogen peroxide of the washing solution is added. Preferably, a washing solution of the composition
0.5 to 1 g / l hydrogen peroxide,
1.0 to 60 g / l sulfuric acid and
0.5 to 6 g / l bromide ions
used. In addition, the washing solution may contain 0.1 to 10 g / l of chloride ions. It has been shown that by the addition of bromide clays to washing water metallic mercury effec tive and even at higher concentrations to soluble mercury is oxidized silver halide.

As a washing solution is therefore preferably a sulfuric Lö used, the chloride and bromide ions and water contains peroxide in the specified concentrations. chloride and bromide may be in salt form, such as alkali or earth kalisalze be used. The chloride concentration can be al ternatively or partially by the addition of hydrochloric acid are provided, if the chloride content in the flue gas is not enough while the addition of hydrogen bromide from Ko is avoided. In contrast to the known Ver Hydrogen peroxide is not already driving the flue gas stream admixed. This can save the required amount of expensive What hydrogen peroxide are minimized. The washing solution shows preferably at a temperature of 20 ° C to 80 ° C.

For flue gases, which still have a high SO ₂ content, the wet scrubber can be preceded by a SO ₂ scrubber, so that What hydrogen peroxide is not consumed for the oxidation of SO ₂ . Together with SO ₂ , chlorine or hydrogen chloride is separated in this case, too. In this procedure, it is recommended to recycle the wash solution to minimize the consumption of chemicals. The prerequisite is that the washing solution is withdrawn continu ously or discontinuously the dissolved mercury halide nid. The separation of mercury halide from the washing solution is preferably carried out by liquid-liquid ex traction, for example by means of a liquid organic ion exchanger, such as a quaternary alkylammonium halide with a modifier, for. As a long-chain alcohol, and a diluent, for. A n-paraffin. From the organic phase charged with mercury halide, the mercury halide can be recovered by back-extraction with an aqueous solution of a strong complexing agent, e.g. As ammonia, an aliphatic Diaurin or an organic Thioverbindung or by an aqueous solution of a reducing agent such as ascorbic acid are separated again so that mercury is concentrated in a small volume of an aqueous solution.

The inventive method can be set for all fuels that contain metallic mercury. It is particularly suitable for the incineration of household waste, hazardous waste and sewage sludge, with the following advantages:

• - very high degrees of separation for Hg (0) even at very high smoke gas concentrations (<22 000 μg / m ³ );
• - secure compliance with the legally prescribed limit value in Germany according to the 17th BimSchV (50 μg / m ³ );
• - Low consumption of hydrogen peroxide, especially in SO ₂ -free exhaust gases;
• - Low wastewater volumes when using the liquid-liquid extrak tion;
• - concentration of mercury in concentrated form liquid-liquid extraction followed by back-extraction;
• - low investment costs.

The invention will be described below with reference to exemplary embodiments and figures explained in more detail.

Show it

Fig. 1 is a graph in which the separation efficiency for Hg (0) is plotted against the bromide concentration in [mg / l] in the wash solution;

Fig. 2 is a diagram in which for various fillers in the wet scrubber Hg slip in [%] is plotted against the bromide concentration in [mg / l] in the wash solution.

example 1 Deposition of mercury as a function of bromide concentra tion

In a wet scrubber, a stream of a synthetic flue gas was introduced with the following parameters:

• - Flue gas flow: 500 m _N ³ / h
• - Hg crude gas concentration: 300 μg / m _N ³ as Hg (0).

SO _{2 was} mixed in the flue gas stream in such a concentration that a H ₂ SO ₄ concentration of 50 to 60 g / l was maintained constant in the wet scrubber. As a wet scrubber, a packed body scrubber was used, which was operated in countercurrent. As filler "Tellerettes" were used with the parameters described in Example 3.

The wet scrubber was operated with an aqueous wash solution, the 40 g / l sulfate (as sulfuric acid), 0.5 g / l hydrogen per oxide and 5 g / L bromide (as KBr).

After the washing water concentration was adjusted, a test was run with a wastewater amount of 5 l / h, the amount of washing water was kept constant by adding fresh water at 400 1. The concentrations of H ₂ SO ₄ and H ₂ O ₂ in the washing water were kept constant by replenishment. The initial bromide concentration decreased due to the dilution effect.

As a result of the experiment, the diagram of FIG. 1 he was holding. It can be seen that the deposition of mercury is dependent on the bromide concentration in the wash water. The mercury removal increases to nearly 100% at bromide concentrations above about 2.5 g / l. Bromide concentrations above 5 g / l are not required in these experimental parameters.

Example 2 Comparative test

The experiment was repeated, wherein in the washing water bromide through Chloride (3 g / l) was replaced. In this experiment, a Reached mercury separation of a maximum of 20%.

Example 3 Influence of different fillers in the wet scrubber on the separator mercury

The wet scrubber used in Example 1 was under the experimental conditions described there with two different filling bodies operated with high specific exchange area: Pall P-15 and Tellerettes. The gas stream contained 150 to 950 μg / m _N ³ Hg (0). The experimental parameters are summarized in the following table:

The result of the experiment is shown in FIG . The lines represent regression lines for the measured values. As is apparent from Fig. 2, the degree of mercury (slip) in% depends on the bromide concentration in the washing water. With the Pall-15-P fillers, separation efficiencies of over 90% are achieved even at significantly lower bromide concentrations.

Example 4 Separation of high concentration mercury

For waste gases from the remediation of contaminated sites, significantly higher mercury concentrations are to be expected. Under the conditions shown in Example 3 (packing Pall-15-P) experiments with a Hg (0) concentration of over 20 000 ug / m _N ³ were performed. The wash water of the wet scrubber was mixed with sulfuric acid, hydrogen peroxide and bromide before starting the experiment:

chemical Washing water concentration (383 l) bromide 6.0 g / l sulfuric acid 40.0 g / l hydrogen peroxide 0.5 g / l

With this wash water composition, the fol lowing deposition results were first achieved:

Hg was the total mercury concentration (sum of Hg (0) and Hg ²⁺ ). The last line indicates the mean values of all experiments.

In the first test phase, mercury was metered into the raw gas at 22 ° C as Hg (0) far above the corresponding saturation limit of 15,700 μg / mN3. The following table shows mean values from 8 individual experiments. It was renounced on a mercury specifi cation.

As a result of the mercury entry in the wash water rises there the Hg concentration constantly. There were highs of over Reached 800 mg / l Hg in the wash water, without the Hg deposition too affect.

Claims (5)

1. A method for separating mercury from flue gas of an incinerator for mercury-containing substances in which flue gas contained in the flue gas is separated by dust filter abge and the freed from flue gas flue gas is passed into a wet scrubber ge, wherein metallic mercury is oxidized with hydrogen peroxide, characterized that the wet scrubber is operated with an acidic wash solution containing 0.5 to 10 g of bromide ions per liter and the hydrogen peroxide is added to the washing solution. 2. The method according to claim 1, characterized in that the washing solution, the composition
0.5 to 1 g / l hydrogen peroxide,
1.0 to 60 g / l sulfuric acid and
0.5 to 6 g / l bromide ions
having. 3. The method according to claim 2, characterized in that the washing solution additionally 0.1 to 10 g / l chloride ions ent holds. 4. The method according to claim 1, 2 or 3, characterized in that the washing solution at a temperature of 20 ° C to 80 ° C. is set.   5. The method according to any one of claims 1 to 4, characterized in that the mercury from the washing solution of the wet scrubber through a liquid-liquid extraction is separated.