DE20301323U1 - Neutralization additive for residual mining water comprises finely divided calcined dolomite of specified characteristics in solid or aqueous suspension form - Google Patents

Abstract

An additive for neutralization of acidic, optionally aerated residual water from mining is introduced in solid or aqueous suspension form and is of calcined dolomite with a bulk density above 0.8 t/m 3>, an above 90% content of particles of size below 0.2 mm, a CaO content above 40%, a MgO content above 25% and a total CaOMgO content above 80%.

Description

Feedstock for the treatment of acidic mining water

The invention relates to the treatment of acidic aerated and/or non-aerated pit and mining waters, in particular iron- and sulfate-containing pit and mining waters that have been and are being produced during lignite mining.

During open mining for lignite extraction and for certain periods of remediation of the resulting opencast mines, the groundwater must be lowered over large areas. The extracted groundwater contains dissolved iron and sulfate ions due to the weathering of pyrite (FeSa) and is generally slightly acidic. When the Fe ²⁺ ions are aerated and oxidized and iron hydroxide is formed, further acid is released. The pH value falls to values of < 3. After open mining has ceased and the general lowering of the groundwater level has ceased, the groundwater that reappears flows through the dumps left behind by mining. Due in particular to the above-mentioned pyrite weathering in open mining, these dumps are often enriched with a high acid potential. This leads to the acidification of the resulting opencast mining residue lakes with pH values of as low as < 3. Acidic inflows with the groundwater also lead to the acidification of mining residue lakes that have already been flooded or neutralized.

Before the raised groundwater and the acidic open-cast mining water are discharged into the receiving water or before they are used to flood the resulting open-cast mining lakes, these waters are neutralized. Before they are discharged into the receiving water, iron is precipitated during the neutralization process and the resulting iron hydroxide sludge is extracted separately and disposed of.

It is known from the state of the art to use hydrated lime, milk of lime or quicklime for neutralization. These products have the disadvantage that the high sulfate content in the water of up to > 2000 mg/l leads to the formation of gypsum, grittiness and thus to low levels of effectiveness, even to the point where these substances become ineffective. Further dissolution and reaction development are hindered and the use of the product is made ineffective. This problem is counteracted by adding neutral or low-sulfate water to mash or produce a diluted suspension at increased expense. The resulting iron hydroxide sludge contains the proportion of the neutralizing agent with a corresponding excess.

Furthermore, studies have been carried out to neutralize acidic mining water by adding finely ground dried chalk. This was not used on a large scale because the studies showed that the required amount of product significantly exceeded the theoretically calculated amount, making the use uneconomical. In addition, there is a disproportionate increase in the amount of sludge to be disposed of.

The object of the invention is to find an economical, effective and easily applicable feedstock for the neutralization of acidic aerated and/or non-aerated pit and mining waters, in particular with increased sulfate contents, to adjust a pH value of s 6 to 8.

According to the invention, the object is achieved in that burnt dolomite with a proportion of > 40% CaO and > 25% MgO, with a total proportion of CaOMgO of > 80%, in a grain size of < 0.2 mm with a proportion of > 90% and with a bulk density of > 0.8 t/m ³ as a solid or in a suspension with water is introduced into acidic aerated and/or non-aerated pit and mining waters with a pH value of < 6.0 as a feedstock for the neutralization.

In pilot plant tests, it was surprisingly found that when using fine-grained burnt dolomite with a proportion of > 40% CaO and > 25% MgO, in a grain size of < 0.2 mm with a proportion of > 90%, a faster and more effective neutralization reaction is achieved than in comparison with previously known products. A significant advantage of the better efficiency in combination with the increased neutralization potential, based on a comparable mass, is the determined reduction in the required amount of input material by up to 30% by mass for setting a pH value of 7.0 for a comparable acidic raw water sample. In addition, the economic efficiency is improved and the overall costs are reduced by reducing the transport effort due to the lower mass requirement per mole of acid equivalent and additionally by half or even further reduced transport volume requirement compared to diluted milk of lime and due to the higher bulk density of fine-grained burnt dolomite compared to white lime hydrate.

The fine-grained burnt dolomite to be used can be introduced into acidic sulphate-containing waters as a solid or in a suspension with water in a proportion of up to 45 %.

The advantage of the found feedstock is that when the fine-grained burnt dolomite is used in a suspension, the acidic aerated and/or non-aerated sulphate-containing pit and mining water to be treated can be used as the suspension liquid without causing grittiness as a result of gypsum formation. This means that the costly supply of water of improved quality can be dispensed with.

Another significant advantage is the reduction in the amount of sludge that has to be disposed of as waste at cost, due to the reduction in the amount of input material that is possible with the new input material.

The proposed feedstock has properties similar to those of the earth's crust, is physiologically harmless and does not cause any environmental impacts in terms of heavy metals, hydrocarbons, turbidity, etc.

When the found input material is used, the pit and mining water is produced in discharge quality for public waters with pH values of > 6 - 8, while at the same time stimulating biological self-regulation in these previously hostile waters.

The proposed method enables the use of life-threatening acidic mine and mining waters, such as those in acidic open-cast mining lakes, for recreation, management and as intermediate storage in a simple and economical manner.

The principle of the invention will be explained in more detail below using an example.

In a mine water treatment plant, 2000 m ³ of mine water are treated every hour. The mine water inlet has the following essential quality parameters:

pH value: 3.2

Iron dissolved: 50 mg

Sulphate content: 1200 mg/l
Kb-7.0 value: 2.5 mmol/l

This pit water flows in a channel and is additionally aerated by fittings. To adjust the pH value to 7.0, 250 kg of hydrated lime with a volume of 0.625 m ³ were previously metered into the channel every hour using a dosing system via a disperser in which a 10% suspension was produced with process water.

For the new feedstock of burnt dolomite with a total Ca-OMgO content of 85%, in a grain size with a content of < 0.2 mm with 95% and comparable costs in relation to the mass, only 175 kg/h with a volume of 0.2 m ³ /h are required to neutralize the above-mentioned mine water to a pH value of 7.0. This results in a quantity saving of 30 % and a volume saving of around 70% with an overall improved reaction. This significantly reduces the required operating costs for the plant. In addition, the required transport and storage volume is significantly reduced, thus avoiding further costs. The overall reduced volume used also leads to a noticeable reduction in the amount of sludge produced and thus the disposal costs for the iron hydroxide sludge produced.

The water treated with the proposed feedstock has discharge quality into public waters while simultaneously stimulating biological self-regulation in the water body.

With the help of the proposed feedstock, the use of life-threatening acidic pit and mining water for recreation, management and as flooding water is made possible in a simple and improved manner with significant cost reduction.

Claims (3)

1. Feedstock for the treatment of acidic mining water, which may be aerated and/or non-aerated pit and mining water and which may be introduced into the water to be treated as a solid or in a suspension with water, characterized in that, in particular for the neutralization of these waters, the feedstock is burnt dolomite with a proportion of > 40% CaO and > 25% MgO, with a total proportion of CaOMgO of > 80% and has a grain size of < 0.2 mm for neutralization with a proportion of > 90% and a bulk density of > 0.8 t/m ³ . 2. Feed material according to claim 1, characterized in that the proportion in the suspension to be introduced is up to 45%. 3. Feedstock according to claim 1 and 2, characterized in that the suspension liquid is pit and/or mining water.