DE4039014A1 - Prepn. of agent for redn. of calcium sulphate content of soln. - by heating ash contg. aluminosilicate with alkali hydroxide soln. and sepg. solid - Google Patents

Abstract

An agent for redn. of the CaSO4 content of solns. is prepd. by treating ash contg. aluminosilicate with an alkali hydroxide soln., heating and sepg. the soln. by solid/liq. sepn. after 5-30 mins. Pref. the ash has more than 8% Al2O3 content and the alkali soln. is a 5-30% soln. of NaOH or KOH. The ash treated with alkali hydroxide soln. is heated to above 50 deg.C. Before the solid/liq. sepn., the ash, treated with alkali hydroxide soln. is treated with water in ratio 1:1. The solid prod. from the sepn. is dried. Pref. the solid prod. is added to the soln. contg. Ca and/or sulphate ions in a ratio of 5-30 g. of dry substance to 1 l. of satd. CaSO4 soln., followed by a solid/liq. sepn. after 1-2 hrs. ADVANTAGE - Flue ash consisting of at least 8% Al2O3 and obtd. in burning lignite in heat-generating plant can be used as raw material

Description

The use of solid when burning fossil Fuel fly ash as an absorbent in Flue gas cleaning systems are known (DD 2 47 587). Farther becomes ash for neutralizing waste water (DD 1 48 945) or in connection with flocculants for clarification of coal ter waters used (DD 43 118).

DD 1 47 057 describes a process for the production of aluminum oxide from brown coal filter ash. From the lite It is also known that ash is associated with Hydrochloric acid for the production of aluminum compounds in the Production of zeolites can be used.

To dissolved anions in aqueous solutions, e.g. B. sulfate drain concentrations, to decrease, is in the specialist literature the use of lime / calcium aluminate monosulfate hydrate described.

It is state of the art to use ash as a valuable material for various purposes use their purposes. To reduce the sulfate ion concentration tration in solutions you can use specially manufactured chemical Use connections. The use or activation of Ashes for this purpose are not yet known.

The object of the invention is the simple Reduce the calcium and sulfate ion content of solutions and thus support environmental protection measures.

The above object is achieved in that alumosilicate containing ash with an alkali hydroxide solution, warmed and after a reaction time of 5 to 30 minutes the solution is subjected to a solid-liquid separation, the application of the agent obtained is such that  the activated solid product of calcium and / or sulfate ionic solution in a ratio of 5 to 30 grams dry substance added to 1 liter of saturated calcium sulfate solution is set and after a reaction time of 1 to 2 hours a solid-liquid separation takes place.

The ash used is said to have an alumina content of own more than 8%.

5-30% sodium hydroxide solution is used as the alkali hydroxide solution or potassium hydroxide solution.

To increase the reaction rate with Alkali hydroxide solution containing ash containing alumosilicate heated to a temperature greater than or equal to 50 ° C. Before the Solid-liquid separation can be done in a 1: 1 ratio Water can be added for easy filtration enable.

There is a solid-liquid separation before using the agent necessary to reuse the alkali hydroxide solution be able to feed them and not into the calcium and / or enter solution containing sulfate ions. That at the Solid-liquid separation resulting solid product can before Application can be dried.

After the activated ash of the calcium and / or sulfate ion-containing solution has been added, the dissolved ions are converted during the reaction time. The proportion of calcium ions Ca ²⁺ decreases by more than 90% and the sulfate ion concentration SO ₄ ^2- by 50 to 70%. In the final solid-liquid separation, these converted ions are separated in a poorly soluble form, mainly as calcium aluminate sulfate compounds, with the solid product. This means that the liquid treated in this way can be drained off without polluting the environment after the required pH has been set.

An essential advantage to be achieved with the invention is that when lignite is burned in Fly ash accumulating at least consists of 8% aluminum oxide, used as a starting material can be.

An embodiment of the invention for reducing the calcium sulfate content in the wastewater from Rauchgasentschwe treatment plants is described in the following section and explained with reference to FIG. 1.

1 t alumosilicate-rich fly ash from a lignite furnace (a) with an aluminum oxide content of 20% is mixed with 3-6 m ³ 30% sodium hydroxide solution (b). The solution is then heated to 70 ° C. and kept at this temperature for about 20 minutes (c). The residual sodium hydroxide solution (e) is separated by a solid-liquid separation (d), supplemented with 30% strength sodium hydroxide solution (f) and used again to activate further ash.

The solid residue, the activated ash (g), is added to the gypsum-containing waste water from a flue gas desulphurization plant (h). With 1 t activated ash, depending on the aluminum oxide content of the raw ash, the calcium and sulfate ion content in 30 to 60 m ^{3 of} gypsum-saturated wastewater can be reduced to 8-12 mg / l or 300-700 mg / l. The reaction time at 20 ° C is approx. 2 hours (i). Calcium aluminate sulfates are formed, which are sparingly soluble and can therefore be separated with a solid-liquid separation (j).

The deposited solid residue (k), with a mass of approx. 1-1.2 t, can be landfilled without any problems. The sewage has a pH of 9 to 11.5. It is through Add acidic wastewater (l) to the discharge in Rivers (m) set the necessary pH.

The solid-liquid separations can be carried out with suitable apparatus ren, such as hydrocyclones.

Claims (7)

1. A process for the preparation of an agent for reducing the calcium sulfate content in solutions, characterized in that aluminosilicate ash is mixed with an alkali hydroxide solution, heated and the solution is subjected to a solid-liquid separation after a reaction time of 5 to 30 minutes. 2. The method according to claim 1, characterized in that the ash used has an alumina content of greater Owns 8%. 3. The method according to claim 1, characterized in that as an alkali hydroxide solution 5-30% sodium hydroxide solution or potassium hydroxide solution is used. 4. The method according to claim 1, characterized in that the alumosilicate mixed with alkali hydroxide solution containing ash to a temperature greater than or equal to 50 ° C is heated. 5. The method according to claim 1, characterized in that the alumosilicate mixed with alkali hydroxide solution containing ash before the solid-liquid separation in the ratio Water is added 1: 1. 6. The method according to claim 1, characterized in that the solid product resulting from the solid-liquid separation is dried. 7. A method for applying the Herge according to claim 1 to 6 provided means, characterized in that the acti fourth solid product of calcium and / or sulfate ions containing solution in a ratio of 5 to 30 grams dry substance added to 1 liter of saturated calcium sulfate solution is set and after a reaction time of 1 to 2 hours which is a solid-liquid separation.