DD262013A1 - METHOD FOR PRODUCING A FLOCKING AGENT - Google Patents

Abstract

The invention relates to a process for the preparation of a flocculant for the chemical treatment of water. The object is to find a suitable substituent for aluminum sulphate, with which a flocculation process in power plant effluents is achieved in accordance with the prescribed reference values or discharge limit values for the receiving water. According to the invention, this is achieved by using pit water with a Fe2 content of more than 3 mg / kg and a ratio of 1: 1 limed with regeneration waste acids containing from 0.2 to 0.9% sulfuric acid in a ratio of 1: 2 or 1: 3 is mixed.

Description

Characteristic of the known state of the art

It is known to remove organic and inorganic impurities in feeds and wastewaters by the addition of hydroxide-forming flocculants, in particular salts of iron or aluminum.

Usually, aluminum or iron sulfate, if appropriate also iron chloride, are used as flocculants. The flocculants are dissolved as pure substance in solid form only immediately before flocculation in the water.

It is already known, waste products of the inorganic chemical industry, in addition to aluminum sulfate (DD 55618) or Al ³⁺ - ions (DE 1933035) still activated or free colloidal silica to use as a flocculant, the beneficial effect of the combination with the silica is highlighted.

However, the use of these waste products is limited because they are available only to a very limited extent. Thus, mainly pure iron or aluminum salts are used as flocculants, which causes difficulties, since these salts represent valuable and cost-effective raw materials.

In the chemical water treatment of a conventional power plant, 25% aluminum sulphate is used for pre-cleaning in order to reduce the amount of suspended particles of organic substances as well as alkaline water constituents.

In this case, the surface water is mixed in a flocculation reactor with the aluminum sulfate in order to achieve the appropriate pre-cleaning effect. This pre-purified water is then passed over the ion exchanger and fully desalted and softened. This results in a deionate with a conductivity <0.08 με / cm, 20 μg / kg of iron total and also 20 pg / kg of silica.

Instead of aluminum sulfate, iron chloride or iron sulfate can also be used. In the same way, the coal and / or ash-laden power station wastewater can be cleaned.

Object of the invention

The aim of the invention is to reduce the cost of cleaning power plant effluents.

Explanation of the essence of the invention

The invention has for its object to find a suitable substituent for aluminum sulfate, with a flocculation process in power plant effluents is achieved according to the predetermined guide values or discharge limits to the receiving water.

According to the invention this is achieved in that mine water with a Fe ²⁺ -Gehaltgrößer 2mg per kg and in the ratio 1: 1 limed with regeneration waste acids with a content of 0.2 to 0.9% sulfuric acid in a ratio 1: 2 or 1: 3 2FeS + 2H ₂ O + 7 O ₂ -> 2 FeSO ₄ + H ₂ SO ₄ + Regeneration Acid It has surprisingly been found that an intermediate stage of the water produced in the mine water treatment, mixed with lime, has corresponding positive flocculation results. This intermediate is mine water (Fe ²⁺ > 2 mg / kg) and lime (CaO, pH 5.8-6.5), which proceeds according to the following reaction mechanism:

FeSO ₄ + Ca (OH) ₂ + H ₂ SO ₄ + Regeneration Acid - [CA ²⁺ / Fe ²⁺ / Sr ₄ ~]

The substance obtained is clear and meterable by the addition of the regeneration acid and must be kept in the intermediate stage in acidic, aqueous substance before it is added to the wastewater or receiving water, in order to achieve a flocculation of suspended solids and organic constituents.

embodiment

The invention will be explained in more detail below using an exemplary embodiment.

100 ml of 0.5% regeneration acid water and 200 or 300 ml of the mine water with a Fe ²⁺ content greater than 2 mg / kg are mixed in a vessel and a clear metered solution is obtained, which is milliliterweise with the receiving water (5-15 ml to 100 ml use) is added. In this case, depending on the quality of receiving waters dosing medium, and the temperature mode of operation is to be optimized (10-40mg / kg ferrous sulfate, temperature variance of 15-35 ⁰ C).

The following reactions occur with the organic ingredients and suspended matter: FeSO ₄ + Ca (OH) ₂ - »Fe (OH ₂ ) + Ca (SO ₄ ) Fe ₂ (SO ₄ J ₃ + 3Ca (HCO ₃ I ₂ -h > 2Fe (OH) ₃ + 2CaSO ₄ + 6CO ₂

The flocculation is most optimal in the pH range of 5-6.5. The effectiveness of the flocculation is expressed by the following quality criteria of the receiving water before and after flocculation:

before flocculation receiving water after flocculation clear water

6.3 0.2 1.0 ² »25 ²¹ 8

1 50% of the m-value must be removed during a cleaning, no matter how high the initial value is. According to the invention, this requirement is met.

2 These values are the required limit values for the subsequent treatment stage, which are achieved by the method according to the invention.

m-value (meq / l) 1.2 PH value 7.0 Fe ²⁺ (mg / kg) 0.5 Fe _tot (mg / kg) 4.0 PV (mgKMn0 ₄ ) 40 Suspended matter (mg / 1) 25

Claims (1)

A process for preparing a flocculant for chemical water treatment, characterized in that mine water having a Fe ²⁺ content greater than 3mg / kg and in the ratio 1: 1 limed with regeneration waste acids having a content of 0.2 to 0.9% sulfuric acid in a Ratio 1: 2 or 1: 3 is mixed. Field of application of the invention The invention relates to a method for producing a flocculant for chemical water treatment.