TH33397B - Process for pretreatment of waste liquids - Google Patents

Abstract

DC60 (27/03/55) Invention of a process for conditioning waste liquids, chromates containing organic acids. This process includes (a) adding chromium precipitation catalyst. Containing calcium And at least one magnesium component in a liquid that is Chromate waste; And (b) corrected the waste liquid chromate to the first pH of 9 or higher, thus precipitating the component Chromium from the waste liquid chromate, and therefore the concentration of the dissolved chromium component of the waste liquid chromate The invention deals with a process for the pretreatment of waste liquids, chromates containing organic acids. Water processes include (a) adding chromium precipitation accelerator. Containing calcium And at least one magnesium component in a liquid that is Chromate waste; And (b) corrected the waste liquid chromate to have the first pH of 9 or higher, so the component precipitated Chromium from waste liquid chromate And therefore reduce Concentration of the dissolved chromium component of the waste liquid chromate

Claims (7)

1. Process for pretreatment of waste liquids, chromates with complex ions and zinc components. This process includes: adding Ca (OH) 2 to the aforementioned waste chromate liquid; and modifying the liquid's pH. That is the waste of such chromate Therefore precipitated chromium components And sync components from The waste liquid And maintain the PH of the waste liquid chromate in Vessel. With the first pH of 10 or higher by volume control Ca (OH) 2 added to a liquid belonging to The chromate is lost in the said Vessel. And therefore precipitate the chromium component from the liquid That is a waste of such chromate. 2. Process according to claim No. 1, which before adding it. Chromium concentration of The waste liquid is from 10 to 1,000 parts per million by weight. 3. The process of claim 1 or 2, where the waste liquid chromate is After filling The aforementioned Ca (OH) 2 4. Process according to claim 3, in which the liquid person is the waste chromate for a period of 0.5 to 2 hours. One Which reduces the said first pH of the liquid Therefore, the zinc concentration of the waste liquid of such chromate is reduced to the second pH, which is 8 or higher on the other, thus reducing the zinc concentration of the waste liquid. Claim No. 5, the second pH is from 8 to 10. 7. The process of Claim No. 1 to 6. Which performed such amendments while The liquid chromate remains at a temperature of 20 ํ C or higher. 8. Process according to Clause 7, where the aforementioned temperature is 25 ํ C or higher. 9. Process according to Clause Clause. 8 where the temperature is 30 ํ or higher than 1 0. Process according to Clause 1 to 9, any one It also includes: maintains the aforementioned waste liquid chromate at the first such pH for a period of 0.5 hrs or longer; And add substances to coagulate the weight High molecules into the waste liquid, such chromates Therefore accelerating the aforementioned precipitation of the aforementioned chromium components 1 1. Process according to claim 10, in which the high molecular weight coagulant is Includes polyacrylamide 1 2. Process according to Clause 1 to 11, any one Which separates chromium The chromate is precipitated from the waste liquid. And then make the liquid The chromate is neutralized with an acid that reacts with the dissolved calcium component. Waste liquid, such chromate Therefore, the dissolved calcium component is returned. Also the sediment containing calcium 1 3. Process according to one of the claims 1 to 12 Where the first pH is from 10 to 12.5 1 4. Process according to Clause 1 to 13, any one Which waste liquid chromate Such as used wash water Which was obtained by washing metal for spark plugs Which has been brought to the Chromate pretreatment with washing water 1 5. Process according to any one of Clause 1 to 12 Which selects the complex ionizer from the group Containing a dicarboxylic Acid, tricarboxylic Acid, hydroxidocarboxylic acid and hydroxyocarboxylic acid 1 6. Process according to claim 15, which selects the complex ionizer from the oxalic acid, malonic group. Avid, Succinic Acid, glutaric Acid, adipic Acid, pimelic acid, cork acid, azilaic Azid, sebaik Acid, maleic acid, phthalic acid, teraphthalic acid, tartaric acid, citric acid, malic acid At least two of these substances, ascorbic acid and a mixture of them1 7. Process according to any of Clause 1 to 12 or 14. The first pH is 10.6 or higher.