DE1267631B - Process for the flotation of potash crude salts containing clay and other insoluble solids - Google Patents

Description

Process for the flotation of clay and other insoluble solids containing Crude Potash Salts The majority of the usable potash salt deposits lead alongside the recoverable ones Salts more or less clayey or other insoluble minerals which the Interfere with the processing of the crude salts. In the flotation processing of crude potash salts Clay contents of over about 1% are already made by adsorption of flotation agents noticeably disturbing. A regulated and economical flotation with high selectivity and good yield is made very difficult. For the elimination of these disturbances various suggestions have been made. This is how the sludge is made before flotation separated by fine classification or pre-flotation. These procedures require a separate process stage and usually a separate processing of the sludge. These disadvantages are avoided by the method according to the invention, which Components of crude potash salts made from clay and other insoluble solids Potash crude salts directly floated.

According to US Pat. No. 2,288,497, starch is used as a sludge pusher U.S. Patent 2,364,520 methyl cellulose, cellulose xanthate or cellulose acetate is used. The quantities used are for starch with 300 to 450 g / t, for cellulose derivatives with 400 to 800 g / t crude salt specified. The German interpretation document D 16764 VI a / 1 c suggests glucomannan and the German patent specification 919 703 mannogalactan as sludge depressors before. Depending on the sludge content, 50 to 100 g / t of crude salt are used. The German Auslegeschrift 1 113 431 uses polyethylene glycol trimethyl nonyl ether (molecular weight about 650) as a mud pusher. The known pushers have the disadvantage that with these the desired selectivity and thus a good enrichment in the pre-concentrate is not achieved. A significant deterioration occurs when using this Reagents when the content of water-insoluble in the crude salt exceeds about 2%. The proposed substances also require large amounts to be used. It was now found a process which polyacrylic acids and polymethacrylic acids, their water-soluble salts and their copolymers with less than 80%, acrylamide and a minimum molecular weight of 100,000 as an effective sludge depressor in flotation used by potash crude salts. These polymers, which are characterized by their good solubility in water as well as a low degree of crosslinking are used in one of the salt flotation upstream conditioning stage in quantities of only about 5 to 50 g / t solid added as an approximately 0.5 to 1% aqueous or saline solution. Because of their nouns Properties draw these substances to the insoluble "mud minerals" completely on, making them heavily flocculated and with a small excess of flocculant be superficially charged negatively. In the subsequent salt flotation with Anionic flotation agent is then an excellent one even with small amounts Receive pre-concentrate.

For salt flotation with cationic flotation agents such as in the sylvine flotation with fatty amines, it was also found that the "sludge" after the pretreatment with the synthetic organic polymers according to the method of the invention then with salts of polyvalent metals, preferably chlorides and sulfates of aluminum and iron, or cationic flocculants after-treated will. Of these, polymeric compounds of N-trimethylaminoethyl methacrylate methosulfate are suitable, aminated polyvinylaryl hydrocarbons (British Patent 760,869) and polyethyleneimines. The addition of these compounds passivates the flocculated "mud minerals" with respect to the cationic collectors and causes undesired collector adsorption largely avoided. The concentrates obtained after this flotation stage are considerably higher than with known flotation processes. The procedure according to the invention is for froth flotation in known devices for salt minerals with up to about 3% clay minerals and / or up to about 30% anhydrite in use suitable for anionic or cationic flotation agents. That The method according to the invention is illustrated, for example, as follows: Example 1 Washed kieserite (MgSO4 ₧ H2O) of the grain size is used as the starting material of practically 100 under 1.5 mm used. The flotation liquor has the following composition: 70 KCl, 209 MgCl2, 77 MgSO4, 65 NaCl and 873 H2O (g / l), density 1.294 g / cm3.

The initial concentration is 400 g / l solid with an MgSO4 content of 78.7%, a CaSO4 content of 7.3% and less than 0.2% clay minerals. With 70 g / t of the commercial product Stokotal DX (paraffin sulfonic acid sodium; average C24; degree of sulfation 70%) and with the commercial product Praestabitöl V (alkyl sulfate mixture, sodium salt of sulfated hydroxystearic acid according to German patent 614 702) and 25 g / l foamer (alcohol mixture C5- C, 18) the following results were obtained with and without the use of sodium polymethacrylate at a flotation time of 2 minutes: a) Without addition. Application MgSO4 CaSO4 MgSO4 CaSO4 (%) (% o) (% h) (8%) Concentrate ... 84.5 1.6 96.0 19.6 Residue ... 30.2 55.4 4.0 80.4 Exercise ... 78.7 7.3 100 100 b) With the addition of 8.5 g / t Na polymethacrylate according to the method according to the invention. Conditioning before flotation 0.5 minutes. Example 2 A hard salt with a grain size of 100% less than 1 mm is used as the starting material. The flotation liquor has the following composition as carrying liquor: 100 KCl, 130 NaCl, 100 M9Cl2, 90 MgS04 (g / l), density 1.290 g / cm3 / 23 ° C. The K20 content of the hard salt is 10.6%, the content of insoluble matter about 2.4%. The solids concentration at the beginning of the flotation is 400 g / l. During the flotation, the pressure effect of guar meal was compared with that of a copolymer of sodium polyacrylate and polyacrylamide according to the method of the invention in combination with A1C13. 50 g / t fatty amine, commercial product Armac HTD (acetate of hydrogenated tallow fatty amine) is used as the Sylvinsammler. The foamer used consists of 50 g / t of a mixture of coal tar heating oil with the commercial product Flotol B (foamer based on terpene alcohol, y = 0.90 to 0.94 at 20 ° C corresponding to »pine oils«, mixing ratio 1: 1): a) Conditioning with guar flour (50 g / t): 1 minute.

Addition of commercial product Armac HTD: 50 g / t, foamer mixture: 50 g / t, flotation time: 3 minutes. b) Conditioning with guar flour (100 g / t): 1 minute.

Addition of commercial product Armac HTD (acetate of hydrogenated tallow fatty amine) 50 g / t; Foamer mixture: 50 g / t; Flotation time: 2.5 minutes: K80 Insoluble scalloped K80 insoluble (0/0) (0I0) (0/0) I (0/0) Concentrate ... 50.4 0.80 92.8 7.1 Residue ... 0.90 2.56 7.2 92.9 Exercise ..... 10.62 2.23 100 100 c) conditioning with 15 g / t copolymer (80% Na polyacrylate + 20% polyacrylamide) according to the method according to the invention.

Addition of A1C13: 100 g / t; from Armac HTD: 50 g / t; Foamer mixture: 50 g / t; Flotation time: 2.5 minutes: K80 Insoluble scalloped K80 insoluble (%) (%) (%) (%) Concentrate ... 53.3 0.59 92.1 4.7 Residue ... 1.04 2.72 7.9 95.3 Exercise ..... 10.65 2.45 100 100 Example 3 Another hard salt with 12.1% K20 and 2.1% insoluble constituents is floated. A fatty amine, commercial product amine AH (fatty amine as hydrochloride) is used as a collector and a 1: 1 mixture of commercial product Flotanol F (mixture of medium to higher ether alcohols; y = 0.95 to 1.00 at 20 ° C, flash point about 75) is used as a foamer ° C) and coal tar fuel oil is used. The concentration of solids at the beginning of the flotation is 400 g / t. The pressing effect of guar flour with Na polyacrylate according to the method of the invention in combination with FeC13 is compared.

a) Conditioning with guar flour (50 g / t): 1 minute. Addition of commercial product amine AH (fatty amine [C, 27 C, 8] as hydrochloride): 50 g / t; Foamer mixture: 50 g / t; Flotation time 2.5 minutes. K80 Insoluble application K80 insoluble (%) (0/0) (0I0) ( (0/0) Concentrate ... 46.5 1.06 91.9 12.0 Residue ... 1.28 2.40 8.1 88.0 Exercise ..... 12.12 2.08 100 100 b) Conditioning with Na polyacrylate 15 g / t according to the method according to the invention: 0.5 minutes. Addition of FeCl3: 50 g / t; of amine AH (fatty amine [C12-C18] as hydrochloride): 50 g / t; Foamer mixture: 50 g / t; Flotation time: 2.5 minutes. K20 Insoluble application K20 insoluble (%) (%) (%) (%) Concentrate ... 49.9 1.25 93.0 13.4 Backlog ... 1.08 2.22 7.0 86.6 Exercise ..... 12.11 2.10 100 100 Beispie14 The hard salt according to example s is used as the starting material. The technical conditions except for the precipitant for the Na polyacrylate excess agree with Example 3b. A polyethyleneimine with a molecular weight of about 100,000 is used as the cationic precipitant.

Conditioning with Na polyacrylate 15 g / t according to the method of Invention 0.5 minutes.

Addition of polyethyleneimine: 20 g / t; of commercial product amine AH (fatty amine [C12-C1s] as hydrochloride): 60 g / t; Foamer mixture: 50 g / t; Flotation time: 2.5 minutes. K20 Insoluble application K20 insoluble (%) (%) (%) (%) Concentrate ... 48.8 1.00 92.5 12.5 Residue ... 1.2 2.26 7.5 87.5 Exercise ..... 12.1 2.10 100 100

Claims (1)

Claim: Process for the flotation of clay and other insoluble Potash crude salts containing solids, characterized in that polyacrylic acids and polymethacrylic acids, their water-soluble salts and their copolymers with less than 80% acrylamide and with a minimum molecular weight of 100,000, preferably in an amount of 5 to 50 g / t, alone or in combination with precipitating agents Salts of polyvalent metals or with organic, water-soluble cationic compounds, preferably polyethyleneimines with molecular weights of at least 10,000, the hydrolysis solution metered in and the flotation of the salts takes place with known flotation agents, wherein Clay and other insoluble solids will be squeezed and go into the residue.