DE940469C - Process for the production of fertilizers - Google Patents

Description

Process for the production of fertilizers rock phosphates are made with Sulfuric acid digested into superphosphates. All of the sulfuric acid remains as gypsum in the digestion product and forms an undesirable ballast. The sulfuric acid can be completely or partially replaced by nitric acid. In this case, receives one up to 66 °,! o that contained in the rock phosphate and bound to phosphoric acid Calcium and also the calcium that was present as carbonate in the form of hygroscopic Calcium nitrate. Forms only 33 per cent of the calcium originally bound to phosphoric acid Monocalcium phosphate. Such rock phosphate digestion products are for fertilization purposes not particularly beneficial because of the high content of calcium nitrate in storage and application of the fertilizer because of its great water-attracting properties Causes trouble. Calcium nitrate is used to eliminate this disadvantage from the phosphate digestion solution with sulfates of potassium and ammonium as calcium sulfate to fail. The precipitate is filtered off, the separated solution with ammonia neutralized and then obtained by evaporation of the finished mixed fertilizer.

This process has the major disadvantage that the potassium component in Form of potassium sulphate must be used, the sulphate residue of which is lost as gypsum. This is particularly disadvantageous because potassium sulfate is cumbersome Obtained from potassium chloride and magnesium sulfate using a two-step process must become. The magnesium chloride formed by reciprocal conversion is here in the form of solutions to eliminate. aside from that there are still big ones Quantities of sodium chloride solutions used in the manufacture of magnesium sulfate from the kieserite (Mg S04 'H20), which is heavily contaminated with NaCl, is formed. The shelter this wastewater is very difficult, in many cases because of the lack of a wastewater concession even completely impossible.

It has been found that these difficulties do not arise when the calcium sulfate precipitated from the phosphate digestion solution with solutions of Potassium chloride or salt mixtures containing potassium chloride, as well as ammonia and carbonic acid converts to syngenite (CaS04 'KISO4' H20), calcium carbonate and ammonium chloride, according to Separation of the resulting ammonium chloride solution, the syngenite calcium carbonate mixture slurried in water or aqueous solutions and treated with ammonia and Carbonic acid to potassium sulfate. Mixtures containing ammonium sulfate and calcium carbonate converts, which after separation of the calcium carbonate again in the circuit for treatment the nitric acid rock phosphate digestion solutions can be used. . Considering the raw phosphate digestion solutions obtained with nitric acid can be used according to the invention Represent the process by the following reaction equations. 2 Ca (H2 P O4) 2 -f- 4 Ca (N 03) 2 -f- 3 - (KIS 04 (N H4) 2S 04) = 6 CaS 04 + 2 K 'N H4 (H, P 04) 2 -I- 4 K N 03 -f- 4 N H4 N 03 (1) 2 K 'N H4' (H2 P 04) 2 -I- 4 K N 03 -f- 4 N H4N 03 - (- 4 N H3 = 2 K '(N H4) 3 (HPO4) 2 -I- 4 KN 03 -I- 4 N H4N 03 6 CaS04 -f- 6 KC1 -E- 6 NH3 + 3 C02 -f- 6H20 = 3 (CaS04 'K, S04' H20) + 3 CaC03 + 6 NH4C1 (3) 3 (CaS04 - K, SO4 - H20) -I- 3 CaC03 + 6 NH3 -I- 3 C02 --f- 3H20 = 6 CaC03 -I- 3 '(K, S04' (NH4) 2S 04) (4) To obtain the necessary for the precipitation of the digestion solution Potassium sulphate-ammonium sulphate mixture is the calcium sulphate separated after the precipitation with potassium chloride; Ammonia and carbonic acid initially in an insoluble calcium sulfate-potassium sulfate double salt (Syngenite) transferred. After the ammonium chloride solution formed has been separated off the syngenite calcium carbonate = mixture again with ammonia and carbonic acid treated, whereby potassium sulfate and calcium carbonate are formed. That in solution Potassium ammonium sulphate that has gone out is separated from the calcium carbonate precipitate and fed back into the process cycle.

After the separation of the precipitated from the phosphate digestion solution Calcium sulphate becomes the remaining salt solution, as already mentioned, with gaseous form Treated ammonia, neutralizing until pH = 6. This creates a complete fertilizer containing phosphoric acid, potash and nitrogen that is completely free of fiber and has a good shelf life. At the beginning of the Ammonia discharge is mostly formed mainly from aluminum phosphate Existing precipitation caused by constituents of the rock phosphate and is more than 66% soluble in z% citric acid. With regard to This precipitate can leave its citric acid solubility in the salt solution so that it is mixed with the fertilizer produced during evaporation. Of the separated calcium sulfate precipitate is in closed, with gas inlet pipes provided agitator tanks treated, such as those used for production of ammonium sulfate from gypsum are known. After the first introduction of ammonia [equation (3)] the resulting ammonium chloride solution is drawn off. Your ammonia levels can be recovered in the usual way with the help of quick lime. The withdrawn liquid is achieved with water or with the help of washing solutions obtained during the process replaced and terminated the ammonia introduction in the subsequent process stage [Equation (4)].

The method of operation according to the invention has extraordinary advantages, which were not readily apparent to the skilled person. That with the rock phosphate digestion The resulting calcium sulfate can be converted particularly easily to syngenite. By Circulation of the separated from the digestion solution in the form of calcium sulfate Sulphate residues can be worked with cheap potassium chloride instead of potassium sulphate whose chlorine content is repelled in the form of ammonium chloride or calcium chloride is, while the same so far with the use of magnesium sulfate as magnesium chloride had to be removed.

EXAMPLE 240 kg of rock phosphate were stirred with 30.10 % P205 in 2751 47% nitric acid and digested for 2 to 3 hours. The residue was then filtered off and washed with 2o 1 of water. A filtrate in which 65 kg of P205 was dissolved resulted. The solution also contained about 93 kg of Ca 0. 24s kg of potassium ammonium sulfate and 500 l of water were added to this solution, after which the mixture was stirred well for 30 minutes. Thereafter, the solution of the excreted plaster was. filtered off and the plaster residue briefly washed out. By introducing about 18 kg of ammonia, the solution was now brought to a pH of 6 and evaporated to dryness. This gave 34o kg of complete fertilizer with approximately 20% P2 05, 20% N and 2o0 /, K20, which contained only small amounts of phosphoric acid clay as a water-insoluble residue. The filtered calcium sulfate precipitate was suspended in a closed agitator vessel with 300 liters of a solution which contained a total of 25 kg of NH . 40 kg of finely ground potassium chloride (about 80% HCl) were introduced into this slurry. With heating to 40 to 45 ° and constant stirring, C 02 -containing gases were introduced. After approximately 2 hours, the introduction of gas was interrupted and the liquid in the container was filtered off from the syngenite-calcium carbonate mixture. The precipitate was briefly washed out and mixed again with 300 liters of solution, which contained a total of 25 kg of NH3. The introduction of carbonated gases was then continued for a further 2 hours. The solution was then filtered off from the remaining calcium carbonate precipitate and used to precipitate the raw phosphate digestion solution. The remaining calcium carbonate was washed out and the resulting washing solution was returned to the process cycle.

Claims (1)

PATENT CLAIM: Process for the production of fertilizers containing nitrogen, phosphoric acid and potassium by digesting raw phosphates with nitric acid, precipitating the digestion solutions with sulfates of potassium and ammonium and neutralizing the solution separated from calcium sulfate with ammonia, characterized in that the separated calcium sulfate with solutions of potassium chloride or salt mixtures containing potassium chloride as well as ammonia and carbonic acid is converted to syngenite, calcium carbonate and ammonium chloride, whereupon after separation of the ammonium chloride liquor the syngenite-calcium carbonate mixture is slurried in water or the like and treated with ammonia and carbonic acid to form mixtures containing potassium sulphate, ammonium sulphate and calcium carbonate is reacted, which are reused after separation of the calcium carbonate in the circuit for the precipitation of the nitric acid raw phosphate digestion solutions. Cited publications German Patent Nos. 453 118, 478 988 # 503 898, 542 588, 564133, 569 151; French Patent No. 670 307; British Patent No. 283 908; USA. Patent No. 1,788,828. Gmelin, "Handbuch der inorganic Chemie", B. Aufl., System Nr. 23, S. 511.