前苏联专利SU814272A3 Method of producing phosphoric acid

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1506323 Phosphoric acid; phosphates; fertilizers PRZEDSIEBIORSTWO PROJEKTOWANIA I DOSTAW KOMPLETNYCH OBIEKTOW PRZEMYSLOWYCH "CHEMADEX" 29 Jan 1976 [6 March 1975] 03622/76 Heading C1A The solution obtained by treating phosphate rock with (molar ratio 0À7 to 1À0) is divided into two parts; one part (up to 30% of the solution) is cooled and treated with 0À8 to 1À6 volumes of a water-miscible organic solvent to precipitate ammonium sulphate, and the latter and a potassium salt are added to the second part, the mixture being evaporated to dryness to provide a fertilizer. The filtrate of the first part is distilled to remove organic solvent, which is recycled, leaving H 3 PO 4 ; or is neutralized with ammonia or an alkali metal carbonate or hydroxide to precipitate the corresponding phosphate, the remaining solution being distilled to remove organic solvent for recycle.
公开号:SU814272A3
申请号:SU762322334
申请日:1976-02-18
公开日:1981-03-15
发明作者:Шроэдэр Ежы；Сыновец Ежы；Зрубек Тадеуш；Гурецки Хенрык；Вольницки Здзислав；Хнатович Роман
申请人:Пшедсембиорство Проектованяи Достав Комплетных Объектувпшэмысловых "Хемадекс" (Инопредприя-Тие)；
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专利说明:

The invention relates to methods for producing phosphoric acid and mineral fertilizers and may not be used in the chemical industry. A known method of producing phosphoric acid by treating phosphorus with circulating 1 osphoric and sulfuric acid at 75-85s, with a concentration of sulfuric acid in the liquid phase of the suspension 0.6-1.6%, followed by the separation of phosphogypsum by filtration 1. The disadvantage of this method is the fact that losses from phosphogypsum and acid cleaning result in a low utilization rate which does not exceed 80%. It Phosphogypsum contains about 0.1%, insoluble TjOj, and not less than 0.2% soluble PiOg. Since, in the known methods, phosphogypsum is of direct application, it is exported to storage yards and with it at least 5% of the phosphorus initially contained in the raw material is lost irretrievably. In addition, with phosphogypsum containing from about 20 to 36% moisture, there is a loss of process water. To extract valuable components from phospho-gypsum, phosphogypsum is converted to ammonium sulfate by treating it with ammonia and carbon dioxide 2. Another way to obtain high-purity phosphoric acid with P, iOg concentration up to 72% by weight is to decompose the phosphate raw material with an aqueous solution of the mixture acidic and neutral ammonium sulfate, and phosphoric acid at 60-105 ° C. The decomposition process is carried out in conjunction with the extraction of the phosphoric acid formed with organic solvents containing 1-5 carbon atoms in the molecule. Depending on the solvent used, the extraction process is carried out either directly upon decomposition or else ecglaciation is carried out after decomposition, which is the preliminary separation of the solid phase of phosphogypsum. Phosphogypsum after filtration and washing is treated with an aqueous solution of ammonium carbonate. The C1MMONIUM sulfate solution separated by filtration must undergo an energy-intensive process of concentration, crystallization, and then thermal regeneration in ammonium acid sulfates for use in the decomposition process. Soluble impurities are frozen out from extract of solvent M11 at temperatures of minus 5 ° C, and then distilled to obtain phosphoric acid with a high degree of purity and high concentration 3. The disadvantage of this method is the use of energy-intensive processes of concentration, crystallization, and high-temperature operations associated with regeneration ammonium sulphate. The production of waste products according to this method is also expensive due to the need to distill the extract with phosphoric acid solvents. The purpose of the invention is to increase the degree of use. and simultaneously obtaining multilateral mineral rejuvenation. This goal is achieved by the method of obtaining phosphoric acid by decomposing a phosphate raw material at 611: 1P5 ° C, obtained by treating phosphogypsum with an aqueous solution of ammonium carbonate and containing 8-30 wt. % P-jOg and 2-35 wt.% Ammonium sulfate with the introduction of sulfuric acid to the content in the mixture of phosphate ion 10-40%, sulfate ion 5-28% and ammonium ion 1-9% separation of phosphogypsum by filtration, followed by separation of the filtrate on two streams according to weight 0.10-0.42, treating the first stream with an organic solvent, separating the precipitate and mixing it with the second stream. I decompose phosphate raw materials in the presence of ammonium ion, which allows changing the crystallization conditions of phosphogypsum. Large crystals are formed several times, with a more homogeneous population of crystals, containing 0.2-0.6% of insoluble PftOg. Due to the conversion of phosphogypsum, this amount of phosphorus goes into solution and returns to the stage of decomposition of phosphorus raw materials, impurities from a smaller stream organic solvents and the introduction of these salts into the second stream provides a high degree of utilization which is not less than 98%. Complete utilization of phosphogypsum reduces the consumption of sulfuric acid by more than 30% compared to and by known methods (1 and 2), and also to obtain about 3.8 tons of chalk per 1 ton, which is used as calcium fertilizer or as a raw material for the production of portlan cement. Combining the processes of phosphogypia conversion with the process of decomposing phosphate raw materials by washing the phosphogypsum with a solution obtained after the conversion, as well as washing the chalk with water from distillation, reduces the consumption of process water by more than 50%, as well as using acid cleaning with organic solvents provides a reduction in energy consumption from 30 to 80%, depending on whether concentrated phosphoric acid is produced or its salts directly. The application of the proposed method allows simultaneously with phosphoric acid to obtain a multilateral mineral fertilizer and increase the degree of use to 97-98%. Example 1. In a overflow reactor, the decomposition of Morocco’s 1000 kg / h of phosphate raw material is carried out, wt.%: R5.0d31.2 Sao51.8 Fe-jOj0.7 Ae, hOz 0.6 MdOO, 4 Fe3, 9 COf, 4 , 3 SO, O, U NaJjO0.8 Bituminous Others O, U 3680 kg / h of aqueous races: solution of sulfuric acid and ammonium sulfate cocraiiii, wt.%: HoSO18.39 (NH4) 2S0428, HjPO41.0 Fe ,, 01 AB, .OZ0.03 f0.36, 04 Decomposition is carried out at 80 ° C in a reactor with perfect mixing and a active capacity of 20.0 m. In the decomposition process, after filtration and washing with a 34.8 wt.% Solution of ammonium sulfate, 3039 kg of phosphorips composition is obtained, wt.%: CaSO 2 HCO 49,0 CHRO 0.2 0.2 Undegradated phosphorite O.1 FOJ1 S, 4 Fe-iO, О, 1 ,, 0,1 () j S041 5, J 1 NH, 2 Others 0.9 HQO33.8 Phosphogypsum is treated with ammonium carbonate solution in the amount of 3764.0 kg / h, concentration 20.95% by weight, (and washing with water in the amount of 1965 kg / h and after drying 1102.9 kg / h of chalk are obtained for fertilizing the composition, wt.%: CaCOo, 73.0 CaSO j-aHjO9.3 Undecomposed phosphorite, 2 (NH ;,) ft S047, 0 (G4) APP40.1 AggiOs0.2, 0.2 SiOu1.0 CaSO4 {NH4) 2 SO, I, 7 Other2.2 Filtrate Set After separation of the precipitate in the amount of 2974.9 kg / h, which is an ammonium sulphate solution with a concentration of 34.8 wt.% {NH.JoSO, after the introduction of 705.2 kg of sulfuric acid with a concentration of 96.0% HgSU, decomposed raw materials. The filtrate is obtained as a result of decomposition, in the amount of 2497.3 kg is divided into two streams, a smaller stream in the amount of 517.0 kg / h is directed to the release of phosphoric acid, and the second stream in the amount of 1980.3 k is directed to the production of mineral Multilateral fertilizer type 1K. Methanol is added to the adiabatically cooled stream at a rate of 711.0 kg / h, then impurities are separated within two hours at a temperature of 15 s. In addition, 6.6 kg / h of chalk with a previously determined composition, formed in the course of the conversion of pc of purification of the liquid phase from sulphate ions, was also entered into the solution. After centrifugation, I get 1034 kg / h of a solution with the composition, wt.%: CHjOH6.8,5 (NH4) 3 SQ40.1 NH HjPQd .0.3 Hj, 1 HjO22.9 Others.0.1 This solution is distilled, and distilled The reaction is carried out at a pressure of 400 Torr, at a temperature of 130s, and 97.7 kg / h of phosphoric acid with a concentration of 68% by weight of PgOg is obtained. 1598 The ammonium sulfate residue obtained at the impurity stage, as well as potassium chloride, is added to the second stream. in the amount of 365.5 kg / h. The resulting mixture is aquired with ammonia gas in the amount of 76.5 kg / h. Then, the reaction mixture is dried and granulated, and 1550 kg / h of falyugo multilateral fertilizer such as NPK liltl () are obtained, the composition, wt.% {KC423.44 NH4) j 50446.27, 94), 0.22 (KHj, ) Narol19.57 Aftpi, 0.19 F0.83 CaSOU 2H, .O0.53 CaCOj0.02 HfiO0.72 NaCR0.29 Other0.98 Example 2. In a perfect mixing overflow reactor with actinvny-1 with a volume of 20.0 cm at 80 C decomposition of 1000 kg / h of Morocco phosphorite of the composition specified in Example 1 is carried out, with 3,750 kg / h of an aqueous solution of sulfuric acid and ammonium sulfate containing 12.83% by weight and 27.55% by weight being supplied (phosphogypsum precipitate in quantity and composition, decree in example 1, after washing the resulting ammonium sulphate ammonium solution in the amount of 3444 kg / h with a concentration of 30 wt.% (NH) SO is converted in the presence of 3836 kg / h of ammonium carbonate solution with a concentration of 21.0 wt. % (LH4) eCOe. The chalk precipitate is filtered off and then washed with water in the amount of 2100 kg / h, and after drying, 1000.6 kg / h of chalk is obtained for fertilizer composition, wt.% 1 CaCOj81.0 CaSO42H2O5.4 (NIb) aSO ; 4 .5 / 0 (, 1 Ae, 0j0,2, 0,2, 0 Other. 2.3 The filtrate from the conversion process washed the precipitate of phosphogypsum, and then added 501.2 kg / h of sulfuric acid containing 96% by weight of HgSO and also 196 kg / h of the resulting solution in the preparation of phosphoric acid salts and this the solution is introduced into the decomposition process. The filtrate obtained as a result of decomposition in the amount of 2387 kg / h was divided into two streams; less flow. in the amount of 360 kg / h, the liquor is sent to the production of phosphoric acid salts, and the second in the amount of 2027 kg / h is sent to the production of mineral fertilizer type NPK. In a stream aimed at obtaining phosphoric acid salts, sulfuric acid S is first metered in an amount of 30.9 kg / h, and then, after cooling the solution before, the mixture of keothopanol and methanol in an amount of 420.0 kg / h, containing 30 wt1% isopropanol, is metered and 70 wt.% methanol. The separation of impurities was carried out for 2 h, and the sulfate notions were removed from the liquid phase of the oadovremeino as a result of a dosage of 2.8 kg / h of chalk formed during the co-version. An alcoholic solution of phosphoric acid in the amount of 702.0 kg / h with a concentration of 6.3 wt.% After centrifugation is neutralized with ammonia in the amount of 10.7 kg / h, and after
centrifuging and drying give 72.5 kg / h of ammonium phosphate with the composition, wt.%:
NNZROD98,8
(LH4) y8O40,7
НдО0,5
The centrifuged aqueous-alcoholic solution is distilled at a pressure of 680 torr, with organic solvents of 293 kg / h of methanol and 125 kg / h of HaonpojnaHOJia returned to the salting out process, and the used liquid in a quantity of 196 kg / h is injected into the reaction mixture, dosed into the decomposition reactor.
A precipitate obtained during the salting out operation from a stream of impurities aimed at obtaining phosphoric acid salts in the amount of 111.3 kg / h of composition, wt.%, Is added to the second stream:
(,9
3
Ge, Oz0,4
, 1,3
CaSO -, 0
H ROD0,3
HijO, 3.0
Other2,5
and potassium chloride in the amount of 404.1 kg / h and the resulting mixture is ammoniated with ammonia gas in the amount of 30.3 kg / h. The mixture is then dried and granulated with, whereby 1453.0 kg / h of NPK-type mineral fertilizer containing 12.5% N, 17.6% PjOg and 17.6% KgO are obtained, with the composition by weight%:
,eight
(Shy) ,, 15
(LH4) 5,, 9
NHjj, 13
0.1
Ge „0
ACaOj
0.1
1.0
1.0
0.81

权利要求:
Claims (3)
[1]
1. The patent of Czechoslovakia number 124369, cl. From 01 to 25/22, 15.09.67.
[2]
2. Pozin M.E. Mineral salt technology. L., Himi, 1974, p. 1068-1070, 1086-1987, 1251.
[3]
3.PPP No. 74854,
cl. C 01 25/22, 1975 (prototype).

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同族专利:

公开号 | 公开日

GB1506323A|1978-04-05|

TR19144A|1978-05-31|

FR2302965B1|1979-02-02|

BR7601086A|1976-09-14|

US4007030A|1977-02-08|

AR211697A1|1978-02-28|

PL100380B1|1978-09-30|

DE2603652C3|1980-04-30|

FR2302965A1|1976-10-01|

DE2603652B2|1979-08-23|

CA1084240A|1980-08-26|

DE2603652A1|1976-09-16|

IN144557B|1978-05-13|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US3172751A|1965-03-09|Process for producing nitrogen-phos- |

US2857262A|1952-09-11|1958-10-21|Tennessee Valley Authority|Method of manufacturing fertilizers by evaporating slurries containing fertilizer constituents|

US2942967A|1957-05-20|1960-06-28|Lloyd Donald W|Production of a calcium phosphate fertilizer with reduced hygroscopicity|

GB970947A|1960-10-05|1964-09-23|Asahi Chemical Ind|A method for producing chemical fertilizers|

US3697246A|1970-10-16|1972-10-10|Pennzoil United Inc|Potassium phosphate manufacture|PL124240B1|1979-06-27|1983-01-31|Politechnika Wroclawska|Method of manufacture of mixed fertilizers|

US5158594A|1982-10-25|1992-10-27|Oxford Ronald E|Granulated nitrogen-phosphorus-potassium-sulfur fertilizer from waste gypsum slurry|

CH654331A5|1983-08-25|1986-02-14|Gautschi Electro Fours Sa|METHOD AND DEVICE FOR MELTING METAL SCRAP AND / OR COARSE.|

US4576627A|1984-09-04|1986-03-18|Hughes William B|Method of providing fertilizer from brines|

CN85100187B|1985-04-01|1985-09-10|陕西省化学肥料工业公司|Process for chemcial separation of phosphate ore|

IT1187659B|1985-04-23|1987-12-23|Enichem Agricoltura Spa|PROCEDURE FOR THE PRODUCTION OF AMMONIUM PHOSPHATES FROM PHOSPHATIC ROCKS|

US4634533A|1985-04-26|1987-01-06|Somerville Robert L|Method of converting brines to useful products|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

PL1975178549A|PL100380B1|1975-03-06|1975-03-06|METHOD OF PRODUCING PHOSPHORIC ACID OR PHOSPHORIC SALTS AND MULTI-COMPONENT MINERAL FERTILIZER AT THE SAME TIME|

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