CN87100240A - Method by sodium-chlor system Sodium phosphate dibasic - Google Patents
Method by sodium-chlor system Sodium phosphate dibasic Download PDFInfo
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- CN87100240A CN87100240A CN87100240.XA CN87100240A CN87100240A CN 87100240 A CN87100240 A CN 87100240A CN 87100240 A CN87100240 A CN 87100240A CN 87100240 A CN87100240 A CN 87100240A
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Abstract
The invention discloses and a kind ofly produce the production method of Sodium phosphate dibasic by sodium-chlor, this method is a raw material with sodium-chlor and phosphoric acid fully, by long-chain fat family primary amine kind solvent, makes chlorinity less than 0.2% Sodium phosphate dibasic.
Description
The present invention relates to the production method of Sodium phosphate dibasic, belong to the phosphate production field.
Sodium phosphate dibasic is a kind of broad-spectrum phosphoric acid salt, and at present, the production of this product is based on neutralisation, promptly gets with soda ash or caustic soda neutralising phosphoric acid.1963, (Brit.Patent 1 in Japan Onoda Cement Co., Ltd, 036,207(1966)) once proposed to utilize the lower molecular weight amine solvent that contains one to five carbon atom on the alkyl, and realized fully replacing soda ash or caustic soda is produced Sodium phosphate dibasic, but dissolved each other fully because of solvent and water by sodium-chlor, therefore, loss is bigger, and complicated operation is failed in industrial extensive enforcement.1972, J.E.Baker (U.S.Patent 3,661,513(1972)) has proposed utilization and the immiscible long-chain fat of water family secondary amine is produced, but this method still need add certain soda ash or caustic soda.
The objective of the invention is in order to overcome the shortcoming in the aforesaid method, proposed a kind of can the realization and replaced soda ash or caustic soda by sodium-chlor fully, can produce the production method of Sodium phosphate dibasic again with lower energy consumption and running cost.
The production method that the present invention proposes mainly comprises three parts:
1. heterogeneous replacement(metathesis)reaction
Under condition a little more than room temperature, utilize and the immiscible long-chain fat of water family primary amine kind solvent, from the aqueous solution, optionally extract hydrochloric acid, finish the replacement(metathesis)reaction that generates Sodium phosphate dibasic by sodium-chlor and phosphoric acid.Its reactional equation is:
S is the primary amine kind solvent.
The raw material sodium-chlor that the present invention adopts is common salt, should be washed in advance before using, and its content is reached more than 98%.P in the phosphoric acid
2O
5Content is 5~60%.Organic solvent is formed by long-chain primary amine kind of extractants and mixing diluents, and the molecular weight of primary amine kind of extractants is between 250~600, and commonly used have secondary amine primary amine (as: N-1923) and an eicosyl primary amine (as: Primene JM-T or N116) etc.Thinner can be used aromatic hydrocarbon, naphthenic hydrocarbon, aliphatic hydrocarbon and benzene, chloroform etc., but generally to select for use kerosene to be advisable.
When preparation replacement(metathesis)reaction solvent for use, the consumption of primary amine kind of extractants can change in 5~99% scope, but is the best with 10~40%.
The replacement(metathesis)reaction of carrying out on the basis of above-mentioned raw materials, can adopt two kinds of methods:
(1) liquid-liquid-solid double decomposition: (abbreviation single stage method)
In the presence of solvent S, make solid sodium chloride and phosphoric acid solution, carry out the heterogeneous replacement(metathesis)reaction of liquid-liquid-solid according to the mode of slurries extraction, directly produce Sodium phosphate dibasic.
Reactional equation as the formula (1).
(2) liquid liquid replacement(metathesis)reaction: (abbreviation two step method)
At first, from aqueous phase selective extraction HCl, finish the reaction that makes SODIUM PHOSPHATE, MONOBASIC by sodium-chlor and phosphoric acid by solvent S, then, relend solubility promoter S, finish, make Sodium phosphate dibasic by sodium-chlor and SODIUM PHOSPHATE, MONOBASIC reaction.Reactional equation is suc as formula (2), shown in (3):
Also can before the two step method reaction, add an extractor, phosphoric acid is fully contacted in extractor with solvent S, generate the solvent phase SH of load phosphoric acid
3PO
4, enter again in the reactor and carry out replacement(metathesis)reaction by following formula:
And then make Sodium phosphate dibasic by formula (3) reaction.
No matter single stage method, two step method all can be carried out in bigger temperature range, promptly from 0 ℃ to 100 ℃ all can, be the best wherein with 40~60 ℃.P in the aqueous solution
2O
5Content be 5~30%.When sodium chloride content can be the reaction of 5~25%(two step method).
2. crystallisation by cooling product separation
Under condition a little less than room temperature, utilize the changes in solubility of Sodium phosphate dibasic in water, Sodium phosphate dibasic is separated from aqueous phase with the hydrate that contains 12 crystal water, and the service temperature of crystallisation by cooling can change in 0~20 ℃ scope, with 10~20 ℃ for the most suitable.Simultaneously, before the crystallisation by cooling, sodium chloride content should be lower than 5% in the solution.
3. solvent reclamation
At room temperature, be generally about 25 ℃, with in the ammoniacal liquor and the solvent of load HCl, generate ammonium chloride and S, S can continue to participate in replacement(metathesis)reaction, and reactional equation is as shown in the formula shown in (4):
For above-mentioned three parts, available flow process Fig. 1,2,3 are illustrated.
Fig. 1 produces the Sodium phosphate dibasic synoptic diagram for utilizing single stage method.In reactor 1, under 40~60 ℃, phosphoric acid solution, solid sodium chloride and solvent S are fully stirred,, finish the replacement(metathesis)reaction that generates Sodium phosphate dibasic by sodium-chlor and phosphoric acid with the slurries method of extraction.After the reaction, with the feed liquid standing demix, wherein the solvent phase of load hydrochloric acid enters revivifier 3, and water enters crystallizer 2.In crystallizer 2, make water further be cooled to 20~10 ℃, Sodium phosphate dibasic is separated out with the form of dodecahydrate, after solid-liquid separation, in mother liquor, add sodium-chlor and phosphoric acid, continue to participate in replacement(metathesis)reaction.In revivifier 3, the solvent phase of reacted load hydrochloric acid, about 25 ℃ in ammoniacal liquor and regeneration, produce ammonium chloride simultaneously.Solvent after the regeneration continues to participate in replacement(metathesis)reaction.
Fig. 2 is one of technological process of sodium-chlor two step method system Sodium phosphate dibasic.At first, in reactor 1a, sodium chloride solution and phosphoric acid solution and solvent S are fully mixed, finish the solution replacement(metathesis)reaction of producing SODIUM PHOSPHATE, MONOBASIC by sodium-chlor and phosphoric acid.Treat two be separated after, water (is contained NaH
2PO
4Solution) introduce reactor 1b, add a certain amount of sodium-chlor again, treat that it dissolves fully after, again with solvent S contact, to finish the liquid liquid replacement(metathesis)reaction of producing Sodium phosphate dibasic by sodium-chlor and SODIUM PHOSPHATE, MONOBASIC.All same single stage method such as the separation of reaction back water-phase product and solvent reclamation.
Fig. 3 is two of the technological process of sodium-chlor two step method system Sodium phosphate dibasic.At first, under condition, in extractor 4 a little more than room temperature, with solvent S phosphoric acid extraction, make the solvent phase of load phosphoric acid, then, in reactor 1a, with sodium chloride solution and this solvent phase thorough mixing, to finish the liquid liquid replacement(metathesis)reaction of producing SODIUM PHOSPHATE, MONOBASIC.After being separated two, continue to add a certain amount of sodium-chlor, then,, finish replacement(metathesis)reaction and the steps such as product separation and solvent reclamation of producing Sodium phosphate dibasic by sodium-chlor and SODIUM PHOSPHATE, MONOBASIC as the technological process shown in the figure two at aqueous phase.
Prepare tripoly phosphate sodium STPP as desire, only need the products therefrom Sodium phosphate dibasic is mixed with an amount of SODIUM PHOSPHATE, MONOBASIC or small amounts of phosphoric acid, the mixture that makes it to become SODIUM PHOSPHATE, MONOBASIC and Sodium phosphate dibasic mol ratio and be 1: 2 gets final product, and needn't add caustic soda or soda ash.Then, press usual method again, make it promptly to get desired product, react as follows 400~450 ℃ of reactions down:
Embodiment 1:
45 gram sodium-chlor are added 118 gram phosphoric acid (contain P
2O
520%) in the solution, forms the slurries that contain solid sodium chloride.Diluting secondary kiber alkyl amine code name with sulfonated kerosene is N1923, and being made into concentration is the 40%(volume) solvent, 520 milliliters of these solvents with above-mentioned slurries thorough mixing, are finished replacement(metathesis)reaction under 40 ℃.Question response finishes, and tells water, and it is cooled to 20 ℃, after filtration, can get Na
2HPO
412H
2O solid 92 grams.Product is chloride less than 0.2%.
Embodiment 2:
100 gram sodium-chlor and 560 gram phosphoric acid (are contained P
2O
516%) mixes, form the mixing solutions of sodium-chlor and phosphoric acid.With concentration is the 30%(volume) N1923 solvent (used thinner is with embodiment 1) fully mix with above-mentioned solution for 1300 milliliters, under 50 ℃, carry out replacement(metathesis)reaction.After question response finishes, be separated two, and add 74 gram sodium-chlor, fully stir at aqueous phase, treat that sodium-chlor dissolves fully after, once more 1300 milliliters of solvents that contain 30%N1923 are reacted with this aqueous solution.After reaction finishes, be separated two, and water is cooled to 10 ℃, after filtration, can get chloride less than 0.2% solid Na
2HPO
412H
2The O395 gram.
Embodiment 3:
With sulfonated kerosene dilution higly branched chain eicosyl primary amine code name is N116, and to be made into content be the 20%(volume) solvent.Get 1000 milliliters of solvents and phosphoric acid solution and (contain P
2O
57%) 250 milliliters of phosphoric acid are used in contact twice at every turn, make the solvent phase of load phosphoric acid, then, this solvent phase and 230 gram sodium chloride solutions (containing NaCl18%) are fully mixed, and finish replacement(metathesis)reaction under 60 ℃.Be separated two, and add 29 gram sodium-chlor, constantly stir, sodium-chlor is dissolved fully, get 800 milliliters of fresh solvents that contain 20%N116 again, with above-mentioned aqueous solution thorough mixing at aqueous phase.After question response finishes, water is cooled to 15 ℃, can gets solid Na
2HPO
412H
2O 148 grams.Product is chloride less than 0.2%.
Adopt method of the present invention to produce sodium hydrogen phosphate, have the following advantages:
1. raw material is cheap and easy to get, is conducive to reduce cost, expanding production.
2. all operations were all near carrying out under the room temperature, both can reduce energy consumption, can alleviate again the corrosion of equipment.
3. crystallisation by cooling products of separated is conducive to guarantee the quality of product.
4. but continuous circulation operation, raw material availability is high.
5. three-waste free discharge.
Production method provided by the invention can be applied to alkali-metal various inorganic salts (nitrate and the chlorides of lithium, sodium, potassium, pan etc.), produces corresponding dibasic alkaliine.
Claims (5)
1, the invention belongs to the phosphate production field, relate to a kind of production method of producing Sodium phosphate dibasic by sodium-chlor, it is characterized in that being raw material with sodium-chlor and phosphoric acid fully, by the primary amine kind solvent S of long-chain fat family from aqueous phase extracting HCl optionally, finish by heterogeneous replacement(metathesis)reaction between sodium-chlor and the phosphoric acid, produce Sodium phosphate dibasic, this method comprises heterogeneous replacement(metathesis)reaction, crystallisation by cooling separates and three parts of solvent reclamation, wherein heterogeneous replacement(metathesis)reaction, can between liquid-liquid-solid, carry out (single stage method), promptly carry out the heterogeneous replacement(metathesis)reaction of liquid-liquid-solid according to the slurries extraction by solvent S and solid sodium chloride and phosphoric acid solution, directly produce Sodium phosphate dibasic, its reactional equation is as follows:
Also can between liquid-liquid, carry out (two step method),, finish earlier by the replacement(metathesis)reaction between sodium chloride solution and the phosphoric acid promptly by solvent S, make SODIUM PHOSPHATE, MONOBASIC, finish by between sodium chloride solution and the SODIUM PHOSPHATE, MONOBASIC and replacement(metathesis)reaction again, make Sodium phosphate dibasic, its reactional equation is as follows:
2, method according to claim 1, it is characterized in that long-chain fat family primary amine kind solvent (S) is formed by long-chain fat family primary amine kind of extractants and mixing diluents, these extraction agents can be: secondary kiber alkyl amine (code name N-1923), higly branched chain eicosyl primary amine (code name N116), other molecular weight are 250~600 long-chain fat family primary amine kind solvent, wherein the content of extraction agent is 5~99%, is the best with 10~40%.
3, according to claim 1,2 described methods, it is characterized in that the temperature of heterogeneous replacement(metathesis)reaction is the best with 40~60 ℃, the consumption of primary amine kind of extractants is suitable with its stoichiometric number, and promptly the amount with required extraction hydrochloric acid is suitable.
4, according to claim 1,2 described methods, it is characterized in that product separation adopts cooling crystallization method, service temperature is the best with 10~20 ℃, the mother liquor after the separation continues to participate in replacement(metathesis)reaction after adding sodium-chlor and phosphoric acid.
5, according to claim 1,2 described methods, it is characterized in that the solvent phase through heterogeneous replacement(metathesis)reaction back loading hydrochloric acid, adopt ammoniacal liquor regeneration, the solvent retrieval system after regeneration is carried out replacement(metathesis)reaction.
Priority Applications (1)
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CN 87100240 CN1008353B (en) | 1987-03-09 | 1987-03-09 | Production method of sodium hydrogen phosphate from sodium chloride |
Applications Claiming Priority (1)
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CN 87100240 CN1008353B (en) | 1987-03-09 | 1987-03-09 | Production method of sodium hydrogen phosphate from sodium chloride |
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CN87100240A true CN87100240A (en) | 1988-09-21 |
CN1008353B CN1008353B (en) | 1990-06-13 |
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CN 87100240 Expired CN1008353B (en) | 1987-03-09 | 1987-03-09 | Production method of sodium hydrogen phosphate from sodium chloride |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100395179C (en) * | 2006-07-27 | 2008-06-18 | 湖北兴发化工集团股份有限公司 | Production process of disodium hydrogen phosphate |
CN105584998A (en) * | 2014-11-13 | 2016-05-18 | 黔南民族师范学院 | Method for preparing disodium hydrogen phosphate by adopting raffinate of melamine purified phosphoric acid |
-
1987
- 1987-03-09 CN CN 87100240 patent/CN1008353B/en not_active Expired
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100395179C (en) * | 2006-07-27 | 2008-06-18 | 湖北兴发化工集团股份有限公司 | Production process of disodium hydrogen phosphate |
CN105584998A (en) * | 2014-11-13 | 2016-05-18 | 黔南民族师范学院 | Method for preparing disodium hydrogen phosphate by adopting raffinate of melamine purified phosphoric acid |
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