CN104262103A - Glycerine refining method - Google Patents

Glycerine refining method Download PDF

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Publication number
CN104262103A
CN104262103A CN201410548095.0A CN201410548095A CN104262103A CN 104262103 A CN104262103 A CN 104262103A CN 201410548095 A CN201410548095 A CN 201410548095A CN 104262103 A CN104262103 A CN 104262103A
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China
Prior art keywords
glycerine
phase splitter
acid
raw
alcohols
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CN201410548095.0A
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Chinese (zh)
Inventor
李彦峰
资燕
李嘉锡
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FOSHAN TIANSHENGLONG GREASE CHEMICAL Co Ltd
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FOSHAN TIANSHENGLONG GREASE CHEMICAL Co Ltd
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Priority to CN201410548095.0A priority Critical patent/CN104262103A/en
Publication of CN104262103A publication Critical patent/CN104262103A/en
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    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07CACYCLIC OR CARBOCYCLIC COMPOUNDS
    • C07C29/00Preparation of compounds having hydroxy or O-metal groups bound to a carbon atom not belonging to a six-membered aromatic ring
    • C07C29/74Separation; Purification; Use of additives, e.g. for stabilisation
    • C07C29/76Separation; Purification; Use of additives, e.g. for stabilisation by physical treatment
    • C07C29/80Separation; Purification; Use of additives, e.g. for stabilisation by physical treatment by distillation
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07CACYCLIC OR CARBOCYCLIC COMPOUNDS
    • C07C29/00Preparation of compounds having hydroxy or O-metal groups bound to a carbon atom not belonging to a six-membered aromatic ring
    • C07C29/74Separation; Purification; Use of additives, e.g. for stabilisation
    • C07C29/76Separation; Purification; Use of additives, e.g. for stabilisation by physical treatment
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07CACYCLIC OR CARBOCYCLIC COMPOUNDS
    • C07C29/00Preparation of compounds having hydroxy or O-metal groups bound to a carbon atom not belonging to a six-membered aromatic ring
    • C07C29/74Separation; Purification; Use of additives, e.g. for stabilisation
    • C07C29/88Separation; Purification; Use of additives, e.g. for stabilisation by treatment giving rise to a chemical modification of at least one compound
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07CACYCLIC OR CARBOCYCLIC COMPOUNDS
    • C07C29/00Preparation of compounds having hydroxy or O-metal groups bound to a carbon atom not belonging to a six-membered aromatic ring
    • C07C29/74Separation; Purification; Use of additives, e.g. for stabilisation
    • C07C29/94Use of additives, e.g. for stabilisation

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  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • General Chemical & Material Sciences (AREA)
  • Organic Low-Molecular-Weight Compounds And Preparation Thereof (AREA)

Abstract

The invention discloses a glycerine refining method which comprises the following steps: adding alcohol into crude glycerine for dilution, then adding an inorganic acid to form a fatty acid, first glycerine and an inorganic acid salt, then adding an alcohol auxiliary, and separating the first glycerine by using a first phase splitter; adding ferric trichloride into the separated first glycerine to form second glycerine, an iron soap and impurities, and separating the second glycerine by using a second phase splitter; adding the second glycerine and sodium hydroxide into a static mixer, regulating the pH value of the second glycerine, neutralizing and settling the excessive ferric trichloride and the iron soap, and improving the purity of the second glycerine; distilling the second glycerine. According to the scheme, the crude glycerine is preprocessed by using different auxiliaries before the step of distilling the glycerine, the substances like the fatty acid, salt, soap and ester in the glycerine are removed, so that the distilling and purifying steps lead the glycerine to a higher purity degree; in addition, the technological process in the scheme is simpler in comparison with an existing refining method, and is suitable for continuous commercialized batch production.

Description

A kind of glycerine method of refining
 
Technical field
The present invention relates to a kind of glycerine method of refining.
Background technology
In grease production, as oil splitting, saponification, grease alcoholysis, except can obtaining natural acid, soap, fatty acid methyl ester, also can produce the sugar water of about about 10%.Glycerine sugar water is the main source of natural glycerin, natural glycerin output more than 90% from oil and fat product.And for example, in biofuel volume production, produce 1 ton of biofuel and about produce 100 kg of glycerin.In many industrial production, glycerine often exists with by-product form, in such as soap production, produces glycerine when fat saponification produces soap (alkali soap).Therefore, reasonably develop these by products, meet environmental protection theory.
Pure glycerine is a kind of colourless pleasantly sweet glutinous shape liquid, can generate various derivative, as Biodegradable plastics material acid, produce raw material 1,3 propylene glycol of diesel oil antifreezing agent glyceryl ether and PTT.Because glycerine is nontoxic, therefore food, medicine, with chemical field all have important application.
Because glycerine viscosity is high and mobility is not good, in order to obtain the glycerine of high purity (more than 99.5% purity), traditional heating mode is infeasible by glycerine heating evaporation purifying, and in various purification technique, when glycerol source is from fermenter, raw glycerine contains olefin polymer, ketone, double key carbon compound and other insatiable hunger and closes organic pollution materials, use ion exchange method, membrane separation process, with vacuum distillation method purification of glycerol, first above-mentioned pollution substance must be removed, just can carry out glycerine refining.And when glycerol source is from biofuel, because of in production of biodiesel process, for improving reaction conversion ratio, often add excessive methyl alcohol and alkali catalyst, these alkali and methyl alcohol are all dissolved in byproduct glycerine, these raw glycerines from biofuel contain the materials such as soap, salt and ester, if use vacuum distillation method, thin film separation or ion exchange methods glycerine, glycerol polymerization is easily there is and Ion-exchange particles lost efficacy during production, glycerine purity is unstable, purification efficiency is not high, and production, maintenance and running cost are high.In sum, more easy pre-treating process is still needed to carry out refined glycerol to improve glycerine purity at present.
Summary of the invention
The object of this invention is to provide a kind of technique simple and be applicable to a large amount of quantity-produced glycerine method of refining, refining can go out highly purified glycerine by the method.
For achieving the above object, the technical solution used in the present invention is as follows:
A kind of glycerine method of refining, is characterized in that: comprise the steps:
(1) first, in the raw glycerine of the first phase splitter, add alcohols dilute, to improve its mobility; Secondly, in raw glycerine, add mineral acid, form lipid acid, the first glycerine and inorganic acid salt; Then, alcohol analog assistant is added in raw glycerine, to improve the separating effect of inorganic acid salt in the first phase splitter; Finally, the raw glycerine adding mineral acid and alcohols is isolated the first glycerine by the first phase splitter; Wherein, described raw glycerine and for dilute and the part by weight of described alcohols of auxiliary agent between 1:0.5 ~ 1:2.0, and the interpolation of described raw glycerine and described mineral acid must control the pH value of glycerine solution between 3.0 ~ 5.0;
(2) in isolated described first glycerine, add iron trichloride, form the second glycerine, iron soap and impurity, and isolate described second glycerine with the second phase splitter; The part by weight of described first glycerine and described iron trichloride is between 1:0.001 ~ 1:0.1;
(3) the second glycerine and sodium hydroxide are added static mixer, between pH value to 7.5 ~ 10 adjusting the second glycerine, middlely close the excessive iron trichloride of precipitation, iron soap improve the purity of the second glycerine;
(4) described second glycerine is distilled, form refined glycerol.
Further, the interpolation of described raw glycerine and the described mineral acid pH value that must control glycerine solution is in being 4.0.
Further, described alcohols is methyl alcohol or ethanol.
Further, described mineral acid is phosphoric acid, hydrochloric acid or sulfuric acid.
Further, described first phase splitter and described second phase splitter are the liquid liquid/solid-liquor separation decanting vessel with baffle plate and tank level control, or plate separator.
Further, described distillation sequence comprises methanol stripper, moisture removal and glycerol distillation.
The beneficial effect of this programme is: this programme is before step (4) carries out glycerol distillation program, utilize different auxiliary agent that raw glycerine is carried out pre-treatment, be stripped of the materials such as lipid acid in glycerine, salt, soap and ester class, therefore carry out distillation purifying program and glycerine can be refined to high purity grades, and the technical process of this programme to compare existing method of refining more simple and easy, and be applicable to commercialization and produce in a large number continuously.
Embodiment
A kind of glycerine method of refining, comprises the steps:
First stage:
(1) in raw glycerine, add alcohols to dilute.Inject the first phase splitter after using static mixer to be mixed with appropriate alcohols by raw glycerine, improve its mobility to dilute raw glycerine.
(2) in raw glycerine, add mineral acid, form lipid acid, the first glycerine and inorganic acid salt.Added by mineral acid in raw glycerine, with the alkali in neutralized crude glycerine, adjust the pH value of raw glycerine simultaneously, make the soap in raw glycerine or fat hydrolysis be lipid acid, wherein mineral acid is sulfuric acid, hydrochloric acid or commercial phosphoric acid; Must control the pH value of glycerine solution when adding mineral acid between 3.0 ~ 5.0, take pH4.0 as the best; If when pH value is too high, significantly can reduce glycerin purification usefulness, if when pH value is too low, its purity promote and not obvious and acid ion easily and Fe 2+in conjunction with formation iron dirt material.
(3) add in raw glycerine by appropriate alcohol analog assistant, the reason of adding alcohol analog assistant is that glycerine has partial solubility to inorganic acid salt, and alcohols has comparatively low solubility to inorganic acid salt, therefore can improve the separating effect of inorganic acid salt in phase splitter.
(4) with the first phase splitter, the raw glycerine adding mineral acid and alcohols is isolated the first glycerine.Due to lipid acid and glycerine mutual solubility low, the first phase splitter can be utilized to be separated into lipid acid upper strata, glycerine phase middle level and part insoluble inorganic acid salt and saponified lower floor.First phase splitter can be the liquid liquid/solid-liquor separation decanting vessel with baffle plate and tank level control, or plate separator.Lipid acid after separation separately stores, and the glycerine in middle level then continues to flow into next stage mutually.
In the first phase, alcohols is methyl alcohol or ethanol, and the part by weight of raw glycerine and the alcohol diluent added and auxiliary agent is between 1:0.50 to 1:2.00; If the addition of alcohols is lower than above-mentioned scope, then can reduce glycerin purification rate, though and the addition increasing alcohol can increase glycerin purification rate, then can increase energy consumption during alcohols distillation in back segment operation when ratio is too high.
The first stage is verified: get 100g raw glycerine with experimental data, select methyl alcohol respectively, ethanol is as the auxiliary agent of first stage, its addition is respectively 50ml, 100ml, 200ml, add phosphoric acid neutralization again and make pH=7.0, filter salt and saponified after, take out glycerin layer to reheat to 150 DEG C to remove alcohols, phosphoric acid, and moisture, finally pour separating funnel into, separation of fatty acids and glycerine, take out the glycerine after being separated and analyze glycerine purity, find along with methyl alcohol addition increases, glycerine purity also increases, respectively by 83.16% to 95.87%, and when changing methyl alcohol into ethanol, addition be 50 or 100 ml time, it is higher when glycerine purity all comparatively adds methyl alcohol, when ethanol addition is 100ml, glycerine purity is the highest by about 98.25%, but be 200 ml as increased ethanol addition again, then glycerine purity is down to 90.89% on the contrary.
Subordinate phase: iron trichloride is added in the first glycerine of first stage generation, form impurity, the second glycerine and iron soap, and isolate the second glycerine with the second phase splitter.Specific as follows:
Due to the lipid acid of isolated first glycerine of the first phase splitter through the first stage still containing residual soap, various different molecular weight, pigment and other organic impuritys, therefore iron trichloride need be added in the second phase splitter, residual soap in making glycerine mutually and lower molecular weight lipid acid generate insoluble iron soap, increase saponified removal efficiency; Because saponified (<0.1%) of trace easily causes distillation tower in back segment operation to bubble, cause distillation tower liquid level to rise instantaneously and cause system operation unstable.After adding iron trichloride, above-mentioned glycerine is met and is separated into three layers, is then separated upper strata black impurity, middle level glycerine phase and lower floor's part inorganic acid salt class and saponified with the second phase splitter.Wherein the part by weight of the iron trichloride of the first glycerine and interpolation is between 1:0.001 to 1:0.1; If the addition of iron trichloride is lower than above-mentioned scope, then can be unfavorable for hydrolysis and the precipitation of residual soap during glycerine mutually, if now in the second phase splitter, lipid acid removal effect is not good, then residual soap will make subsequent filter block by the second phase splitter, and very easily cause distillation tower in back segment operation to bubble; If the adding proportion of iron trichloride auxiliary agent is too high, then may there is scale formation in excessive iron ion in equipment, reduces equipment use usefulness.Wherein the second phase splitter can be the Liquid liquid Separation or solid-liquor separation decanting vessel with baffle plate and tank level control, or plate separator.
Subordinate phase is verified: after getting the glycerine of purifying in 100mL previous experiments and the iron trichloride mixing of 5g, surveying its saponification value is 77.88mg KOH/g with experimental data; Get the glycerine of purifying in 100mL previous experiments, not adding iron trichloride, directly to survey its saponification value be 35.33mg KOH/g.In addition, due to the easy moisture absorption of iron trichloride, two hydrate (FeCl can be generated 3-2H 2and six hydrate (FeCl O) 3-6H 2o), the aqueous solution in acid, help hydrolysis glycerine mutually in residual soap, increase saponified removal efficiency, and can with glycerine mutually in lower molecular weight lipid acid is combined, grease molecular-weight average (i.e. saponification equivalent) increase in making glycerine mutually.
Phase III: the second glycerine and sodium hydroxide are added static mixer, between pH value to 7.5 ~ 10 adjusting the second glycerine, middlely close the excessive iron trichloride of precipitation, iron soap improve the purity of the second glycerine.Specific as follows:
Through isolated second glycerine of subordinate phase, most soap, lipid acid and inorganic acid salt are removed.But before glycerine is sent into distillation sequence mutually, first isolated glycerine is injected static mixer, and mixed with the second glycerine by appropriate sodium hydroxide, the addition of the second glycerine and sodium hydroxide must control the pH value of glycerine solution between 7.5 ~ 10.0.If the addition of sodium hydroxide auxiliary agent is lower than above-mentioned scope, then iron soap formation efficiency is low, and low ph value will make the fatty acid content entering glycerol distillation tower higher excessively, then lipid acid is by the purity of the final glycerol product of impact, causes glycerine purity to be increased to more than 99.7%; If the adding proportion of sodium hydroxide auxiliary agent is higher than above-mentioned scope, then alkalescence is excessively strong, also can cause corrosion to equipment.This stage utilizes in sodium hydroxide and mineral acid, and controls the temperature of reaction of static mixer, can transfer ester class to soap and become sodium salt on the one hand, on the other hand excessive Iron trichloride hexahydrate is transformed into ironic hydroxide (Fe (OH) 3), make part unsegregated sodium salt transfer to molysite deposition be separated, and in the strainer of back segment filtering and removing.Be with removing the order of sodium salt effectively to improve the heavies viscosity at the bottom of back segment distillation sequence tower, make the tower bottom reboiler design of glycerine rectifying tower and operation more accurately easily, also can reduce cost of equipment.In addition, owing to adding sodium hydroxide, glycerine can be made mutually in slight alkalinity, contribute to preventing back segment equipment by acid attack, extend the work-ing life of back segment distillation tower tower group.
Fourth stage: the second glycerine is carried out distillation sequence, makes the second glycerine form refined glycerol.Specific as follows:
Conventional distillation sequence can be adopted to carry out purifying to glycerine.The object of distillation obtains refining glycerine, three road continuous still batterys are carried out through alcohols distillation tower, moisture distillation tower and glycerol distillation tower, sequentially remove or reclaim alcohols, moisture and other impurity, these impurity may comprise the fatty acid soaps dissolved in glycerine, polyglycerol, water and salt.Alcohols distillation tower can obtain purity more than 99.5% alcohols, and alcohols is recyclable; And the glycerine purity at the bottom of moisture distillation tower tower can be increased to more than 85%, through glycerol distillation tower, glycerol concentration can distillation and concentration further.In the design of glycerol distillation tower, because considering that the glycerine boiling point under normal pressure is 290 DEG C, but just start to decompose and polymerization reaction take place at 204 DEG C, therefore distillation must be carried out in below 15torr condition at vacuum level requirements and use thin-film evaporator as reboiler, to reduce glycerol polymerization and to go bad.The product that collection glycerol distillation tower distillates can obtain highly purified refined glycerol.
Above embodiment is merely illustrative and not limiting to the invention, therefore all equivalences done according to the method described in patent claim of the present invention change or modify, and are included in patent claim of the present invention.

Claims (6)

1. a glycerine method of refining, is characterized in that: comprise the steps:
(1) first, in the raw glycerine of the first phase splitter, add alcohols dilute, to improve its mobility; Secondly, in raw glycerine, add mineral acid, form lipid acid, the first glycerine and inorganic acid salt; Then, alcohol analog assistant is added in raw glycerine, to improve the separating effect of inorganic acid salt in the first phase splitter; Finally, the raw glycerine adding mineral acid and alcohols is isolated the first glycerine by the first phase splitter; Wherein, described raw glycerine and for dilute and the part by weight of described alcohols of auxiliary agent between 1:0.5 ~ 1:2.0, and the interpolation of described raw glycerine and described mineral acid must control the pH value of glycerine solution between 3.0 ~ 5.0;
(2) in isolated described first glycerine, add iron trichloride, form the second glycerine, iron soap and impurity, and isolate described second glycerine with the second phase splitter; The part by weight of described first glycerine and described iron trichloride is between 1:0.001 ~ 1:0.1;
(3) the second glycerine and sodium hydroxide are added static mixer, between pH value to 7.5 ~ 10 adjusting the second glycerine, middlely close the excessive iron trichloride of precipitation, iron soap improve the purity of the second glycerine;
(4) described second glycerine is distilled, form refined glycerol.
2. a kind of glycerine method of refining according to claim 1, is characterized in that: the pH value that the interpolation of raw glycerine and described mineral acid described in step (1) must control glycerine solution is in being 4.0.
3. a kind of glycerine method of refining according to claim 1, is characterized in that: described alcohols is methyl alcohol or ethanol.
4. a kind of glycerine method of refining according to claim 1, is characterized in that: described mineral acid is phosphoric acid, hydrochloric acid or sulfuric acid.
5. a kind of glycerine method of refining according to claim 1, is characterized in that: described first phase splitter and described second phase splitter are the liquid liquid/solid-liquor separation decanting vessel with baffle plate and tank level control, or plate separator.
6. a kind of glycerine method of refining according to claim 1, is characterized in that: described distillation sequence comprises methanol stripper, moisture removal and glycerol distillation.
CN201410548095.0A 2014-10-16 2014-10-16 Glycerine refining method Pending CN104262103A (en)

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101759526A (en) * 2010-01-13 2010-06-30 肖志红 Refining production method of glycerin
TW201024254A (en) * 2008-12-17 2010-07-01 Ind Tech Res Inst Method for refining glycerin
KR20140107878A (en) * 2013-02-28 2014-09-05 (주)신흥유업 Refining apparatus of glycerin

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TW201024254A (en) * 2008-12-17 2010-07-01 Ind Tech Res Inst Method for refining glycerin
CN101759526A (en) * 2010-01-13 2010-06-30 肖志红 Refining production method of glycerin
KR20140107878A (en) * 2013-02-28 2014-09-05 (주)신흥유업 Refining apparatus of glycerin

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Application publication date: 20150107