CN1928016A - Preparation method of biological diesel oil - Google Patents
Preparation method of biological diesel oil Download PDFInfo
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- CN1928016A CN1928016A CNA2006100160400A CN200610016040A CN1928016A CN 1928016 A CN1928016 A CN 1928016A CN A2006100160400 A CNA2006100160400 A CN A2006100160400A CN 200610016040 A CN200610016040 A CN 200610016040A CN 1928016 A CN1928016 A CN 1928016A
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- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E50/00—Technologies for the production of fuel of non-fossil origin
- Y02E50/10—Biofuels, e.g. bio-diesel
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P30/00—Technologies relating to oil refining and petrochemical industry
- Y02P30/20—Technologies relating to oil refining and petrochemical industry using bio-feedstock
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Abstract
The present invention relates to biodiesel oil preparing process, and provides one biodiesel oil preparing process with solid acid and solid alkali as catalyst to lower the activating energy and raise the reaction speed. The biodiesel oil preparing process includes the following steps: reacting dried grease with high free fatty acid content, methanol or ethanol, and cosolvent in the molar ratio of 1 to 6-1 to 6.05 in the first fixed bed reactor with solid catalyst A at 60-65 deg.c for about 3 hr; separating the oil phase from others; reacting the oil phase in the second fixed bed reactor with solid catalyst B with methanol or ethanol and cosolvent at 60-65 deg.c for about 3 hr; distilling out methanol or ethanol and cosolvent; separating the biodiesel oil from glycerin phase; and distilling the biodiesel oil phase to obtain biodiesel oil product. The catalyst of the present invention has high catalytic activity and can lower the activating energy and raise the reaction speed.
Description
Technical field
The present invention relates to a kind of heterogeneous catalytic reaction that uses solid acid and solid alkali to make catalyzer is contained the preparing biodiesel from lipid of free fatty acids by height method.
Background technology
Diesel oil is a kind of important oil fuel, is the major impetus fuel of many big machineries (as truck, steamer diesel locomotive and generator etc.), has advantages such as power is big, low price, has therefore obtained using very widely.According to measuring and calculating, the annual requirement of China's diesel oil is above 8,000 ten thousand tons at present.
Mineral diesel mainly obtains by petroleum refining process.At present, the domestic petroleum production capacity is far below domestic demand to petroleum products, thereby a large amount of imports of needs.Because the variation of international form, the stability of petroleum import also is faced with the threat of some latency, if big variation takes place the petroleum import situation, will have a strong impact on the Sustainable development of national economy, may cause energy dilemma when serious.Therefore, seek more petroleum import approach, exploitation can replace the energy and improve rate of energy having become the important behave that ensures national Oil Safety.Biofuel becomes the emphasis that domestic and international novel energy develops owing to having good fuel performance, favorable environment protection energy and recyclability.
At present, the preparation method of biofuel mainly contains 4 kinds, promptly directly uses and mixes micro emulsion method, pyrolysis method and transesterify.First three methods is difficult to reach the purpose of generally using owing to there are various deficiencies.And ester-interchange method is to utilize low-carbon (LC) alcohols materials such as methyl alcohol, ethanol, glyceryl in the tri-glyceride (plant main body of oil) is replaced to get off, form longer chain fatty acid methyl esters or ethyl ester, thereby shorten the length of carbochain, increase mobile and reduction viscosity, its oil that is suitable for acting as a fuel is used.
At present, biofuel mainly is that the technology by transesterification reaction prepares, and the transesterification reaction equation is as follows:
(alcohols is example with methyl alcohol, R
1, R
2, R
3Represent different aliphatic groups respectively)
Esterification or transesterification reaction take place in vegetables oil, animal raw fat and alcohol (mainly being methyl alcohol or ethanol) in the presence of catalyzer, generate longer chain fatty acid tristearin (fatty acid methyl ester or ethyl ester, i.e. biofuel), and by product is arranged simultaneously---and glycerine generates.
Present ester-interchange method production biofuel, mainly be to adopt chemical method, traditional chemical method transesterification reaction adopts homogeneous catalyst, as NaOH, KOH, sodium methylate etc., consumption about about 1%, temperature of reaction generally is the boiling point of methyl alcohol, speed of response is fast, the transformation efficiency height, but exist significant disadvantages simultaneously: complex process, alcohol must be excessive, and subsequent technique must have corresponding pure retrieving arrangement; Energy consumption height, color and luster are dark, because unsaturated fatty acids is at high temperature apt to deteriorate in the fat, esterification products is difficult to reclaim the cost height; Product must neutralize washing and bring a large amount of trade effluents, causes environmental pollution; Generative process has the waste lye discharging, is unfavorable for environmental protection requirement.
At present, employed an acidic catalyst mainly still is a liquid acid in the reaction process, though its technology is very ripe, but in development, brought harm to human environment, also exist simultaneously the shortcoming that homogeneous catalysis itself is inevitable and can't overcome,, be difficult to continuous production as corrosive equipment, poor selectivity, product are separated with the catalyzer difficulty etc.Especially problem of environmental pollution.And in the application of single component solid super acid catalyst, main active component s-more easily loss in reaction, particularly easy inactivation under higher temperature conditions, though this class single component solid catalyst has initial preferably catalytic activity, the one way life-span is shorter.And the common sulfuric acid promoting type solid super acid catalyst part that also comes with some shortcomings at present mainly shows: carbon deposit, inactivation and work-ing life are short easily.Cause these insufficient major causes to have: (1) sulfate radical runs off because of solvation, and the sulfate radical of high valence state is reduced attitude, nucleophilic group or molecule attack super acids center and inactivation; (2) organic compound and impurity are deposited on catalyst surface and have stopped up part activity of such catalysts center in the organic compound reaction, make the new sulfate radical that replenishes not combine closely with the catalyst backbone structure, and cause carbon deposit; (3) poisoning of catalyst.
In the production of biofuel, the alkaline catalysts of using in the middle of the production process of traditional technology exists reaction not exclusively, produces a large amount of shortcomings such as waste water.Load-type solid is a kind of novel solid catalyst.Have extremely strong power supply or accept the ability of electronics as its active centre of catalyzer, compare with other catalyzer, load type solid body base catalyst has active high, selectivity and reaches the gentle product of reaction conditions well and be easy to advantages such as separation.But conventional superpower solid alkali prepare mostly complexity, cost costliness, intensity relatively poor, very easily by the CO in the atmosphere
2, H
2Contaminating impurities such as O, and specific surface area is little.
Summary of the invention
The present invention is in order to overcome weak point of the prior art, a kind of heterogeneous catalytic reaction that uses solid acid and solid alkali to make catalyzer is provided, reduce the activation energy of reaction, improve speed of response, and the use height that satisfies environmental requirement contains the method for the preparing biodiesel from lipid of free fatty acids.
The present invention is achieved through the following technical solutions:
A kind of preparation method of biofuel is characterized in that, comprises the steps:
(1) height contains the grease filtration removal mechanical impurity of free fatty acids, dehydration;
(2) to contain the grease of free fatty acids and methyl alcohol or ethanol and methyl alcohol or alcoholic acid cosolvent be 1 to dried height in molar ratio: 6-1: 6.05 ratio enters in the fixed-bed reactor that are filled with solid catalyst A, the amount of solid catalyst A is 2% of the high oil quality that contains free fatty acids, cosolvent and methyl alcohol or alcoholic acid volume ratio are 1.25: 1,60-65 ℃ of reaction about 3 hours, height is contained free fatty acid esterification in the grease of free fatty acids, and transesterification reaction takes place simultaneously, obtain oil phase, methyl alcohol or ethanol and cosolvent thereof, the glycerine phase, described solid catalyst A is TiO
2Or ZrO
2Add metal oxide Al
2O
3Form the multicomponent solid super-strong acid by precipitation, dipping and calcining and activating;
(3) oil phase and methyl alcohol or ethanol and cosolvent thereof, glycerine are separated, oil phase enters in the fixed-bed reactor that are filled with solid catalyst B, and add methyl alcohol or ethanol and methyl alcohol or alcoholic acid cosolvent therein, the mol ratio of oil phase and methyl alcohol or ethanol and cosolvent thereof is 1: 6-1: 6.05, cosolvent and methyl alcohol or alcoholic acid volume ratio are 1.25: 1,60-65 ℃ of reaction about 3 hours, transesterification reaction takes place, obtain glycerine phase, biofuel phase, methyl alcohol or ethanol and cosolvent; Afterwards, straight run distillation goes out methyl alcohol or ethanol and cosolvent, and the glycerine with remainder separates mutually with biofuel mutually again, and the biofuel after the separation is distilled mutually, obtains biofuel and plant asphalt; Wherein the amount of catalyst B is the high oil quality 2% that contains free fatty acids, and described solid catalyst B loads on Al with basic metal by the method for flooding or react
2O
3On the carrier and obtain.
The preparation method of described catalyst A is: with titanium tetrachloride and aluminum chloride is to be made into 30% solution at 1: 2 in molar ratio, ammoniacal liquor with 28% is made precipitation agent, the control pH value is 7~8, throw out after filtration, washing, grind, cross 100 mesh sieves, flooded 2 hours with 0.5mol/L sulfuric acid, suction filtration, 110 ℃ of dryings activate 3h down in 400-500 ℃, cooling obtains the superpower solid acid SO of sulfate composite titanium after placing the moisture eliminator drying
42-/TiO
2-Al
2O
3
The preparation method of described solid catalyst B is: use 20%KNO
3Solution is with Al
2O
3Powder impregnation two hours is dried powder after the filtration in 80 ℃ of baking ovens, with sample just make load-type solid K in the 700 ℃ of following roastings and the 2h that finds time
2O/Y-Al
2O
3
Isolated methyl alcohol or ethanol and cosolvent be recycle in the Returning reactor after purifying.
Alkali metal base in the step (3) is K or Mg.
The grease that described height contains free fatty acids is any in the rapeseed oil of gross cottonseed oil, agricultural seed oil, useless animal tallow and recovery.
The grease that described height contains free fatty acids through be heated to 80 ℃ enter vacuum tightness for-0.08Mpa~-0.095Mpa, temperature is 60 ℃~130 ℃ water trap dehydration.
The present invention has following technique effect:
1. the present invention adopts the heterogeneous catalysis transesterification reaction of solid catalyst A and solid catalyst B to prepare biofuel.This catalyst is active high, not only greatly reduces the activation energy of reaction, has improved the speed of reaction, also may repeatedly reclaim use.Do not have discharging of waste liquid in the whole process of production, production technique has realized zero release, the pollution-free green requirement.
2. the esterification technique that is in series of these process using solid A fixed-bed reactor and solid B fixed-bed reactor.Solid catalyst A can make any free fatty acids feedstock conversion that contains below 30% become biofuel, has the characteristics of high reaction rate and high transformation efficiency.Esterification and transesterification reaction have taken place in this reactor simultaneously.Free fatty acids in the gross cottonseed oil is effectively transformed, obtain fatty acid methyl ester.The application of this stagnant catalyst A can be simplified the treating process of stock oil, dispenses gross cottonseed oil alkali refining process for refining, has reduced the discharging of alkaline residue, has avoided environmental pollution.And, having enlarged the range of choice of stock oil, height contains the grease of free fatty acids, and the vegetable seed wet goods as agricultural seed oil, useless animal tallow and recovery all can adopt this prepared biofuel.And this solid super acid catalyst is because of adding an amount of Al
2O
3The abundant sulfur containing species on rugged catalyst surface; increased the effective acid position of catalyst surface; improve the strongly-acid of sample and to biofuel acylation reaction activity; have the advantage that activity is higher, selectivity is better, cost is low, solved the problem that exists in the engineerings such as industrial separation, recovery, recycling and regeneration of solid catalyst and product.Second reactor is the fixed-bed reactor that loaded solid catalyst B, and what carry out is solid catalyst B catalyzed transesterification.Solid catalyst B forms through steps such as the mixing of multiple organic compound, reaction, roasting are refining, in calcination process, and Al
2O
3Form a kind of many microvoids shape carrier, the highly basic factor K that calcining forms
2O loads on Al
2O
3Carrier interior aerial forms and has good selectivity and highly active carried superstrong solid alkali.It is low to have activation energy, and the fast and characteristics that can reuse of speed of response are by the modification to support of the catalyst, greatly improve the specific surface area of support of the catalyst, increased acid site density, excellent property, can effectively improve speed of response, the reaction times is short, the production efficiency height.
The transesterification reaction of carrying out in second reactor adopts excessive methanol to carry out under than homogeneous catalyst technological temperature conditions of higher, and excessive methanol reclaims with flash evaporation, and is circulated to technological process, mixes mutually with fresh methanol.Add cosolvent during reaction and improved speed of reaction.The ester class is separated in settling vessel with glycerol, by separating glycerol chemical equilibrium is moved right, to improve transformation efficiency.Biofuel reclaims the back at last at methyl alcohol and is reclaimed by reduction vaporization, purifies then and removes the glycerol of trace.The purity of fatty acid methyl ester surpasses 96%, and productive rate is near 97%.
3. this production technique not only can realize utilizing methyl alcohol to react the production biofuel, produces thing diesel oil next life but also can adopt ethanol to react.Ethanol is compared with methyl alcohol, makes than being easier to, and nontoxic, and whole process reaction mild condition, operational path are simple and safe.The more important thing is that vegetables oil and ethanol all derive from the development and utilization of agroforestry plant resources, all is renewable resources, can realize the conversion of the black energy to green energy resource.
4. this technology will adopt the cosolvent method to overcome unique unfavorable factor of heterogeneous catalysis technology---the problem that rate of mass transfer is slow, thereby it is perfect that this technology is close to.
5. owing to used the solid catalyst A and the solid catalyst B of premium properties, speed of reaction and reaction depth (being transformation efficiency) have been improved, produce highly purified glycerine, biofuel, the purification step cost descends again, reduced waste sludge discharge simultaneously, expenses of environmental protection reduces, so production cost has reduced about 5% than domestic existing technology.
6. produce high-quality glycerine (purity 99%), reduce the production cost of biofuel greatly.
Description of drawings
Fig. 1 is the preparation method's of biofuel of the present invention process flow sheet;
Fig. 2 is the employed apparatus sketch of preparation method of biofuel of the present invention.
Embodiment
Below in conjunction with the drawings and specific embodiments to the detailed description of the invention.
Methyl alcohol and alcoholic acid cosolvent can adopt cosolvent commonly used to get final product among the present invention.The cosolvent of methyl alcohol such as small molecules lighter hydrocarbons, butane, alcoholic acid cosolvent such as tetrahydrofuran (THF), butane etc.
Embodiment 1
The preparation of solid catalyst A:
With titanium tetrachloride and aluminum chloride is to be made into 30% solution at 1: 2 in molar ratio, the 1kg catalyst A needs 435g titanium tetrachloride and 584g aluminum chloride, makes precipitation agent with 28% ammoniacal liquor, and the control pH value is 7~8, throw out after filtration, washing, grind, cross 100 mesh sieves, flooded 2 hours suction filtration with 0.5mol/L sulfuric acid, 110 ℃ of dryings, in 430 ℃ of following activation 3h, cooling obtains the superpower solid acid SO of sulfate composite titanium after placing the moisture eliminator drying
42-/TiO
2-Al
2O
3Solid catalyst A is seated among the fixed-bed reactor A, and the amount of solid catalyst A is 2% of a gross cottonseed oil quality, with replenishing of reaction.
The preparation of solid catalyst B: 1020g Al
2O
3Can produce 1kg solid catalyst B.
Use 20%KNO
3Solution is with Al
2O
3Powder impregnation two hours, KNO
3Solution is with Al
2O
3The powder submergence gets final product.After the filtration powder is dried in 80 ℃ of baking ovens, the gained sample is just made load-type solid K in the 700 ℃ of following roastings and the 2h that finds time
2O/Y-Al
2O
3Solid catalyst B contains 2% being seated in earlier in the reactor of oil quality of free fatty acids by height, with replenishing of reaction.
The preparation method's of biofuel of the present invention process flow sheet as shown in Figure 1, employed apparatus sketch as shown in Figure 2, gross cottonseed oil enters raw material storage tank after removing mechanical impurity, enter vacuum tightness and be-0.08Mpa through being heated to 80, temperature is that to enter No. 1 head tank after 60 ℃ the water trap dehydration standby, to avoid the influence of moisture to catalyst activity.
Methyl alcohol solvents tetrahydrofurane (THF) together is to prepare at 1: 1.25 according to volume ratio, and it is standby to enter No. 2 head tanks.
With dried gross cottonseed oil and 98% methyl alcohol, cosolvent tetrahydrofuran (THF) is that 1: 6 ratio enters mixing tank by transferpump in molar ratio, enter the fixed-bed reactor A that is filled with solid catalyst A after the mixing, 65 ℃ of reactions 3 hours, with free fatty acid esterification in the gross cottonseed oil, and transesterification reaction takes place simultaneously, obtain oil phase, methyl alcohol, glycerine phase.Its chemical equation is:
The reactant acidifying oil that distillates mouthful from the reaction tower cat head, small amount of methanol and molten thing and methyl alcohol and cosolvent thereof are that 1: 6 ratio enters mixing tank by transferpump in molar ratio altogether, to fixed-bed reactor B, fixed-bed reactor B is by steam heating, continuation was 65 ℃ of reactions 3 hours, transesterification reaction takes place, reaction generates glycerine, biofuel, and its chemical equation is:
There are water, glycerine, excessive methyl alcohol, biofuel among the fixed-bed reactor B.
Reaction tower A, B cat head methanol steam are by one group of interchanger, and condensation enters the methyl alcohol storage tank No. 8, and it is standby to pump into No. 2 methanol feedstock storage tanks by pump.Reaction tower B cat head distillates mouthful mixture of the biofuel (methyl esters class), methyl alcohol and a small amount of glycerine that generate, by No. 5 settlement separators, the biofuel at separator top and carbinol mixture enter flashing tower No. 6, steam is heated to 65 ℃, after No. 6 the flash drum overhead methanol steams pass through second group of interchanger condensation, enter the methyl alcohol storage tank No. 8, it is standby to pump into No. 2 methanol feedstock storage tanks by pump.No. 6 the flashing tower bottom is the coarse biodiesel material, enters jar No. 7, waits to make with extra care.
To treat that refining material by No. 9 washing towers, feeds 2kg/m at the bottom of No. 9 washing Tatas in No. 7 jars
3, 10m
3The air of/h, cat head feed the cleaning water with feeding 1.1%, and the thick product with No. 9 washing tower cats head distillate mouthful enters the spinning liquid tripping device No. 10, isolates qualified biofuel, enters the finished product district.Waste water enters sewage works.
Distillate mouth at the bottom of the reaction tower B tower for containing the glycerol mixture of small amount of methanol, it by No. 4 flashing towers, is steam heated to 65 ℃, after No. 4 the flash drum overhead methanol steams pass through second group of interchanger condensation, enter the methyl alcohol storage tank No. 8, it is standby to pump into No. 2 methanol feedstock storage tanks by pump.No. 4 the flash tank bottom is a glycerine, to product zone.
The reaction times of above-mentioned reaction is 3-4 hour, and transformation efficiency reaches 96.7%.
Embodiment 2
The preparation of solid catalyst A:
Is to be made into 30% solution at 1: 2 with four chromium chlorides and aluminum chloride by chromium, al mole ratio, ammoniacal liquor with 28% is made precipitation agent, the control pH value is 7~8, throw out after filtration, washing, grind, cross 100 mesh sieves, flooded 2 hours with 0.5mol/L sulfuric acid, suction filtration, 110 ℃ of dryings activate 3h down in 480 ℃, cooling obtains the superpower solid acid SO of sulfate composite titanium after placing the moisture eliminator drying
42-/ZrO
2-Al
2O
3
Rapeseed oil enters raw material storage tank after removing mechanical impurity, entering vacuum tightness after being heated to 80 ℃ is that vacuum tightness is-0.095Mpa, and temperature is that to enter No. 1 head tank after 130 ℃ the water trap dehydration standby, to avoid the influence of moisture to catalyst activity.
Ethanol solvents tetrahydrofurane together is to prepare at 1: 1.25 according to volume ratio, and it is standby to enter No. 2 head tanks.
With dried rapeseed oil and 98% ethanol and cosolvent thereof is that 1: 6.05 ratio enters mixing tank by transferpump in molar ratio, enter the fixed-bed reactor A that is filled with solid catalyst A after the mixing, 60 ℃ of reactions 3 hours, with free fatty acid esterification in the rapeseed oil, and transesterification reaction takes place simultaneously, obtain oil phase, ethanol, glycerine phase.The reactant acidifying oil that distillates mouthful from the reaction tower cat head, small amount of ethanol and molten thing and ethanol and cosolvent thereof are that 1: 6.05 ratio enters mixing tank by transferpump in molar ratio altogether, to fixed-bed reactor B, fixed-bed reactor B is by steam heating, continuation was 60 ℃ of reactions 3 hours, transesterification reaction takes place, and reaction generates glycerine, biofuel.
There are water, glycerine, excess ethanol, biofuel among the fixed-bed reactor B.
Reaction tower A, B cat head alcohol vapour are by one group of interchanger, and condensation enters ethanol storage tank No. 8, and it is standby to pump into No. 2 ethanol raw material storage tanks by pump.Reaction tower B cat head distillates mouthful mixture of the biofuel, ethanol and a small amount of glycerine that generate, by No. 5 settlement separators, the biofuel at separator top and alcohol mixture enter flashing tower No. 6, steam is heated to 65 ℃, after No. 6 the flash drum overhead alcohol vapours pass through second group of interchanger condensation, enter ethanol storage tank No. 8, it is standby to pump into No. 2 ethanol raw material storage tanks by pump.No. 6 the flashing tower bottom is the coarse biodiesel material, enters jar No. 7, waits to make with extra care.
To treat that refining material by No. 9 washing towers, feeds 2kg/m at the bottom of No. 9 washing Tatas in No. 7 jars
3, 10m
3The air of/h, cat head feed the cleaning water with feeding 1%, and the thick product with No. 9 washing tower cats head distillate mouthful enters the spinning liquid tripping device No. 10, isolates qualified biofuel, enters the finished product district.Waste water enters sewage works.
Distillate mouth at the bottom of the reaction tower B tower for containing the glycerol mixture of small amount of ethanol, it by No. 4 flashing towers, is steam heated to 60 ℃, after No. 4 the flash drum overhead alcohol vapours pass through second group of interchanger condensation, enter ethanol storage tank No. 8, it is standby to pump into No. 2 ethanol raw material storage tanks by pump.No. 4 the flash tank bottom is a glycerine, to product zone.
The reaction times of above-mentioned reaction is 3-4 hour, and transformation efficiency reaches 96.7%.
The preparation method is identical with embodiment 1, and raw material is an agricultural seed oil, and the activation condition of solid catalyst A is 450 ℃ and activates 3 hours down that other processing condition are identical.
Embodiment 4
The preparation method is identical with embodiment 2, and raw material is useless animal tallow.
Claims (7)
1, a kind of preparation method of biofuel is characterized in that, comprises the steps:
(1) height contains the grease filtration removal mechanical impurity of free fatty acids, dehydration;
(2) to contain the grease of free fatty acids and methyl alcohol or ethanol and methyl alcohol or alcoholic acid cosolvent be 1 to dried height in molar ratio: 6-1: 6.05 ratio enters in the fixed-bed reactor that are filled with solid catalyst A, the amount of solid catalyst A is 2% of the high oil quality that contains free fatty acids, cosolvent and methyl alcohol or alcoholic acid volume ratio are 1.25: 1,60-65 ℃ of reaction about 3 hours, height is contained free fatty acid esterification in the grease of free fatty acids, and transesterification reaction takes place simultaneously, obtain oil phase, methyl alcohol or ethanol and cosolvent thereof, the glycerine phase, described solid catalyst A is TiO
2Or ZrO
2Add metal oxide Al
2O
3Form the multicomponent solid super-strong acid by precipitation, dipping and calcining and activating;
(3) oil phase and methyl alcohol or ethanol and cosolvent thereof, glycerine are separated, oil phase enters in the fixed-bed reactor that are filled with solid catalyst B, and add methyl alcohol or ethanol and methyl alcohol or alcoholic acid cosolvent therein, the mol ratio of oil phase and methyl alcohol or ethanol and cosolvent thereof is 1: 6-1: 6.05, cosolvent and methyl alcohol or alcoholic acid volume ratio are 1.25: 1,60-65 ℃ of reaction about 3 hours, transesterification reaction takes place, obtain glycerine phase, biofuel phase, methyl alcohol or ethanol and cosolvent; Afterwards, straight run distillation goes out methyl alcohol or ethanol and cosolvent, and the glycerine with remainder separates mutually with biofuel mutually again, and the biofuel after the separation is distilled mutually, obtains biofuel and plant asphalt; Wherein the amount of catalyst B is the high oil quality 2% that contains free fatty acids, and described solid catalyst B loads on Al with basic metal by the method for flooding or react
2O
3On the carrier and obtain.
2, the preparation method of biofuel according to claim 1, it is characterized in that, the preparation method of described catalyst A is: with titanium tetrachloride and aluminum chloride is to be made into 30% solution at 1: 2 in molar ratio, ammoniacal liquor with 28% is made precipitation agent, the control pH value is 7~8, throw out after filtration, washing, grind, cross 100 mesh sieves, flooded 2 hours with 0.5mol/L sulfuric acid, suction filtration, 110 ℃ of dryings activate 3h down in 400-500 ℃, cooling obtains the superpower solid acid SO of sulfate composite titanium after placing the moisture eliminator drying
42-/TiO2-Al
2O
3
3, the preparation method of biofuel according to claim 1 is characterized in that, the preparation method of described solid catalyst B is: use 20%KNO
3Solution is with Al
2O
3Powder impregnation two hours is dried powder after the filtration in 80 ℃ of baking ovens, with sample just make load-type solid K in the 700 ℃ of following roastings and the 2h that finds time
2O/ γ-Al
2O
3
4, the preparation method of biofuel according to claim 1 is characterized in that, isolated methyl alcohol or ethanol and cosolvent be recycle in the Returning reactor after purifying.
5, the preparation method of biofuel according to claim 1 is characterized in that, the alkali metal base in the step (3) is K or Mg.
6, the preparation method of biofuel according to claim 1 is characterized in that, the grease that described height contains free fatty acids is any in the rapeseed oil of gross cottonseed oil, agricultural seed oil, useless animal tallow and recovery.
7, the preparation method of biofuel according to claim 1 is characterized in that, the grease that described height contains free fatty acids through be heated to 80 ℃ enter vacuum tightness for-0.08Mpa~-0.095Mpa, temperature is 60 ℃~130 ℃ water trap dehydration.
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US7897798B2 (en) | 2006-08-04 | 2011-03-01 | Mcneff Research Consultants, Inc. | Methods and apparatus for producing alkyl esters from lipid feed stocks and systems including same |
US7943791B2 (en) | 2007-09-28 | 2011-05-17 | Mcneff Research Consultants, Inc. | Methods and compositions for refining lipid feed stocks |
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US8445709B2 (en) | 2006-08-04 | 2013-05-21 | Mcneff Research Consultants, Inc. | Systems and methods for refining alkyl ester compositions |
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