CN1779070A - Full component separation for cell wall of agricultural refuse - Google Patents
Full component separation for cell wall of agricultural refuse Download PDFInfo
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- CN1779070A CN1779070A CN 200510036416 CN200510036416A CN1779070A CN 1779070 A CN1779070 A CN 1779070A CN 200510036416 CN200510036416 CN 200510036416 CN 200510036416 A CN200510036416 A CN 200510036416A CN 1779070 A CN1779070 A CN 1779070A
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Abstract
A separation method of the cell wall constituent in the agricultural waste material is to treat the waste material by the low-density hydrogen peroxide in the special alkaline. So it can dissolve the much hemicellulose and the lignin then to purify the cellulose; while to separate and purify the hemicelluloses and the lignin by the organic solvent. Because of this, we can get the cellulose, hemicelluloses and the lignin. The process doesn't need to add the sodium hypochlorite so it can improve the productivity and avoid the second environmental contamination.
Description
Technical field
The invention belongs to agricultural wastes component separation field, relate in particular to full component separation for cell wall in the agricultural wastes.
Background technology
Agricultural wastes are a kind of important biomass resources, are photosynthetic products, have plurality of advantages such as output is big, renewable, the regeneration period is short, biodegradable, environmental friendliness.According to statistics, the annual agriculture straw output of China is above 600,000,000 tons.It is as fertilizer (as straw-returning), feed (feed is made in pulverizing as cornstalk), the energy (major part is the heat production of directly burning) etc. that the tradition of agricultural wastes is utilized method.In China, the utilization of agricultural wastes in these fields only accounts for about 50% of total amount, owing to do not obtain trans-utilization, still has every year the agricultural wastes that surpass 300,000,000 tons to be thrown aside in natural environment, or by open incineration, causes the pollution to ecological environment.
In recent years, obtaining new material, industrial chemicals, the energy, functional food and medicine from renewable resource trans-utilizations such as agricultural wastes has become a kind of new development trend, and a lot of national particularly developed countries have classified this as the great strategy of economy and social development.China is the big country of a fossil resource shortage, populous, economic sustained and rapid development, promote the efficient trans-utilization of agricultural wastes, has more outstanding urgency, this also is the significant problem concerning China's agricultural, rural area and peasant's development, will be the key strategy of industrial restructuring and the upgrading of China's new century.
The main component of agricultural wastes is cellulose, hemicellulose and lignin, and three's content accounts for more than 90% of agricultural wastes total amount.Agricultural wastes are converted into industrial chemicals or novel industrial materials have two kinds of methods: a kind of is that the agricultural wastes full constituent is converted into industrial products, because each component is mixed in together, this transformation efficiency is low, is difficult to obtain high-quality product; Another kind is to be separately converted to industrial products after each component of agricultural wastes is separated, this transformation efficiency height, and agricultural wastes can obtain maximum higher value application, need to solve two key technologies but separate the back conversion:
1) key component is effectively separated on the basic basis of invariable of chemical constitution;
2) separate autotelic industrial chemicals, new material or the high heating value energy of being converted into of each component.
Wherein isolation technics is primary and necessity.Yet the agricultural wastes structure is very complicated, is the product that plant was evolved in tens years.Existing studies show that, agricultural wastes cell wall structure be form with the cellulose fento as " skeleton ", around it be by hemicellulose with have the big molecule of lignin of three-dimensional net structure in conjunction with the natural complex that forms.Simultaneously, contain chemical bond types such as functional groups such as alcoholic extract hydroxyl group, phenolic hydroxyl group, carboxyl, methoxyl group and ester bond, carbon-carbon bond, acetal bonds, ehter bond, glycosidic bond in the cell membrane polymer molecule, these groups are different to the sensitivity of chemical reagent with chemical bond.Since the complexity of agricultural wastes cell wall structure, the present separating pathway that does not still have cellulose in the agricultural wastes, hemicellulose and lignin full constituent clean and effective.
Existing agricultural wastes component isolation technics comprises that heat chemistry is separated, high temperature alkalization credit from, acidifying credit from, physical chemistry (explosion) method separation etc.These isolation technics can only be separated a kind of in three kinds of components or two kinds, and other component can't be separated with more complete molecular architecture, how they are discharged in the natural environment with discarded object or even pollutant form, cause the impact to ecological environment.
It is a kind of agricultural wastes " crystallite born of the same parents " separation process under the intensification pressurized environment that heat chemistry is separated, agricultural wastes produce micromolecular compound by similar micella (micella) fracture mode through dehydration, dehydrogenation, deoxidation and decarboxylation process, form new compound by series reaction such as compression, cyclisation, polymerizations again." crystallite born of the same parents " thermochemical process is difficult to obtain cellulose, hemicellulose and the lignin macromolecule than complete structure.
Physical-chemical process is that instantaneous decompression takes place behind the short time high temperature high pressure again, by the cracked cell membrane that is softened of physical force (explosion), make the string molecular separation, can obtain the mixture of part cellulose and lignin, and water miscible hemicellulose oligosaccharides and monose and the degraded lignin that dissolves in organic solvent.
The main separating pathway of agricultural wastes are alkalization credits from, adopt the strong responsive reactant S of ether
2-Or SO
3 2-The valence bonds such as β-O-4 of plasma attack agricultural stalk lignin macromolecule inside, make the inner chemical bond of lignin macromolecule of space network be subjected to heavy damage, fracture takes place and stripping, the lignin molecule of stripping does not almost have chemical reactivity, major part is to be used for direct high-temp combustion or to be thrown into natural environment, has caused the serious environmental pollution.In pulp and paper industry, high temperature alkali chemical method is still topmost separation method, lignin structure is subjected to heavy damage, is fractured into small fragment, and most of hemicellulose also is subjected to serious degraded, change into simple acid or aldehyde compound, even the catabolite of gained is recycled,, be difficult to further chemistry or bio-transformation also because of reactivity is low, if these materials can cause serious environmental to pollute as waste discharge.And contain some residual lignin in the cellulose that obtains, need be further purified.
The acid hydrolysis of glycosidic bond utilize acid solution that the component of agricultural wastes is separated, owing to can obtain the incomplete cellulose of structure, and hemicellulose is degraded to oligosaccharides and monose, lignin also is subjected to severely degrade and takes place highly condensedly, and reactivity is very low, is difficult to further utilization.
Alkaline hydrogen peroxide is widely used in the paper pulp that lignin is rich in bleaching in pulp and paper industry, be effective delignification agent of grass as raw material and hemicellulose lytic agent.Generally believe the perhydroxyl radical ion (HOO that under alkali condition, forms
-) be the main active component of hydrogen peroxide bleaching system, on the other hand, under strong alkaline condition, particularly when heavy metal ion existed, hydrogen peroxide decomposes was hydroxyl free radical (HO) and peroxidating anion free radical (O
2 -), they can be by some connecting key between fracture lignin and the compound of polysaccharide, lignin degrading and dissolving hemicellulose.Discover, handle agricultural wastes by alkaline hydrogen peroxide, can make most hemicellulose and lignin dissolution, and then the hemicellulose and the lignin that utilize environment amenable organic solvent to separate and purify and dissolve, the full constituent that can reach agricultural wastes effectively separates, and separation process economy, cleaning, efficient.
Adopt cellulose, hemicellulose and the lignin of new technology separating high-purity from agricultural wastes of clean and effective, improved productive rate, having reached full constituent effectively separates, for agricultural wastes provide reliable theoretical foundation for feedstock production industry new material and pulp and paper industry, the development and use of renewable resources such as agricultural wastes had important scientific value and practice significance.
Summary of the invention
The objective of the invention is in order to solve the deficiencies in the prior art part, full component separation for cell wall in a kind of agricultural wastes is provided, this method can be separated cellulose, hemicellulose and lignin three big components with more complete molecular architecture, and separation process economy, cleaning, efficient.
Full component separation for cell wall in the agricultural wastes of the present invention comprises following processing step:
(1) agricultural wastes are cut into small pieces after drying, and grind, and get the part by 5~8mm sieve aperture, place 50~60 ℃ of baking ovens to keep air circulation drying 12~16h, again under 45~65 ℃, pH11~14 conditions with 1.5~3%H
2O
2Handle 4~8h, filter and obtain not molten thing one and filtrate one;
(2) under 45~65 ℃, pH11~14 conditions with 1.5~3%H
2O
2Not molten thing one is handled 6~8h, filter and obtain not molten thing two and filtrate two; Under 110~130 ℃ of conditions, adopt 80% acetate-8%HNO
3(the HNO that promptly in 80% acetic acid solution, adds 8% acetate amount
3) (solid-to-liquid ratio 1: 6~1: 12 g/ml) is handled 20~40min, filters and obtains not molten thing three and filtrate three, and not molten thing three is cellulose to not molten thing two; Filtrate three is reclaimed acetate and nitric acid through concentrating, and residue is the mixture of a spot of phenol, aldehyde, acid;
(3) filtrate one and filtrate two mixing back decompressions are concentrated, 95% ethanol that under pH 5.5 conditions, adds 3 times of (decompression concentrates 3 times of mixture of rear filtrate one and filtrate two) volumes, filtration obtains filtrate four and precipitation, and the ethanol washing precipitation with acidifying obtains hemicellulose;
(4) the filtrate four-way is crossed distillation and is reclaimed ethanol, obtains precipitation, obtains lignin through washing; Perhaps the filtrate four-way is crossed distillation and is reclaimed ethanol, and by membrane filtration, spray drying obtains lignin.
Described agricultural wastes are wheat-straw, barley-straw, rye stalk, straw stalk, cornstalk, bagasse etc.
Separate the cellulose purity obtain and be 94~97%, the rate of recovery is 90~93%, hemicellulose purity is 92~95%, the rate of recovery is 79~85%, lignin purity is 91~96%, the rate of recovery is 83~88%.
The present invention with compared with prior art have following advantage and beneficial effect:
1. the separation method of the present invention's employing is handled raw material based on the low concentration hydrogen peroxide under specific alkali condition, can make most of hemicellulose and lignin dissolution, and then, can obtain having cellulose, hemicellulose and the lignin three big components of more complete molecular structure simultaneously to hemicellulose and lignin that undissolved cellulose carries out purifying and utilizes environment amenable organic solvent to separate and purify and dissolve;
2. the separation process economy of the present invention's employing, cleaning, efficient have shortened disengaging time, have improved productive rate, and have eliminated because of adding the secondary environmental pollution that clorox causes;
3. the present invention's agricultural wastes are raw material, provide technical support to the development and use of renewable resources such as agricultural wastes.
The specific embodiment
Below in conjunction with embodiment, the present invention is described in further detail.
Embodiment 1
(1) wheat-straw is cut into small pieces after drying, and grinds, and gets the part by the 5mm sieve aperture, places 50 ℃ of baking ovens to keep the dry 16h of air circulation, uses 2%H again under 45 ℃, pH 14 conditions
2O
2Handle 6h, filter and obtain not molten thing one and filtrate one; Not molten thing one is a crude fibre, still contains the hemicellulose and the lignin of more amount;
(2) under 45 ℃, pH 14 conditions, use 2.5%H
2O
2Not molten thing one is handled 7h, filter and obtain not molten thing two and filtrate two; Under 110 ℃ of conditions, adopt 80% acetate-8%HNO
3(solid-to-liquid ratio 1: 10 g/ml) is handled 40min, filters and obtains not molten thing three and filtrate three, and not molten thing three is cellulose to not molten thing two; Filtrate three is reclaimed acetate and nitric acid through concentrating, and residue is the mixture of a spot of phenol, aldehyde, acid;
(3) filtrate one and filtrate two mixing back decompressions are concentrated, add 3 times of volume 95% ethanol under the pH5.5 condition, filtration obtains filtrate four and precipitation, and the ethanol washing precipitation with acidifying obtains hemicellulose;
(4) ethanol is reclaimed in filtrate four distillations, obtain precipitation, washing obtains lignin.
Separate the cellulose purity obtain and be 95%, the rate of recovery is 93%, hemicellulose purity is 92%, the rate of recovery is 85%, lignin purity is 91%, the rate of recovery is 86%.
Embodiment 2
(1) bagasse is cut into small pieces after drying, and grinds, and gets the part by the 8mm sieve aperture, places 60 ℃ of baking ovens to keep the dry 12h of air circulation, uses 1.5%H again under 65 ℃, pH 12.5 conditions
2O
2Handle 6h, filter and obtain not molten thing one and filtrate one; Not molten thing one is a crude fibre, still contains the hemicellulose and the lignin of more amount;
(2) under 65 ℃, pH 12.5 conditions, use 1.5%H
2O
2Not molten thing one is handled 8h, filter and obtain not molten thing two and filtrate two; Under 130 ℃ of conditions, adopt 80% acetate-8%HNO
3(solid-to-liquid ratio 1: 8 g/ml) is handled 20min, filters and obtains not molten thing three and filtrate three, and not molten thing three is cellulose to not molten thing two; Filtrate three is reclaimed acetate and nitric acid through concentrating, and residue is the mixture of a spot of phenol, aldehyde, acid;
(3) filtrate one and filtrate two mixing back decompressions are concentrated, add 3 times of volume 95% ethanol under pH 5.5 conditions, filtration obtains filtrate four and precipitation, and the ethanol washing precipitation with acidifying obtains hemicellulose;
(4) filtrate four is reclaimed ethanol through distillation, and by membrane filtration, spray drying obtains lignin.
Separate the cellulose purity obtain and be 96%, the rate of recovery is 92%, hemicellulose purity is 94%, the rate of recovery is 81%, lignin purity is 95%, the rate of recovery is 83%.
Embodiment 3
(1) the straw stalk is cut into small pieces after drying, and grinds, and gets the part by the 6mm sieve aperture, places 55 ℃ of baking ovens to keep the dry 14h of air circulation, uses 2%H again under 50 ℃, pH 12 conditions
2O
2Handle 8h, filter and obtain not molten thing one and filtrate one; Not molten thing one is a crude fibre, still contains the hemicellulose and the lignin of more amount;
(2) under 55 ℃, pH 12.5 conditions, use 2.5%H
2O
2Not molten thing one is handled 6h, filter and obtain not molten thing two and filtrate two; Under 120 ℃ of conditions, adopt 80% acetate-8%HNO
3(solid-to-liquid ratio 1: 12 g/ml) is handled 20min, filters and obtains not molten thing three and filtrate three, and not molten thing three is cellulose to not molten thing two; Filtrate three is reclaimed acetate and nitric acid through concentrating, and residue is the mixture of a spot of phenol, aldehyde, acid;
(3) filtrate one and filtrate two mixing back decompressions are concentrated, add 3 times of volume 95% ethanol under pH 5.5 conditions, filtration obtains filtrate four and precipitation, and the ethanol washing precipitation with acidifying obtains hemicellulose;
(4) filtrate four is reclaimed ethanol through distillation, obtains precipitation, and washing obtains lignin.
Separate the cellulose purity obtain and be 96%, the rate of recovery is 90%, hemicellulose purity is 93%, the rate of recovery is 85%, lignin purity is 94%, the rate of recovery is 86%.
Embodiment 4
(1) cornstalk is cut into small pieces after drying, and grinds, and gets the part by the 8mm sieve aperture, places 60 ℃ of baking ovens to keep the dry 12h of air circulation, uses 3%H again under 60 ℃, pH 11 conditions
2O
2Handle 4h, filter and obtain not molten thing one and filtrate one; Not molten thing 1 is a crude fibre, still contains the hemicellulose and the lignin of more amount;
(2) under 60 ℃, pH 11 conditions, use 2.5%H
2O
2Not molten thing one is handled 8h, filter and obtain not molten thing two and filtrate two; Under 125 ℃ of conditions, adopt 80% acetate-8%HNO
3(solid-to-liquid ratio 1: 6 g/ml) is handled 25min, filters and obtains not molten thing three and filtrate three, and not molten thing three is cellulose to not molten thing two; Filtrate three is reclaimed acetate and nitric acid through concentrating, and residue is the mixture of a spot of phenol, aldehyde, acid;
(3) filtrate one and filtrate two mixing back decompressions are concentrated, add 3 times of volume 95% ethanol under pH 5.5 conditions, filtration obtains filtrate four and precipitation, and the ethanol washing precipitation with acidifying obtains hemicellulose;
(4) filtrate four is reclaimed ethanol through distillation, and by membrane filtration, spray drying obtains lignin.
Separate the cellulose purity obtain and be 97%, the rate of recovery is 90%, hemicellulose purity is 95%, the rate of recovery is 79%, lignin purity is 93%, the rate of recovery is 84%.
Embodiment 5
(1) barley-straw is cut into small pieces after drying, and grinds, and gets the part by the 5mm sieve aperture, places 50 ℃ of baking ovens to keep the dry 15h of air circulation, uses 2%H again under 60 ℃, pH 13 conditions
2O
2Handle 6h, filter and obtain not molten thing one and filtrate one; Not molten thing one is a crude fibre, still contains the hemicellulose and the lignin of more amount;
(2) under 60 ℃, pH 13 conditions, use 3%H
2O
2Not molten thing one is handled 8h, filter and obtain not molten thing two and filtrate two; Under 125 ℃ of conditions, adopt 80% acetate-8%HNO
3(solid-to-liquid ratio 1: 8 g/ml) is handled 35min, filters and obtains not molten thing three and filtrate three, and not molten thing three is cellulose to not molten thing two; Filtrate three is reclaimed acetate and nitric acid through concentrating, and residue is the mixture of a spot of phenol, aldehyde, acid;
(3) filtrate one and filtrate two mixing back decompressions are concentrated, add 3 times of volume 95% ethanol under pH 5.5 conditions, filtration obtains filtrate four and precipitation, and the ethanol washing precipitation with acidifying obtains hemicellulose;
(4) filtrate four is reclaimed ethanol through distillation, obtains precipitation, obtains lignin through washing.
Separate the cellulose purity obtain and be 94%, the rate of recovery is 93%, hemicellulose purity is 93%, the rate of recovery is 80%, lignin purity is 96%, the rate of recovery is 83%.
Claims (3)
1. full component separation for cell wall in the agricultural wastes is characterized in that may further comprise the steps:
(1) agricultural wastes are cut into small pieces after drying, and grind, and get the part by 5~8mm sieve aperture, place 50~60 ℃ of baking ovens to keep air circulation drying 12~16h, again under 45~65 ℃, pH11~14 conditions with 1.5~3%H
2O
2Handle 4~8h, filter and obtain not molten thing one and filtrate one;
(2) under 45~65 ℃, pH11~14 conditions with 1.5~3%H
2O
2Not molten thing one is handled 6~8h, filter and obtain not molten thing two and filtrate two; Under 110~130 ℃ of conditions, adopt 80% acetate-8%HNO
3Not molten thing two is handled 20~40min, filter and obtain not molten thing three and filtrate three, not molten thing three is cellulose; Filtrate three is reclaimed acetate and nitric acid through concentrating, and residue is the mixture of a spot of phenol, aldehyde, acid;
(3) filtrate one and filtrate two mixing back decompressions are concentrated, add 95% ethanol of 3 times of volumes under the pH5.5 condition, filtration obtains filtrate four and precipitation, and the ethanol washing precipitation with acidifying obtains hemicellulose;
(4) the filtrate four-way is crossed distillation and is reclaimed ethanol, obtains precipitation, obtains lignin through washing; Perhaps the filtrate four-way is crossed distillation and is reclaimed ethanol, and by membrane filtration, spray drying obtains lignin.
2. full component separation for cell wall in the agricultural wastes according to claim 1 is characterized in that 80% acetate-8%HNO described in the step (2)
3With the solid-to-liquid ratio of not molten thing two be 1: 6~1: 12g/ml.
3. full component separation for cell wall in the agricultural wastes according to claim 1 and 2 is characterized in that described agricultural wastes are wheat-straw, barley-straw, rye stalk, straw stalk, cornstalk or bagasse.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB200510036416XA CN100500989C (en) | 2005-08-09 | 2005-08-09 | Full component separation for cell wall of agricultural refuse |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB200510036416XA CN100500989C (en) | 2005-08-09 | 2005-08-09 | Full component separation for cell wall of agricultural refuse |
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| Publication Number | Publication Date |
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| CN1779070A true CN1779070A (en) | 2006-05-31 |
| CN100500989C CN100500989C (en) | 2009-06-17 |
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Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101864455A (en) * | 2010-04-11 | 2010-10-20 | 中国海洋大学 | A kind of oxidative degradation pretreatment enteromorpha as raw material that utilizes carries out the method that alcohol fuel transforms |
| CN102733219A (en) * | 2012-02-23 | 2012-10-17 | 重庆恒远晋通科技有限公司 | Method for extracting cellulose from tobacco waste based on reductant-oxidant |
| CN103435817A (en) * | 2013-09-18 | 2013-12-11 | 湖北博斐逊生物新材料有限公司 | Method for directly extracting lignin in process of using corn bran to prepare low-molecular-weight mixed ether |
| CN103924468A (en) * | 2014-05-16 | 2014-07-16 | 长春工业大学 | Separation method of lignocellulose raw material ingredients |
| CN105297511A (en) * | 2015-11-26 | 2016-02-03 | 山东福田药业有限公司 | Separation method of organic constituent in agricultural waste |
| CN106132213A (en) * | 2014-02-10 | 2016-11-16 | 李氏技术有限责任公司 | Agricultural wastes are converted into the system and method for animal feed and other valuable raw materials |
| CN108166293A (en) * | 2017-12-04 | 2018-06-15 | 湖南省农业科学院 | The method and its system of a kind of irradiation-plant fibrous agricultural wastes of chemical method Combined Treatment |
| CN108385421A (en) * | 2018-04-08 | 2018-08-10 | 华南理工大学 | Lignocellulosic supercritical CO2Explosion and its component separation method |
Family Cites Families (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US4649113A (en) * | 1983-12-28 | 1987-03-10 | The United States Of America As Represented By The Secretary Of Agriculture | Alkaline peroxide treatment of nonwoody lignocellulosics |
| US4842877A (en) * | 1988-04-05 | 1989-06-27 | Xylan, Inc. | Delignification of non-woody biomass |
| JP2000509760A (en) * | 1997-03-14 | 2000-08-02 | ナショナル スターチ アンド ケミカル インベストメント ホールディング コーポレイション | Isolation of hemicellulose from corn fiber |
| CN1200952C (en) * | 2002-12-10 | 2005-05-11 | 华南理工大学 | Homogeneous chemical modification of hemicellulose of stalks |
| CN100485393C (en) * | 2004-09-09 | 2009-05-06 | 华南理工大学 | Separating and analyzing method for high purity cellulose without pollution |
-
2005
- 2005-08-09 CN CNB200510036416XA patent/CN100500989C/en not_active Expired - Fee Related
Cited By (10)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN101864455A (en) * | 2010-04-11 | 2010-10-20 | 中国海洋大学 | A kind of oxidative degradation pretreatment enteromorpha as raw material that utilizes carries out the method that alcohol fuel transforms |
| CN102733219A (en) * | 2012-02-23 | 2012-10-17 | 重庆恒远晋通科技有限公司 | Method for extracting cellulose from tobacco waste based on reductant-oxidant |
| CN102733219B (en) * | 2012-02-23 | 2015-04-01 | 重庆恒远晋通科技有限公司 | Method for extracting cellulose from tobacco waste based on reductant-oxidant |
| CN103435817A (en) * | 2013-09-18 | 2013-12-11 | 湖北博斐逊生物新材料有限公司 | Method for directly extracting lignin in process of using corn bran to prepare low-molecular-weight mixed ether |
| CN103435817B (en) * | 2013-09-18 | 2015-07-08 | 湖北博斐逊生物新材料有限公司 | Method for directly extracting lignin in process of using corn bran to prepare low-molecular-weight mixed ether |
| CN106132213A (en) * | 2014-02-10 | 2016-11-16 | 李氏技术有限责任公司 | Agricultural wastes are converted into the system and method for animal feed and other valuable raw materials |
| CN103924468A (en) * | 2014-05-16 | 2014-07-16 | 长春工业大学 | Separation method of lignocellulose raw material ingredients |
| CN105297511A (en) * | 2015-11-26 | 2016-02-03 | 山东福田药业有限公司 | Separation method of organic constituent in agricultural waste |
| CN108166293A (en) * | 2017-12-04 | 2018-06-15 | 湖南省农业科学院 | The method and its system of a kind of irradiation-plant fibrous agricultural wastes of chemical method Combined Treatment |
| CN108385421A (en) * | 2018-04-08 | 2018-08-10 | 华南理工大学 | Lignocellulosic supercritical CO2Explosion and its component separation method |
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