Academic literature on the topic 'Straw cellulose'
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Journal articles on the topic "Straw cellulose"
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Shi, Yong, Tao Yan, Yong Ze Wang, Jin Fang Zhao, and Sheng De Zhou. "The Study of the Dilute Acid Pretreatment Technology of Corn Stover and Rice Straw." Advanced Materials Research 550-553 (July 2012): 480–83. http://dx.doi.org/10.4028/www.scientific.net/amr.550-553.480.
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Ethanol production from lignocellulosic materials provides an alternative energy production system. Dilute sulfuric acid pretreatment of corn straw and rice straw and enzymatic hydrolysis of cellulose were investigated in this study. The straw was pretreated at 121°C with different sulfuric acid concentrations (1, 2, 3, 4and 5%, v/v) and residence times (30, 60, and 90 min). The concentration and conversion of total reducing sugars were analyzed. Pretreatment residence time play a key role in increase glucose concentration comparing to sulfuric acid concentration. Cellulose remaining in the pretreated feedstock was highly digestible by cellulases from Trichoderma viride. The result that the saccharification yield of 72.38% and 82.84% from corn straw and rice straw by using 2% (v/v) acid pretreatment at 121°C for 60 min and saccharifying with cellulase preparations.
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Beyisa Benti Diro, Tadessa Daba, and Temam Gemeda Genemo. "Production and characterization of cellulase from mushroom (Pleurotus ostreatus) for effective degradation of cellulose." International Journal of Biological and Pharmaceutical Sciences Archive 2, no. 1 (August 30, 2021): 135–50. http://dx.doi.org/10.53771/ijbpsa.2021.2.1.0066.
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Cellulases are a group of hydrolytic enzymes capable of hydrolyzing the most abundant organic polymer that means cellulose to smaller sugar components including glucose subunits. The aim of this study was to screen cellulase producing oyster mushroom collected from Eucalyptus tree bark to evaluate the in vitro production of cellulase by Pleurotus ostreatus using different lignocellulosic substrates, and to characterize the cellulase produced with respect to changes in pH, temperature, and concentration of substrates. A total of ten mushroom specimens were randomly collected from Eucalyptus tree bark in the premise of Holetta Agricultural Research Center campus. All of the collected mushroom specimens were identified morphologically and biochemically as Pleurotus ostreatus and also screened for their ability to produce cellulase by detecting and measuring zone of hydrolysis on commercial media containing Carbxymethyl Cellulose (CMC) as the sole carbon source. These mushroom specimens were cultivated using both solid state fermentation and submerged fermentation systems supplemented with different lignocellulosic substrates (wheat straw, teff straw, bean straw, wood fiber and Eucalyptus tree bark) to identify the most suitable medium for the production of cellulase. The highest enzyme production was obtained on bean straw and wheat straw which resulted in 0.191 U/ml, 0.868 U/ml and 0.389 U/ml; and 0.216 U/ml, 0.444 U/ml, and 0.245 U/ml of FPase, CMCase, and β-glucosidase in solid state fermentation. The lowest values were, however, obtained in media containing wood fiber in both solid state fermentation and submerged fermentation. Comparison of the lignocellulosic substrates revealed that wheat straw was selected for further growth parameter optimization. The production of cellulase was higher at the 5th day of incubation period, and the optimum pH and incubation temperature required for maximum cellulase production were 4 and 30°C, respectively. Sucrose and Yeast extract at 1% concentration were found to be the most preferred carbon and nitrogen sources for cellulase production by Pleurotus ostreatus. The optimum pH and temperature for cell_free cellulase activity on were found to be 4 and 50°C, respectively. Generally the cellulases produced by Pleurotus ostreatus were stable and active at temperatures ranging from 20-50°C. These characteristics hopefully would make this enzyme potentially attractive in a variety of industrial applications including animal feed treatments. There was a linear relationship between cellulase and its substrate concentration for there was an increase in activity with increase in substrate concentration. The relationship between rate of reaction and substrate concentration depended on the affinity of the enzyme for its substrate. Finally the cellulase was tested for its ability to saccharify agricultural wastes and the results showed the highest release of sugars from wheat straw.
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Gao, Chongfeng, Yang Zhang, Yaoyao Cao, Weihua Xiao, and Lujia Han. "Effect of Ultrafine Grinding Pretreatment on the Cellulose Fibers and Nanocrystals from Wheat Straw." Journal of Biobased Materials and Bioenergy 14, no. 3 (June 1, 2020): 369–75. http://dx.doi.org/10.1166/jbmb.2020.1962.
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To investigate the effect of ultrafine grinding pretreatment on the isolation of wheat straw cellulose fibers and nanocrystals, wheat straw at cellular scale (50–30 m) were produced with different ultrafine grinding time prior to extract cellulose fibers and nanocrystals. Cellulose fibers were obtained by 4% sodium hydroxide and alkaline hydrogen peroxide treatment from ultrafine ground wheat straw. Morphological changes were observed using scanning electron microscopy (SEM). Fourier transform infrared (FTIR) spectroscopy showed the removal of non-cellulosic components and the rearrangement of hydrogen bonds in cellulose. X-ray diffraction (XRD) analysis revealed the decrease of crystalline index with grinding time prolonged and the formation of cellulose II in alkali treated 8.0 h ultrafine ground wheat straw. Cellulose nanocrystals were produced from these cellulose fibers using 64% sulfuric acid hydrolysis treatment. Morphological examination through atomic force microscope (AFM) showed that the length of rod-like CNCs decreased with prolonged ultrafine grinding time in 2.0 h and then increased due to the formation of cellulose II.
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Hetzler, Stephan, Daniel Bröker, and Alexander Steinbüchel. "Saccharification of Cellulose by Recombinant Rhodococcus opacus PD630 Strains." Applied and Environmental Microbiology 79, no. 17 (June 21, 2013): 5159–66. http://dx.doi.org/10.1128/aem.01214-13.
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ABSTRACTThe noncellulolytic actinomyceteRhodococcus opacusstrain PD630 is the model oleaginous prokaryote with regard to the accumulation and biosynthesis of lipids, which serve as carbon and energy storage compounds and can account for as much as 87% of the dry mass of the cell in this strain. In order to establish cellulose degradation inR. opacusPD630, we engineered strains that episomally expressed six different cellulase genes fromCellulomonas fimiATCC 484 (cenABC,cex,cbhA) andThermobifida fuscaDSM43792 (cel6A), thereby enablingR. opacusPD630 to degrade cellulosic substrates to cellobiose. Of all the enzymes tested, five exhibited a cellulase activity toward carboxymethyl cellulose (CMC) and/or microcrystalline cellulose (MCC) as high as 0.313 ± 0.01 U · ml−1, but recombinant strains also hydrolyzed cotton, birch cellulose, copy paper, and wheat straw. Cocultivations of recombinant strains expressing different cellulase genes with MCC as the substrate were carried out to identify an appropriate set of cellulases for efficient hydrolysis of cellulose byR. opacus. Based on these experiments, the multicellulase gene expression plasmid pCellulose was constructed, which enabledR. opacusPD630 to hydrolyze as much as 9.3% ± 0.6% (wt/vol) of the cellulose provided. For the direct production of lipids from birch cellulose, a two-step cocultivation experiment was carried out. In the first step, 20% (wt/vol) of the substrate was hydrolyzed by recombinant strains expressing the whole set of cellulase genes. The second step was performed by a recombinant cellobiose-utilizing strain ofR. opacusPD630, which accumulated 15.1% (wt/wt) fatty acids from the cellobiose formed in the first step.
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Hrabalova, Marta, Manfred Schwanninger, Rupert Wimmer, Adriana Gregorova, Tanja Zimmermann, and Norbert Mundigler. "Fibrillation of flax and wheat straw cellulose: Effects on thermal, morphological, and viscoelastic properties of poly(vinylalcohol)/fibre composites." BioResources 6, no. 2 (March 23, 2011): 1631–47. http://dx.doi.org/10.15376/biores.6.2.1631-1647.
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Nano-fibrillated cellulose was produced from flax and wheat straw cellulose pulps by high pressure disintegration. The reinforcing potential of both disintegrated nano-celluloses in a polyvinyl-alcohol matrix was evaluated. Disintegration of wheat straw was significantly more time and energy consuming. Disintegration did not lead to distinct changes in the degree of polymerization; however, the fibre diameter reduction was more than a hundredfold, creating a nano-fibrillated cellulose network, as shown through field-emission-scanning electron microscopy. Composite films were prepared from polyvinyl alcohol and filled with nano-fibrillated celluloses up to 40% mass fractions. Nano-fibrillated flax showed better dispersion in the polyvinyl alcohol matrix, compared to nano-fibrillated wheat straw. Dynamic mechanical analysis of composites revealed that the glass transition and rubbery region increased more strongly with included flax nano-fibrils. Intermolecular interactions between cellulose fibrils and polyvinyl alcohol matrix were shown through differential scanning calorimetry and attenuated total reflection-Fourier transform infrared spectroscopy. The selection of appropriate raw cellulose material for high pressure disintegration was an indispensable factor for the processing of nano-fibrillated cellulose, which is essential for the functional optimization of products.
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Poomai, Nutt, Wilailak Siripornadulsil, and Surasak Siripornadulsil. "Cellulase Enzyme Production from Agricultural Waste by Acinetobacter sp. KKU44." Advanced Materials Research 931-932 (May 2014): 1106–10. http://dx.doi.org/10.4028/www.scientific.net/amr.931-932.1106.
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Due to a high ethanol demand, the approach for effective ethanol production is important and has been developed rapidly worldwide. Several agricultural wastes are highly abundant in celluloses and the effective cellulase enzymes do exist widely among microorganisms. Accordingly, the cellulose degradation using microbial cellulase to produce a low-cost substrate for ethanol production has attracted more attention. In this study, the cellulase producing bacterial strain has been isolated from rich straw and identified by 16S rDNA sequence analysis as Acinetobacter sp. KKU44. This strain is able to grow and exhibit the cellulase activity. The optimal temperature for its growth and cellulase production is 37 °C. The optimal temperature of bacterial cellulase activity is 60 °C. The cellulase enzyme from Acinetobacter sp. KKU44 is heat-tolerant enzyme. The bacterial culture of 36 h. showed highest cellulase activity at 120 U/mL when grown in LB medium containing 2% (w/v). The capability of Acinetobacter sp. KKU44 to grow in cellulosic agricultural wastes as a sole carbon source and exhibiting the high cellulase activity at high temperature suggested that this strain could be potentially developed further as a cellulose degrading strain for a production of low-cost substrate used in ethanol production.
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Chen, Hui, Lian Jie Wang, Tao Zhang, Meng Yu, and Xin Ming Wang. "Effects of the Protein in Wheat Straw on Enzymatic Hydrolysis." Advanced Materials Research 690-693 (May 2013): 1198–202. http://dx.doi.org/10.4028/www.scientific.net/amr.690-693.1198.
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The article used acid protease to remove the protein in wheat straw, and investigated the influence of wheat straw without the protein to enzymatic hydrolysis. By the single factor experiments, the cellulose degradation rate of wheat straw removed the protein was significantly higher than untreated, in the same conditions of enzymatic hydrolysis. It is shortening 24h of enzymatic hydrolysis time and reducing enzyme dosage 90mg/g. By the orthogonal experiments, the optimal reaction conditions for enzymatic hydrolysis of wheat straw with protein removed is the cellulase dosage 170mg, enzymatic time 56h, solid-liquid ratio 1:20, pH 4.8, the reaction temperature 50°C. Compared to the untreated, the cellulose degradation rate increased by 35.58%.
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Song, Heming, Hongge Jia, Qingji Wang, Xinyi Zhao, Guoxing Yang, Mingyu Zhang, Hailiang Zhou, et al. "A New Environmentally-Friendly System for Extracting Cellulose from Corn Straw: The Low Temperature Laccase System." Materials 13, no. 2 (January 16, 2020): 437. http://dx.doi.org/10.3390/ma13020437.
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Corn straw is an agricultural waste. The system for extracting cellulose from corn straw at a high temperature has been widely reported by researchers. However, the system for extracting cellulose from corn straw at a low temperature has been rarely reported. In this paper, a new system for extracting cellulose from corn straw at a low temperature was reported for the first time. This new system is designated as the low temperature laccase system (LTLS). Cellulose was successfully extracted from corn straw by the LTLS, and the used solution could be recycled. Therefore, the low temperature laccase system is an environmentally-friendly system. The cellulose content in corn straw is 30–40%. The yield of cellulose extracted by LTLS was 33%. The obtained cellulose product was creamy white. The extracted cellulose samples were characterized by using infrared spectroscopy (IR), thermogravimetry (TG), and X-ray diffraction (XRD). The results were consistent with that of standard cellulose. We confirmed that the LTLS extracted cellulose from corn straw with high purity.
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Son, Nguyen Truong. "RICE STRAW CELLULOSE AEROGELS." Vietnam Journal of Science and Technology 56, no. 2A (June 21, 2018): 118–25. http://dx.doi.org/10.15625/2525-2518/56/2a/12639.
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In this study, cellulose was obtained from rice straw by dewaxing with Soxhlet extraction and treating with sodium hydroxide and hydrogen peroxide. The obtained cellulose was used to successfully fabricate cellulose aerogels with a binder by freeze drying technique. The materials were then functionalized with methyltrimethoxysilane (MTMS) to achieve hydrophobicity. The morphology, pore structure and other properties of the aerogels were characterized by scanning electron microscopy (SEM), X-ray powder diffraction (XRD), Fourier-transform infrared spectroscopy (FTIR), thermogravimetrical analysis (TGA), thermal conductivity and water contact angle (WCA) measurements. The rice straw cellulose aerogels exhibited very low specific density (0.0412-0.0470 g/cm3), high porosity (> 96 %), superhydrophobicity (WCA > 137o) and low thermal conductivity (0.034-0.036 W/(m.K)). The aerogels showed good oil adsorption capacity of 15.66-16.09 g/g.
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Ratanakamnuan, Usarat, and Yan Yong Ninsin. "Synthesis of Rice Straw Cellulose Ester for Use as Biodegradable Plastic Film." Advanced Materials Research 488-489 (March 2012): 980–84. http://dx.doi.org/10.4028/www.scientific.net/amr.488-489.980.
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In this research, the feasibility to obtain cellulose film from rice straw was investigated. After delignification and bleaching of rice straw, the rice straw pulp was treated by acid hydrolysis in order to obtain rice straw cellulose powder. After that, the esterification of rice straw cellulose was carried out by using lauroyl chloride as an esterifying agent, toluene and pyridine as a solvent and a catalyst, respectively. The optimum condition for esterification was examined in terms of temperature and reaction time. Chemical structure and properties of modified cellulose such as morphology, thermal stability, and solubility were investigated. The rice straw cellulose ester film was prepared by casting method and the films obtained were tested for their tensile properties.
Dissertations / Theses on the topic "Straw cellulose"
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Theng, Dyna. "Feasibility of incorporating treated lignin and cellulose nanofiber in fiberboards made from corn stalk and rice straw." Doctoral thesis, Universitat de Girona, 2017. http://hdl.handle.net/10803/461717.
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Agricultural waste is of particularly interest due to abudant, cheap, widely available worldwide and renewable material. It represent a good option for wood sources substitution, containing similar in chemical and physical characteristics. The present Doctoral Thesis studies the possibility of substituting wood sources by crop residues and replacing synthetic binders by natural adhesives in fiberboard production. Corn and rice biomass were selected as raw materials, followed by thermo-mechanical pulping (TMP) pretreatment. Fiberboards made of TMP of both crop residues without any binder presented lower mechanical properties than commercial ones (which contained synthetic binder). In term of physical properties, lower water absorption and thickness swelling were found for the fiberboards made of crop residues than for the commercial one. Overall, the present study shows a more sustainable and effective way of producing cellulose-based fiberboards without aid of any synthetic binder, contributing thus to both technical and environmental aspects of fiberboard manufacturingEls residus agrícoles tenen un gran interès per ser un material abundant , barat, àmpliament disponible a tot el món i renovable. Es tracta d'una bona opció per substituir la fusta, i presenta característiques físiques i químiques similars a aquesta. La present tesi doctoral estudia la possibilitat de substituir la fusta i els aglutinants sintètics per residus de cultius i adhesius naturals respectivament en la producció panell de fibres. La biomassa de blat de moro i arròs sotmesa a un tractament termomecànic (TMP)es va seleccionar com a matèria primera. El panell de fibra resultant d'ambdós residus sense cap tipus d'aglutinant presentaven propietats mecàniques més baixes que els panells comercials (que contenien un lligant sintètic). Respecte a les propietats físiques, es va observar un augment de volum i espessor al absorbir aigua menors en el panell de fibres naturals que no pas en els comercials. En general, el present estudi mostra una forma més sostenible i efectiva de produir panells de fibra a base de cel·lulosa sense utilitzar aglutinant sintètic, fet que contribueix a la millora d’aspectes tècnics i ambientals en el procés de fabricació dels panells de fibra
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Warsame, Mohamed. "Saccharification of lignocellulose." Thesis, Malmö högskola, Fakulteten för hälsa och samhälle (HS), 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:mau:diva-25910.
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Den ökande efterfrågan på energi och den förväntade nedgången i råoljeproduktion har lett till ett enormt sökande efter nya energikällor.Cellväggen i växter består till stor del av lignocellulosa som i sin tur innehåller cellulosa och hemicellulosa. Dessa polysackarider är av stor betydelse för sökandet efter förnyelsebar energi.Cellväggen måste förbehandlas innan den kan brytas ner till enkla sockerarter. Efter nedbrytning kan monosackariderna användas till produktion av etanol eller biogas genom väl etablerade fermenteringstekniker. Syftet med denna studie var att jämföra och utvärdera några metoder som används vid degradering av lignocellulosa. Tre behandlingar har jämfört för att se vilken som ger mest avkastning i form av monosackarider. Vetehalm användes som substrat och hydrolyseras med hjälp av tre kommersiella enzymblandningar. Proverna förbehandlades före den enzymatiska reaktionen med antingen mikrovågor eller ångexplosion.Resultaten visade att en behandling med mikrovågsbestrålning eller ångexplosion kombinerad med enzymhydrolys gav högst avkastning. De slutsatser som kan dras är att en mekanisk förbehandling ökar utbytet drastiskt men är otillräcklig i sig. Ytterligare enzymatisk behandling är nödvändig att erhålla större mängder enkla sockerarter från lignocellulosa.The increasing energy demand and the anticipated decline in crude oil production has led to an immense search for new energy sources. Plant cell walls contain lignocellulose that conserve great amounts of energy. These polysaccharides are of high importance for the search of renewable energy sources. Pretreatment of the cell wall is necessary in order to hydrolyse it to its component sugars. Once degraded to monomeric sugars it can be fermented to either ethanol or biogas through established fermentation technologies.The aim of this thesis was to compare and evaluate some of the methods used for sacchrification of lignocellulose. Three treatments where compared to determine which is highest yielding. These are enzymatic hydrolysis, microwave irradiation and steam explosion.Wheat straw was used as substrate and hydrolysed by three commercial enzyme mixtures. Samples were pretreated before the enzymatic reaction with either microwave or steam explosion. Results showed that a treatment of either microwave irradiation or steam explosion combined with enzyme hydrolysis gives the highest yield in monomeric sugars. The conclusions that can be drawn are that mechanical pretreatment increases yield drastically but is insufficient in its self. Further enzymatic treatment of wheat straw is necessary to obtain high amounts of simple sugars.
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Kupiainen, L. (Laura). "Dilute acid catalysed hydrolysis of cellulose – extension to formic acid." Doctoral thesis, Oulun yliopisto, 2012. http://urn.fi/urn:isbn:9789526200033.
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Abstract New methods are being sought for the production of chemicals, fuels and energy from renewable biomass. Lignocellulosic biomass consists mainly of cellulose, hemicellulose and lignin. Cellulose and hemicellulose can be converted to their building blocks, i.e. sugars, via hydrolysis. This thesis is focused on glucose production from cellulose by dilute acid hydrolysis. Acid hydrolysis has the drawback of limited glucose yields, but it has the potential to become a short-term solution for biochemical production. During acid hydrolysis, the cellulose chain is split into glucose, which undergoes further decomposition reactions to hydroxymethylfurfural, levulinic acid, formic acid and by-products like insoluble humins. The present thesis aims to increase our knowledge on complicated acid-catalysed hydrolysis of cellulose. Glucose decomposition and cellulose hydrolysis were studied independently in laboratory experiments. Kinetic modelling was used as a tool to evaluate the results. The effect of the hydrogen ion on the reactions was evaluated using formic or sulphuric acid as a catalyst. This thesis provides new knowledge of cellulose hydrolysis and glucose decomposition in formic acid, a novel catalyst for high-temperature dilute acid hydrolysis. Glucose yields from cellulose hydrolysed in formic or in sulphuric acid were comparable, indicating that a weak organic acid could function as a cellulose hydrolysis catalyst. Biomass fibres in the form of wheat straw pulp were hydrolysed more selectively to glucose than a model component, microcrystalline cellulose, using formic acid. Glucose decomposition took place similarly in formic and sulphuric acid when the temperature dependence of the hydrogen ion concentration was taken into account, but a significant difference was found between the reaction rates of cellulose hydrolysis in formic acid and in sulphuric acid. The observations can be explained by changes in the cellulose hydrolysis mechanism. Thus, it is proposed in this thesis that side-reactions from cellulose to non-glucose compounds have a more significant role in the system than has earlier been understoodTiivistelmä Uusia menetelmiä etsitään kemikaalien, polttoaineiden ja energian valmistamiseen uusiutuvasta biomassasta. Eräs biomassa, ns. lignoselluloosa, koostuu pääasiassa selluloosasta, hemiselluloosasta ja ligniinistä. Selluloosa ja hemiselluloosa voidaan muuttaa hydrolyysin avulla niiden rakennuspalikoikseen eli sokereiksi. Tämä väitöskirja keskittyy glukoosin tuottamiseen selluloosasta laimean happohydrolyysin menetelmällä. Happohydrolyysi kärsii rajoittuneesta glukoosin saannosta, mutta sillä on potentiaalia tulla lyhyen aikavälin ratkaisuksi biokemikaalien tuotannossa. Happohydrolyysin aikana selluloosaketju pilkkoutuu glukoosiksi, joka reagoi edelleen hajoamisreaktioiden kautta hydroksimetyylifurfuraaliksi, levuliini- ja muurahaishapoiksi ja kiinteäksi sivutuotteeksi. Tämän tutkimuksen tavoitteena on kasvattaa ymmärrystämme monimutkaisesta happokatalysoidusta selluloosan hydrolyysistä. Glukoosin hajoamista ja selluloosan hydrolyysiä tutkittiin erikseen laboratoriokokein. Kineettistä mallinnusta käytettiin työkaluna arvioimaan tuloksia. Vety-ionien vaikutus reaktioihin arvioitiin käyttämällä muurahais- ja rikkihappoja katalyytteinä. Tämä väitöskirja antaa uutta tietoa selluloosan hydrolyysistä ja glukoosin hajoamisreaktioista muurahaishapossa, joka on uusi katalyytti korkean lämpötilan laimean hapon hydrolyysissä. Glukoosisaannot muurahaishappo-hydrolysoidusta selluloosasta olivat vertailukelpoisia vastaaviin rikkihappo-hydrolyysi saantoihin. Tämä viittaa siihen, että heikko orgaaninen happo voisi toimia selluloosahydrolyysin katalyyttinä. Kun katalyyttinä käytettiin muurahaishappoa, vehnän oljesta tehdyt kuidut hydrolysoituivat selektiivisemmin glukoosiksi kuin mallikomponenttina toimineen mikrokiteisen selluloosan. Kun vetyionikonsentraation lämpötilariippuvuus otettiin huomioon, glukoosi hajosi samalla tavalla sekä muurahais- että rikkihappokatalyytissä, mutta merkittävä ero havaittiin selluloosahydrolyysin reaktionopeudessa. Havainnot voidaan selittää selluloosahydrolyysin mekanismissa tapahtuvilla muutoksilla. Väitöskirjassa esitetään, että sivureaktioilla selluloosasta ei-glukoosi-tuotteiksi on merkittävä vaikutus systeemiin
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Melichar, Jindřich. "Optimalizace hliněných stavebních prvků." Master's thesis, Vysoké učení technické v Brně. Fakulta chemická, 2012. http://www.nusl.cz/ntk/nusl-216899.
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Clay building components are nowadays one of the most used building materials in the world. Except easy availability and processability clay building components have also heat storage function. This master´s thesis will be considering possibilities of improving thermal and mechanic properties of these materils by additing suitable reinforcements.
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Риляков, Ілля Леонідович. "Підвищення ефективності технології виробництва сигаретного паперу." Master's thesis, КПІ ім. Ігоря Сікорського, 2020. https://ela.kpi.ua/handle/123456789/38492.
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Актуальність теми. Розширення сировинної бази целюлозно-паперової галузі України за рахунок використання целюлози з відходів сільського господарства. Виробництво сигаретного паперу та забезпечення стабільності його якості шляхом використання новітніх досягнень в паперовому виробництві та сучасних технологій одержання целюлози.
Мета і задачі дослідження. Метою дисертаційної роботи є вивчення особливостей сигаретного паперу та вдосконалення технології його виробництва для підвищення якості продукції.
Для досягнення вказаної мети було поставлено наступні задачі:
- ознайомлення з властивостями сигаретного паперу;
- одержати солом'яну целюлозу окисно-органосольвентним способом делігніфікації та дослідити її паперотворні властивості;
- вдосконалити технологічний процес виробництва сигаретного паперу;
- вибрати і розрахувати основне технологічне обладнання.
- провести аналіз потенціалу даної роботи до використання у стартапі.
Об’єкт дослідження: процеси одержання соломяної целюлози та виготовлення сигаретного паперу.
Предмет дослідження: технологічні параметри процесу делігніфікації січки пшеничної соломи, параметри процесів формування, пресування, проклеювання і сушіння паперового полотна.
Методи дослідження: для визначення впливу технологічних параметрів одержання целюлози використовували хімічні, фізико-хімічні та фізико-механічні методи аналізу.
Обгрунтування іноваційних рішень в технологічному потоці базувалося на теоретичних методах аналізу.
Практичне значення одержаних результатів: запропонований технологічний потік з виробництва виробництва сигаретного паперу з використанням соломяної целюлози дозволить покращити якість готової продукції та зменшити її собівартість.
Апробація результатів дисертації:
Основні положення дисертаційної роботи доповідалися та обговорювалися на міжнародній закордонній конференції IV international scien-tific and practical conference The world of scitnce and innovation, London, United Kingdom, 11-13 november, 2020 р.Theme actuality. Expansion of the raw material base of the pulp and paper industry of Ukraine due to the use of pulp from agricultural waste. Production of cigarette paper and ensuring the stability of its quality through the use of the latest advances in paper production and modern technologies for pulp production. The purpose and objectives of the study. The purpose of the dissertation is to study the features of cigarette paper and improve the technology of its production to improve product quality. To achieve the goal, you need to solve the following tasks: - acquaintance with the properties of cigarette paper; - to obtain straw cellulose by oxidative-organosolvent method of delignification and to investigate its paper-forming properties; - to improve the technological process of cigarette paper production; - select and calculate the main technological equipment. - to analyze the potential of this work for use in startups. Object of study: the process of making document paper. Subject of study: processes of production of straw cellulose and production of cigarette paper. Methods of study: technological parameters of the process of delignification of wheat straw chips, parameters of the processes of forming, pressing, gluing and drying of paper web. The practical value of the obtained results: the proposed technological stream for the production of cigarette paper with the use of straw pulp will improve the quality of finished products and reduce its cost. Approval of the thesis results: The main provisions of the dissertation were reported and discussed at the international international conference IV international scien-tific and practical conference. The world of science and innovation, London, United Kingdom, 11-13 November, 2020.
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Mileo, Patrícia Câmara. "Estudo do uso de ligninas como agente compatibilizante em compósitos de polipropileno reforçados com celulose de bagaço e palha de cana-de-açúcar." Universidade de São Paulo, 2015. http://www.teses.usp.br/teses/disponiveis/97/97131/tde-05082015-152125/.
Full textAbstract:
A necessidade de desenvolver novos materiais que atendam aos aspectos econômicos e ambientais leva à busca de se fazer uso dos recursos naturais para várias aplicações tecnológicas. Assim, o desenvolvimento de materiais compósitos poliméricos utilizando fibras naturais como reforço é crescente, e vem ocupando novos segmentos de mercado, devido ao baixo custo das fibras, biodegradabilidade, menor densidade e boas propriedades mecânicas. Este trabalho teve como objetivo a separação dos principais componentes da palha e do bagaço de cana-de-açúcar para a obtenção de insumos químicos com maior valor econômico, sendo proposta a obtenção e caracterização da celulose, que será utilizada como reforço, e da lignina que atuará como agente compatibilizante em compósitos poliméricos. Para alcançar os objetivos propostos no projeto, foi realizado o pré-tratamento por ácido diluído da palha e do bagaço de cana-deaçúcar, seguido de uma etapa de deslignificação com NaOH. As polpas de bagaço e de palha foram submetidas a um pré-branqueamento com xilanase e a um branqueamento composto de extração alcalina, quelação com EDTA e tratamento com peróxido de hidrogênio. O licor negro foi acidificado para que as ligninas precipitassem. Após lavagem, secagem e maceração, as ligninas obtidas foram submetidas ou não à oxidação química em meio ácido com peróxido de hidrogênio. Além da caracterização química das frações a cada etapa do processamento, foram determinados o número Kappa, viscosidade, e também foram feitas medidas de DRX e MEV. A confirmação e extensão da reação de oxidação das ligninas foi avaliada por RMN, FTIR, MEV e TGA/DSC. Os compósitos foram obtidos por mistura em homogeneizador termocinético de alta intensidade e, depois de injetados, caracterizados por ensaios mecânicos, análises térmicas, microscopia, FTIR, medidas de ângulo de contato e energias de superfície, absorção de água e sorção dinâmica de vapor. Os resultados obtidos por meio da caracterização química, número Kappa e viscosidade indicaram expressiva remoção de hemiceluloses e de lignina durante todas as etapas de obtenção da celulose branqueada, tanto de bagaço quanto de palha, mas também houve significativa perda de celulose. Os resultados de DRX mostraram significativa diminuição da cristalinidade da celulose, para as duas biomassas estudadas. Os resultados de FTIR e RMN confirmaram a mudança na estrutura das ligninas após a oxidação. O tempo de mistura dos compósitos variou com a composição e/ou presença ou não de lignina/lignina oxidada. Nas análises de TGA observou-se que os compósitos PP/celulose sem a adição de lignina/lignina oxidada apresentaram temperatura inicial de decomposição menor do que os compósitos nos quais utilizou-se a lignina como aditivo. As curvas de DSC dos compósitos apresenta perfil e picos de temperatura e entalpias de fusão semelhantes ao PP puro. A lignina não tem notável efeito sobre as propriedades mecânicas dos compósitos, sendo que a melhora nestas propriedades é principalmente devido à incorporação das fibras de celulose. As imagens de MEV para as ligninas mostraram o grande efeito da oxidação sobre a superfície deste material. A análise do ângulo de contato estático para ligninas mostrou que a oxidação produziu um material mais hidrofóbico. As energias de superfície mostraram que os compósitos têm uma superfície mais hidrofóbica do que o PP puro. As curvas de FTIR dos materiais mostraram-se bastante similares, porém as maiores diferenças foram na intensidade das bandas correspondentes aos grupos hidroxila presentes nas fibras e, aos anéis aromáticos da estrutura da lignina. Os resultados DVS mostraram que a absorção de umidade dos compósitos é muito baixa, e corrobora os resultados de absorção de água.The need of developing new materials that attend economic and environmental aspects leads to the search of using natural resources for various technological applications. Thus, the development of polymeric composite materials using natural fibers as reinforcement is growing, and occupying new market segments, due to the low cost of fibers, biodegradability, low density and good mechanical properties. This work aimed to separate the main components of sugarcane straw and bagasse for obtaining chemical products with higher economic value, it proposes the obtaining and characterization of cellulose, which will be used as a reinforcement, and of the lignin that will act as coupling agent in polymeric composites. To achieve these objectives, it was carried out a dilute acid pretreatment of straw and bagasse of sugar cane, followed by a step of delignification with NaOH. The pulps of bagasse and straw were submitted to a pre-bleaching with xylanase and a bleaching step, composed by an alkaline extraction, EDTA chelation and a treatment with hydrogen peroxide. The black liquor was acidified for the precipitation of the lignins. After washing, drying and milling, the lignins obtained were subjected or not to an oxidation reaction in acid medium with hydrogen peroxide. In addition to the chemical characterization of the fractions at each stage of processing, the Kappa number and viscosity were determined, and it was also made measures of DRX and MEV for bagasse and straw. The confirmation of the oxidation reaction of the lignins was analysed by NMR, FTIR, MEV and TGA/DSC. The composites were obtained by mixing in thermokinetic mixer and once injected, they were characterized by mechanical tests, thermal analysis, microscopy, FTIR, contact angle and surface energies, water absorption and dynamic vapor sorption. The results obtained by the chemical characterization, Kappa number and viscosity indicated a great solubilization of hemicelluloses and lignin during all stages of production of bleached cellulose, both from bagasse and straw, but it was also observed an expressive cellulose loss. The results of DRX showed a great decrease of cellulose crystallinity, for both biomasses, demonstrating that the removal of hemicellulose and lignin affected the structure of cellulose. The FTIR and NMR results confirmed the change in structure of the lignins after oxidation. The mixing time of composites varied with the composition and the presence or absence of lignin/oxidized lignin. From TGA analyses it was observed that the composites PP/cellulose without the addition of oxidized lignin/lignin showed an initial degradation temperature lower than the composites in which lignin was used as an additive. The DSC curves of composites presents profile and temperature peaks and enthalpies of fusion similar to pure PP. Lignin has no remarkable effect on the mechanical properties of the composites, and the improvement in these properties is mainly due to the incorporation of the cellulosic fibers. MEV pictures of lignins showed that the oxidation had a great effect on the surface of this material. From the analysis of the static contact angle for lignins, it was observed that the oxidation produced a more hydrophobic material. The energies of surface showed that the composites have a more hydrophobic surface than the pure PP. FTIR curves of materials were quite similar, however the greatest differences were in the intensity of the bands corresponding to the hydroxyl groups present in the fibers and the aromatic rings of lignin structure. DVS results showed that the moisture absorption of composites is very low, and corroborates the results of water absorption.
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Kohler, Stefanie. "Pyrolyse rapide de biomasses et de leurs constituants. Application à l'établissement de lois prévisionnelles." Thesis, Vandoeuvre-les-Nancy, INPL, 2009. http://www.theses.fr/2009INPL017N/document.
Full textAbstract:
La pyrolyse rapide de différents types de celluloses, lignines, xylanes ainsi que de mélanges synthétiques obtenus à partir de ces composés modèles et aussi de deux biomasses réelles (bois de bouleau et paille de blé), est étudiée dans un four à image. Les vitesses de perte de masse pour les composés modèles étudiés sont très différentes, de manière générale la plus grande vitesse de perte de masse est observée pour la cellulose, suivie du xylane et de la lignine. La lignine se distingue par un temps de début de réaction plus petit que celui observé pour le xylane et la cellulose. Pour un temps donné, le rendement en charbon est plus grand pour la lignine que pour le xylane. La formation de charbon à partir de la cellulose est marginale. La cellulose microgranulaire produit en majorité des vapeurs et très peu de gaz. La cellulose extraite du bois de bouleau montre un comportement intermédiaire entre le comportement de la cellulose microgranulaire et les lignines. Le xylane se distingue par une vitesse de formation de gaz supérieure à celles des vapeurs. Les mélanges synthétiques à partir des trois composés modèles montrent un comportement intermédiaire. Le bois de bouleau est plus réactif que la paille de blé et son comportement peut être comparé à celui de la cellulose extraite du bois de bouleau en ce qui concerne les vitesses de perte de masse et de formation de vapeurs. Une corrélation simple se basant sur l’addition pondérée des vitesses de formation des produits est établie et les résultats obtenus sont comparés aux résultats expérimentaux. Il s’avère que les inorganiques jouent un rôle important lors de la pyrolyse : le comportement de la paille de blé, une biomasse riche en inorganiques, ne peut pas être décrit par de telles corrélations. Des écarts moins significatifs entre les valeurs obtenues par les corrélations théoriques et celles provenant des résultats expérimentaux sont observés pour les mélanges synthétiques et le bois de bouleau. En conclusion, l’hypothèse d’une corrélation simple, appelée loi prévisionnelle, ne semble pas être justifiée sur les vitesses de formation de produits. Un modèle est alors développé qui permet de décrire le comportement pyrolytique à l’aide de courbes non linéaires pour la perte de masse et la production des produits. A l’exception de la paille de blé, de nouvelles lois prévisionnelles additives peuvent alors être déterminées de manière très satisfaisante au regard de la précision des mesures expérimentalesThe fast pyrolysis of different types of celluloses, lignins, xylanes as well as different mixtures of these basic compounds and two real biomasses (birch wood and wheat straw) has been studied in an image furnace. The mass loss rates of each of the studied model compounds are very different, but usually higher for cellulose than xylane and higher for xylane than lignins. Lignins begin to react before xylane and cellulose. For a given pyrolysis time, lignins produce more char than xylane. Char formation from cellulose remains insignificant, close to zero. Microgranular cellulose gives mainly rise to vapours and very little gas is formed. Cellulose extracted from birch wood shows an intermediate behaviour between microgranular cellulose and lignins. Production rates of gases are higher than those of vapours for xylan. Regarding the mixtures of these three compounds, an intermediate behaviour can be observed. Birch wood is more reactive than wheat straw. Its pyrolytic behaviour is similar with that of cellulose extracted from birch wood with regard to concerning mass loss rates and vapours formation. A simple additive correlation relying on mass loss rates and products formations rates is elaborated and the results compared to the experimental values. It appears that inorganics play an important role in biomass pyrolysis : the pyrolytic behaviour of wheat straw, a biomass which is rich in inorganics, cannot be described by simple additive correlations. Less significant gaps between expected rates obtained by the correlations and the observed rates obtained by the experiments are found for synthetic mixtures and birch wood. In conclusion, the hypothesis of linear correlations cannot be supported for representing the products formations rates. A complete mathematical model is then developed revealing a non-linear behaviour of the variations of mass losses and products formations. Except for wheat straw, new additive correlations are then determined. The agreement with the experimental results is very satisfying with regard to the measurements accuracies
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Brahim, Marwa. "Délignification assistée par traitements physiques et chimiques à partir de résidus de colza." Thesis, Compiègne, 2016. http://www.theses.fr/2016COMP2317/document.
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Dans le contexte de la bioraffinerie végétale, notamment pour la production du bioéthanol, le prétraitement est une étape incontournable pour réduire la récalcitrance et accroitre la réactivité de la biomasse lignocellulosique vis-à-vis des procédés de conversion enzymatique/biologique. La récalcitrance est principalement due à la présence de la lignine et à la forme cristalline de la cellulose. Le but de tout prétraitement de la biomasse est d’altérer la structure du matériau lignocellulosique pour accroitre l’accessibilité de la cellulose et les hémicelluloses aux enzymes. Les prétraitements conventionnels, comportent généralement des étapes agressives, utilisant des réactifs nocifs, en exposant la matière à des températures et pressions élevées et ce pour de longues durées. Dans ce travail, nous avons développé un procédé original de délignification des résidus de colza, en combinant des prétraitements physiques (ultrasons (US), microondes (MO) et électrotechnologies (CEP, DEHT)) aux prétraitements chimiques conventionnels (organosolv, alcalin). Ce couplage a permis d’améliorer les performances du procédé en terme de rendement d’extraction des phytomélanines (jusqu’à 40 % de gain) dans le cas des pellicules de colza et de rendement de délignification (plus que 2 fois la performance d’un procédé chimique seul) dans le cas des menues pailles de colza tout en réduisant pour la plupart des technologies étudiées la sévérité du procédé global. En termes qualitatifs, la caractérisation des pâtes cellulosiques par microscopie électronique a révélé des modifications au niveau du tissu végétal représentées par l’apparition de pores au niveau des pellicules de colza et une déstructuration des fibres des menues pailles de colza traitées induisant de meilleurs rendements d’hydrolyse enzymatique.Cependant, une perte des sucres de la cellulose et des hémicelluloses a été observée avec les prétraitements physiques. L’analyse structurale des lignines récupérées a confirmé la contamination par ces sucres et a permis d’identifier certains mécanismes d’action tels que la recondensation de la lignine sous l’effet des ultrasons et le clivage des ponts férulates sous l’action des décharges électriques à haute tension. Une étude préliminaire concernant la conception d’adhésifs «verts » éco-sourcés a été menée à partir des fractions de phytomélanines isolées par les procédés étudiés. Enfin, une étude de l'incidence des technologies innovantes en terme de performances technico-économiques a été réalisée pour permettre d'envisager une éventuelle suite à plus grande échelle et il a été conclu que l’étape physique permettait de réduire l’écart entre les coûts et les revenus de l’implantation d’une telle bioraffinerieIn the context of plant biorefinery, especially for bioethanol production, pretreatment step is important to reduce the recalcitrance of lignocellulosic biomass and to increase the reactivity towards enzymatic / biological conversion processes. Recalcitrance is mainly due to the presence of lignin and crystalline cellulose. The goal of any pretreatment of biomass is to alter the structure of the lignocellulosic material in order to increase the accessibility of cellulose and hemicellulose to the enzymes. Conventional pretreatments include aggressive steps, using harmful reagents and exposing the material to high temperatures and pressures for long periods. In this work, we developed a new process for delignification of rapeseed residues, combining physical pretreatments (ultrasounds (US), microwaves (MW)) and electrotechnologies (PEF, HVED)) to conventional chemical pretreatments (Organosolv, alkaline). This coupling has improved the process in terms of phytomelanin extraction yield (up to 40 % gain) in the case of rapeseed hulls and delignification efficiency (more than 2 times more efficient than the chemical process performed alone) in the case of rapeseed straw while reducing for most studied technologies the severity of the overall process. Characterization through electron microscopy revealed changes in plant tissue represented by the appearance of pores in the treated rapeseed hulls and fiber breakdown of treated rapeseed straw inducing better enzymatic hydrolysis performance. However, loss of sugars from cellulose and hemicellulose was observed with physical pretreatments. Analysis of the recovered lignins allowed us to observe lignin modifications during physical treatments such as recondension reactions in presence of ultrasounds and cleavage of ferulates bridges with high-voltage electrical discharges. Then the formulation of « eco-sourced » adhesives from phytomélanins extracted by the previous studied processes was attempted. Finally, a study of the impact of innovative technologies in terms of technical and economic performances was carried out to consider a scale-up of these technologies. It was concluded that physical step enhanced the profitability of this biorefinery
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Mileo, Patrícia Câmara. "Aplicações da celulose de palha de cana-de-açúcar: obtenção de derivados partindo de celulose branqueada e de biocompósitos com poliuretana obtida a partir de óleo de mamona (Ricinus communis L.)." Universidade de São Paulo, 2011. http://www.teses.usp.br/teses/disponiveis/97/97131/tde-24102012-120717/.
Full textAbstract:
O processamento da cana gera vários co-produtos tais como, o bagaço e a palha, sendo esta considerada um dos principais resíduos gerados devido à mecanização da colheita. Assim, a disponibilidade e a composição desse resíduo de cana-de-açúcar têm impulsionado muitas pesquisas para o desenvolvimento de tecnologias que proporcionem o seu aproveitamento efetivo. Este trabalho teve como objetivo a separação dos principais componentes da palha de cana-de-açúcar para a obtenção de insumos químicos com maior valor econômico, sendo proposta a obtenção, caracterização e modificação da celulose desta biomassa vegetal, a ser utilizada na síntese da carboximetilcelulose (CMC) partindo da celulose branqueada por meio da combinação do processo químico com o enzimático, utilizando xilanase. Foi também avaliada a influência nas propriedades mecânicas, termogravimétricas e morfológicas das poliuretanas, ao adicionar-se celulose a esses polímeros obtidos a partir de óleo de mamona (Ricinus communis L.). A palha de cana foi pré-tratada por explosão a vapor e submetida à deslignificação alcalina. Foi realizado, posteriormente, o tratamento utilizando-se xilanase e então, a polpa foi branqueada com peróxido de hidrogênio. A polpa branqueada obtida foi utilizada para obtenção de CMC. Foi determinado o ganho de massa após a reação de obtenção e o grau de substituição da CMC obtida. A polpa deslignificada (celulose) foi utilizada como reforço para obtenção de biocompósitos com poliuretana obtida a partir do óleo de mamona. Os biocompósitos obtidos foram analisados por calorimetria exploratória diferencial (DSC), termogravimetria (TGA), foram determinadas as propriedades mecânicas, microscopia eletrônica de varredura e estudo de absorção de água. A adição de fibras de palha em matriz de PU de óleo de mamona melhorou as propriedades mecânicas comparado à matriz pura, e uma possível redução no custo sugere uma aplicação industrial do produto final.The sugarcane processing generates various agricultural byproducts such as bagasse and straw, which is considered one of the main waste generated due to the mechanization of the harvest in Brazil. Thus, the availability and composition of sugarcane straw have driven a great effort to develop technologies that provide its effective utilization. This study aimed to separate the main components of sugarcane straw to obtain chemical products with higher economic value, and the proposed obtainment is the modification and characterization of cellulose biomass to be used in the synthesis of carboxymethylcellulose (CMC) based on the bleached pulp through a combination of chemical process with the enzyme, using xylanase. It was also studied the influence in mechanical, thermal and morphological properties of polyurethane obtained from castor oil (Ricinus Communis L.) reinforced composites. Sugarcane straw was pretreated by steam explosion, delignified, treated with xylanase and bleached with hydrogen peroxide. The bleached cellulose obtained was used to produce CMC. It was determined the mass gain and the degree of substitution of the obtained CMC. The delignified pulp (cellulose) was used as reinforcement in composites of polyurethane obtained from castor oil. The biocomposites were analysed by differential scanning calorimetry (DSC), thermogravimetry (TGA), and it was also determined the mechanical properties, scanning electron microscopy (SEM) and water absorption. The incorporation of sugarcane straw fibers in the polyurethane matrix improved the mechanical properties compared with the pure matrix, and a possible reduction in the costs of production suggests a industrial application of the material.
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Wood, Ian P. "Improving Brassica napus straw for cellulosic ethanol production." Thesis, University of East Anglia, 2014. https://ueaeprints.uea.ac.uk/52206/.
Full textAbstract:
It is likely that a combination of process improvement and plant breeding will be needed to make efficient use of biomass. To achieve this, the main bottlenecks to decomposition must be identified and strategies developed to make the process more efficient. Here, the likely process and genotypic variants relevant to saccharification efficiency of Brassica napus straw were investigated using steam explosion. Screening methods were developed to gather suitable data for association mapping. Areas of the B. napus transcriptome related to processing traits were highlighted and assessed. The results show that autocatalytic pretreatments are effective, but commercial cellulases are poorly adapted to hydrolyse Brassica napus straw. Following pretreatment, saccharification was limited by uronic acids and xylose retention, which impeded cellulase performance. Surprisingly, lignin abundance correlated positively with the proportion of rapidly hydrolysable carbohydrate in the pretreated residues. Cultivars with glucan-rich straw did not necessarily produce higher saccharification or ethanol yields. Instead, variations in the non-cellulosic components were the most important differences between cultivars. Smaller scale methods were developed and rational conditions selected for screening In total, seventy-seven straw accessions were processed using four conditions which allowed processing/genotype interactions to be explored. Cultivars that produced more acetic and formic acid using suboptimal pretreatment conditions obtained higher glucose yields. Associated areas of the transcriptome suggested that genes involved in sugar nucleotide provisioning, the endogenous hydrolysis of cellulose and non-cellulosic polysaccharide synthesis were related to saccharification yields. Candidate genes aid in the development of testable hypotheses related to biomass recalcitrance and provides specific targets to conduct experiments, but molecular markers were sensitive to agronomic conditions. Arabidopsis plants deficient in a selection of candidate genes revealed subtle changes in saccharification performance. Result from this work could be the first steps towards deducing the genetic determinants of biomass recalcitrance, paving the way for further research.
Books on the topic "Straw cellulose"
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service), ScienceDirect (Online, ed. Cereal straw as a resource for sustainable biomaterials and biofuels: Chemistry, extractives, lignins, hemicelluloses and cellulose. Amsterdam: Elsevier, 2010.
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Shaffer, Daniel. Liquid fuel and chemicals from renewable cellulosic biomass. Helena, Mont. (1520 E. 6th Ave., Helena 59620): The Program, 1985.
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1949-, Bradley Cliff, and Montana. Dept. of Natural Resources and Conservation., eds. Biological delignification of wood and straw for ethanol production via solid state culture. [Helena, Mont.?]: The Dept., 1989.
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Sun, RunCang. Cereal Straw As a Resource for Sustainable Biomaterials and Biofuels: Chemistry, Extractives, Lignins, Hemicelluloses and Cellulose. Elsevier, 2010.
Find full textBook chapters on the topic "Straw cellulose"
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Bacha, Ebise Getacho, Lema Deme Shumi, and Tsigab Tekleab Teklehaimanot. "Isolation and Characterization of Microcrystalline Cellulose from Eragrostesis Teff Straw." In Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, 44–58. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-93709-6_4.
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García-Aparicio, María P., Mercedes Ballesteros, Paloma Manzanares, Ignacio Ballesteros, Alberto González, and M. José Negro. "Xylanase Contribution to the Efficiency of Cellulose Enzymatic Hydrolysis of Barley Straw." In Applied Biochemistry and Biotecnology, 353–65. Totowa, NJ: Humana Press, 2007. http://dx.doi.org/10.1007/978-1-60327-181-3_31.
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Lv, Yong, Linna Shao, Ci Song, and Jie Gao. "Preparation and Regulation Mechanism of Rape Straw Nano Cellulose Based on Ozone Pretreatment." In Lecture Notes in Electrical Engineering, 376–80. Singapore: Springer Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-1673-1_55.
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Felby, C., H. B. Klinke, H. S. Olsen, and A. B. Thomsen. "Ethanol from Wheat Straw Cellulose by Wet Oxidation Pretreatment and Simultaneous Saccharifleation and Fermentation." In ACS Symposium Series, 157–74. Washington, DC: American Chemical Society, 2003. http://dx.doi.org/10.1021/bk-2003-0855.ch010.
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Costa, Sirlene M., André Aguiar, Sandra M. Luz, Adalberto Pessoa, and Silgia A. Costa. "Sugarcane Straw and Its Cellulose Fraction as Raw Materials for Obtainment of Textile fibers and Other Bioproducts." In Polysaccharides, 513–33. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-16298-0_53.
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Xing, Wu, Xu Rou, Jing Chen-Xi, Zhang Tao, and Zhang Ke-Chang. "Screening of High Cellulase Producing Mutants and Culture of Cellulase Koji with Rice Straw and Stillage." In Biochemical Engineering for 2001, 768–70. Tokyo: Springer Japan, 1992. http://dx.doi.org/10.1007/978-4-431-68180-9_205.
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Chahal, Parminder S., Devinder S. Chahal, and George B. B. Lê. "Production of Cellulase in Solid-State Fermentation with Trichoderma reesei MCG 80 on Wheat Straw." In Seventeenth Symposium on Biotechnology for Fuels and Chemicals, 433–42. Totowa, NJ: Humana Press, 1996. http://dx.doi.org/10.1007/978-1-4612-0223-3_40.
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de Lima, Danilo Ribeiro, Marcos Henrique Luciano Silveira, Luis Del Rio, and Luiz Pereira Ramos. "Pretreatment Processes for Cellulosic Ethanol Production: Processes Integration and Modeling for the Utilization of Lignocellulosics Such as Sugarcane Straw." In Green Fuels Technology, 107–31. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-30205-8_5.
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Liu, Chuan-Fu, and Run-Cang Sun. "Cellulose." In Cereal Straw as a Resource for Sustainable Biomaterials and Biofuels, 131–67. Elsevier, 2010. http://dx.doi.org/10.1016/b978-0-444-53234-3.00005-5.
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Yao, Ri-Sheng, and Feng-He Li. "Sulfur Trioxide Micro-Thermal Explosion for Rice Straw Pretreatment." In Cellulose - Biomass Conversion. InTech, 2013. http://dx.doi.org/10.5772/50428.
Full textConference papers on the topic "Straw cellulose"
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cheikhwafa, jacky, katarzyna Glińska, Azael Fabregat, Frank Stüber, Josep Font, Jaume Giralt, Esther Torrens, and Christophe Bengoa. "Conversion of Cellulose from Rice Straw to Levulinic Acid." In 14th Mediterranean Congress of Chemical Engineering (MeCCE14). Grupo Pacífico, 2020. http://dx.doi.org/10.48158/mecce-14.dg.09.16.
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Wathsala, K. P. T., K. M. WEErakkody, and V. S. C. Weragoda. "Isolation and Characterization of Microcrystalline Cellulose from Rice Straw." In 2021 Moratuwa Engineering Research Conference (MERCon). IEEE, 2021. http://dx.doi.org/10.1109/mercon52712.2021.9525752.
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Tukmacheva, E. V., and O. F. Khamova. "THE DEPENDENCE OF GRAIN YIELD OF WINTER WHEAT ON THE INTENSITY OF CELLULOSE DECOMPOSITION IN MEADOW-CHERNOZEM SOIL." In 11-я Всероссийская конференция молодых учёных и специалистов «Актуальные вопросы биологии, селекции, технологии возделывания и переработки сельскохозяйственных культур». V.S. Pustovoit All-Russian Research Institute of Oil Crops, 2021. http://dx.doi.org/10.25230/conf11-2021-246-249.
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We studied the cellulolytic activity of the winter wheat rhizosphere soil in a stationary field experiment with the application of mineral nitrogen-phosphorus fertilizers (N15P23 per hectare of crop rotation area), straw, and seed inoculation. We estimated the crop yield depending on the intensity of cellulose decomposition in the soil. We established that the intensity of cellulose decomposition in the rhizosphere of winter wheat was most affected by the application of mineral fertilizers, as well as the combination of the application of mineral fertilizers, straw, and seed inoculation with the biopreparation rhizoagrin before sowing.
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Ratnakumar, A., A. M. P. B. Samarasekara, D. A. S. Amarasinghe, and L. Karunanayake. "Structural analysis of Cellulose Fibers and Rice Straw Ash derived from Sri Lankan Rice Straw." In 2019 Moratuwa Engineering Research Conference (MERCon). IEEE, 2019. http://dx.doi.org/10.1109/mercon.2019.8818918.
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Nanayakkara, M. P. A., W. G. A. Pabasara, A. M. P. B. Samarasekara, D. A. S. Amarasinghe, and L. Karunanayake. "Synthesis and characterization of cellulose from locally available rice straw." In 2017 Moratuwa Engineering Research Conference (MERCon). IEEE, 2017. http://dx.doi.org/10.1109/mercon.2017.7980477.
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Mingfen Niu, Saiyue Wang, Xiaoping Pang, and Wendi Xu. "Isolation and screening of degrading cellulose strain from straw compost." In 2011 International Conference on Electric Technology and Civil Engineering (ICETCE). IEEE, 2011. http://dx.doi.org/10.1109/icetce.2011.5774761.
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Weizheng, Shen, Wang Jian-bo, Kong Qingming, Guan Jing, and Wang Jingjing. "Research of Soybean Straw Cellulose and Hemicellulose Near Infrared Model." In u- and e- Service, Science and Technology 2014. Science & Engineering Research Support soCiety, 2014. http://dx.doi.org/10.14257/astl.2014.77.20.
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Weerakkody, K. M., K. P. T. Wathsala, and V. S. C. Weragoda. "Optimization of Synthesis of Nanocrystalline Cellulose Extracted from Rice Straw." In 2021 Moratuwa Engineering Research Conference (MERCon). IEEE, 2021. http://dx.doi.org/10.1109/mercon52712.2021.9525694.
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Wu, Zhiqiang, Shuzhong Wang, Jun Zhao, Lin Chen, and Haiyu Meng. "Investigation on Thermal and Kinetic Characteristics During Co-Pyrolysis of Coal and Lignocellulosic Agricultural Residue." In ASME 2014 Power Conference. American Society of Mechanical Engineers, 2014. http://dx.doi.org/10.1115/power2014-32162.
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Co-utilization of coal and lignocellulosic biomass has the potential to reduce greenhouse gases emission from energy production. As a fundamental step of typically thermochemical co-utilization (e.g., co-combustion, co-gasification), co-pyrolysis of coal and lignocellulosic biomass has remarkable effect on the conversation of the further step. Thermal behavior and kinetic analysis are prerequisite for predicting co-pyrolysis performance and modeling co-gasification and co-combustion processes. In this paper, co-pyrolysis behavior of a Chinese bituminous coal blended with lignocellulosic agricultural residue (wheat straw collected from north of China) and model compound (cellulose) were explored via thermogravimetric analyzer. Bituminous coal and lignocellulosic agricultural residue were heated from ambient temperature to 900 °C under different heating rates (10, 20, 40 °C·min−1) with various mass mixing ratios (coal/lignocellulosic agricultural residue ratios of 100, 75/25, 50/50, 25/75 and 0). Activation energy were calculate via iso-conversional method (eg. Kissinger-Akahira-Sunose, Flynn-Wall-Ozawa and Starink methods). The results indicated that pyrolysis rate of coal was accelerated by wheat straw under all mixing conditions. Cellulose promoted the pyrolysis rate of coal under equal or lesser than 50% mass ratio. Some signs about positive or passive synergistic effect were found in char yield. Char yields were lower than that calculated from individual samples for bituminous coal and wheat straw. With the increasing of cellulose mass ratio, the positive synergies on char yields were reduced, resulting in passive synergistic effect especially under higher coal/cellulose mass ratio (25/75). Nonlinearity performance was observed from the distribution of activation energy.
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Ratnakumar, A., A. M. P. B. Samarasekara, D. A. S. Amarasinghe, and L. Karunanayake. "Effect of Particle Size Distribution of Rice Straw on Cellulose Extraction." In 2020 Moratuwa Engineering Research Conference (MERCon). IEEE, 2020. http://dx.doi.org/10.1109/mercon50084.2020.9185211.
Full textReports on the topic "Straw cellulose"
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MacDonald, James D., Aharon Abeliovich, Manuel C. Lagunas-Solar, David Faiman, and John Kabshima. Treatment of Irrigation Effluent Water to Reduce Nitrogenous Contaminants and Plant Pathogens. United States Department of Agriculture, July 1993. http://dx.doi.org/10.32747/1993.7568092.bard.
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The contamination of surface and subterranean drinking water supplies with nitrogen-laden agricultural wastewater is a problem of increasing concern in the U.S. and Israel. Through this research, we found that bacteria could utilize common organic wastes (e.g. paper, straw, cotton) as carbon sources under anaerobic conditions, and reduce nitrate concentrations in wastewater to safe levels. Two species of bacteria, Cellulomonas uda and a Comamonas sp., were required for dentitrification. Celulomonas uda degraded cellulose and reduced nitrate to nitrite. In addition, it excreted soluble organic carbon needed as a food source by the Comamonas sp. for completion of denitrification. We also found that recirculated irrigation water contains substantial amounts of fungal inoculum, and that irrigating healthy plants with such water leads to significant levels of root infection. Water can be disinfected with UV, but our experiments showed that Hg-vapor lamps do not possess sufficient energy to kill spores in wastewater containing dissolved organics. Excimer lasers and Xenon flashlamps do possess the needed power levels, but only the laser had a high enough repetition rate to reliably treat large volumes of water. Ozone was highly efficacious, but it's use as a water treatment is probably best suited to moderate or low volume irrigation systems. This research provides critical data needed for the design of effective water denitrification and/or pathogen disinfection systems for different growing operations.