Production of bioethanol from wheat straw: An overview on pretreatment, hydrolysis and fermentation.
about
Efficient Eucalypt Cell Wall Deconstruction and Conversion for Sustainable Lignocellulosic BiofuelsPhysical and chemical differences between one-stage and two-stage hydrothermal pretreated hardwood substrates for use in cellulosic ethanol productionLignocellulosic agriculture wastes as biomass feedstocks for second-generation bioethanol production: concepts and recent developmentsConstruction of novel Saccharomyces cerevisiae strains for bioethanol active dry yeast (ADY) productionComparative analysis of the Trichoderma reesei transcriptome during growth on the cellulase inducing substrates wheat straw and lactoseEnzyme affinity to cell types in wheat straw (Triticum aestivum L.) before and after hydrothermal pretreatmentAn economic and ecological perspective of ethanol production from renewable agro waste: a reviewDeconstruction of lignocellulose into soluble sugars by native and designer cellulosomesComparison of ultrasonic and CO₂laser pretreatment methods on enzyme digestibility of corn stover.Optimization of a synthetic mixture composed of major Trichoderma reesei enzymes for the hydrolysis of steam-exploded wheat strawMilled cereal straw accelerates earthworm (Lumbricus terrestris) growth more than selected organic amendmentsFermented Chinese formula Shuan-Tong-Ling attenuates ischemic stroke by inhibiting inflammation and apoptosis.Effects of replacing Leymus chinensis with whole-crop wheat hay on Holstein bull apparent digestibility, plasma parameters, rumen fermentation, and microbiota.Exometabolomics approaches in studying the application of lignocellulosic biomass as fermentation feedstock.Process intensification through microbial strain evolution: mixed glucose-xylose fermentation in wheat straw hydrolyzates by three generations of recombinant Saccharomyces cerevisiaeFrom wheat straw to bioethanol: integrative analysis of a separate hydrolysis and co-fermentation process with implemented enzyme production.The mechanisms of hydrothermal deconstruction of lignocellulose: new insights from thermal-analytical and complementary studiesL-Methionine repressible promoters for tuneable gene expression in Trichoderma reesei.Optimizing Phosphoric Acid plus Hydrogen Peroxide (PHP) Pretreatment on Wheat Straw by Response Surface Method for Enzymatic Saccharification.Pyrolysis characteristics and kinetics of lignin derived from enzymatic hydrolysis residue of bamboo pretreated with white-rot fungusCharacterization of a novel dye-decolorizing peroxidase (DyP)-type enzyme from Irpex lacteus and its application in enzymatic hydrolysis of wheat straw.Comparison of high-titer lactic acid fermentation from NaOH- and NH3-H2O2-pretreated corncob by Bacillus coagulans using simultaneous saccharification and fermentation.Biomass digestibility is predominantly affected by three factors of wall polymer features distinctive in wheat accessions and rice mutantsEvaluation of a pilot-scaled paddle dryer for the production of ethanol from lignocellulose including inhibitor removal and high-solids enzymatic hydrolysis.Pretreatment methods of lignocellulosic biomass for anaerobic digestionAlgal biomass conversion to bioethanol - a step-by-step assessment.Laccase applications in biofuels production: current status and future prospects.Pretreatment methods for bioethanol production.Multifunctional cellulolytic auxiliary activity protein HcAA10-2 from Hahella chejuensis enhances enzymatic hydrolysis of crystalline cellulose.Enhancing the enzymatic saccharification of bamboo shoot shell by sequential biological pretreatment with Galactomyces sp. CCZU11-1 and deep eutectic solvent extraction.Sequential Aqueous Ammonia Extraction and LiCl/N,N-Dimethyl Formamide Pretreatment for Enhancing Enzymatic Saccharification of Winter Bamboo Shoot Shell.Impact of co-pretreatment of calcium hydroxide and steam explosion on anaerobic digestion efficiency with corn stover.Production of biofuels and biomolecules in the framework of circular economy: A regional case study.Valorization of agricultural wastes as dye adsorbents: characterization and adsorption isotherms.The role of carbon starvation in the induction of enzymes that degrade plant-derived carbohydrates in Aspergillus niger.Fermentation of Ammonia Fiber Expansion Treated and Untreated Barley Straw in a Rumen Simulation Technique Using Rumen Inoculum from Cattle with Slow versus Fast Rate of Fiber DisappearancePotential of a gypsum-free composting process of wheat straw for mushroom productionNovel pH-Stable Glycoside Hydrolase Family 3 β-Xylosidase from Talaromyces amestolkiae: an Enzyme Displaying Regioselective Transxylosylation.A solid state fungal fermentation-based strategy for the hydrolysis of wheat straw.Influence of Linker Length Variations on the Biomass-Degrading Performance of Heat-Active Enzyme Chimeras.
P2860
Q26774432-DB7742B6-4532-43E0-8CB5-3C9D8ABD2103Q28601341-C32E4248-4563-47F7-B324-FA2BB158ADABQ28645816-891780CD-85A2-4672-AB54-C6940555A4DBQ28660995-BEBA9572-A513-4E0A-A085-9A8312B7B6AEQ28661367-2229C92A-BEC5-46F9-9A7E-DC59617B7F52Q28704381-034AECD1-4F12-4005-9AED-2907C68015CEQ28709947-03F70FAF-A0E2-4513-8D04-0935FA6C494DQ28710355-815B74BF-E630-4735-B517-2487D42FE223Q28730134-570EA397-D9C5-44FD-9632-B166F1DB1381Q28730983-33F0304B-F2A2-4840-A04B-B800B23EA2A0Q33565065-C2428CB0-FB39-4386-A236-F2EEFC60380AQ33588552-EACC3E83-FFE4-429C-A988-456EBAC9307FQ33704723-5C94D951-7F64-4520-AD84-202AC3D6A3BBQ34041319-F825A5E1-77C9-4418-B7C8-2A2981C6DDA8Q34529113-C941E13E-25BB-4913-88B5-501214F55F00Q35440018-38132AAA-A913-4C71-940C-0D63EE66B908Q35709678-F51642BE-7FC4-4D1C-9D40-A5670FF8F37FQ35954785-82B59115-20AC-4274-B82D-4E094A23EB70Q36161157-07DB6CFD-2651-4319-8832-CC0F408DDB81Q36749062-6DD6338D-10FB-46F1-BD9A-B92FD2CBC8F5Q36970416-6B44EFBD-BD26-44FF-9744-630F8B0C7A16Q37419114-7CB6162C-B1C3-407D-BED8-C53B1CF9B7B6Q37426772-5B3EFCBA-0C99-488D-A8A6-171AC4F760DEQ37714735-7B618C8A-A508-4B50-AB1B-2C6100BE3035Q37726874-8D745536-C51B-4393-8131-C3F9220B946CQ38162421-C378ED84-D9B6-4FD9-92D4-EC6B8CE4FB6AQ38212828-42800187-C63C-461D-BCAC-47A6427CEA20Q38223918-B56FA846-3B4E-49FD-93F6-5F4664B0FEB8Q38303596-70709E34-8029-4550-A2CB-80DAAD964B0EQ38667735-9D00C2F8-5729-4AC2-8C89-D3AD3B7833CCQ38766160-1F5FEA52-B634-493A-96B5-486123F888F4Q38816888-82C379EE-2ED2-4ED7-8AA2-09557254D504Q38942167-EC089AB8-A26F-4394-88AA-5EC2785E207DQ41473764-91C7E689-2BB6-4482-B330-A1A999E646FFQ42024823-810EFAA8-005B-4C95-B08F-01D975086243Q42368375-94249649-CC3B-461B-A8DA-7D0B3AF9B0E7Q42370791-219B9C07-CECA-4CBD-A22E-B7860F7D2BEDQ42675058-D130DD72-AC66-427F-81A5-A96A41072406Q42912755-C0C396A3-ED0A-444A-9EDE-E942C69871C9Q43026889-0928C27D-FE00-4CAD-8775-86D101BE5B68
P2860
Production of bioethanol from wheat straw: An overview on pretreatment, hydrolysis and fermentation.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 23 December 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Production of bioethanol from ...... , hydrolysis and fermentation.
@en
Production of bioethanol from ...... , hydrolysis and fermentation.
@nl
type
label
Production of bioethanol from ...... , hydrolysis and fermentation.
@en
Production of bioethanol from ...... , hydrolysis and fermentation.
@nl
prefLabel
Production of bioethanol from ...... , hydrolysis and fermentation.
@en
Production of bioethanol from ...... , hydrolysis and fermentation.
@nl
P1476
Production of bioethanol from ...... , hydrolysis and fermentation.
@en
P2093
Farid Talebnia
P304
P356
10.1016/J.BIORTECH.2009.11.080
P407
P577
2009-12-23T00:00:00Z