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Journal Abstract Search

242 related items for PubMed ID: 29929106

  • 41. Xylo-oligosaccharides, fermentable sugars, and bioenergy production from sugarcane straw using steam explosion pretreatment at pilot-scale.
    Brenelli LB, Bhatia R, Djajadi DT, Thygesen LG, Rabelo SC, Leak DJ, Franco TT, Gallagher JA.
    Bioresour Technol; 2022 Aug; 357():127093. PubMed ID: 35378280
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  • 42. An integrated process for co-producing fermentable sugars and xylonate from sugarcane bagasse based on xylonic acid assisted pretreatment.
    Zhu Z, Huang R, Yao S, Liu Y, Zhang Q, Zhou X, Jiang K.
    Bioresour Technol; 2023 Feb; 369():128464. PubMed ID: 36509308
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  • 43. An integrated approach to obtain xylo-oligosaccharides from sugarcane straw: From lab to pilot scale.
    Brenelli LB, Figueiredo FL, Damasio A, Franco TT, Rabelo SC.
    Bioresour Technol; 2020 Oct; 313():123637. PubMed ID: 32535521
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  • 44. Optimization of steam explosion as a method for increasing susceptibility of sugarcane bagasse to enzymatic saccharification.
    Morjanoff PJ, Gray PP.
    Biotechnol Bioeng; 1987 Apr; 29(6):733-41. PubMed ID: 18576508
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  • 45. Effects of ferric chloride pretreatment and surfactants on the sugar production from sugarcane bagasse.
    Zhang H, Lyu G, Zhang A, Li X, Xie J.
    Bioresour Technol; 2018 Oct; 265():93-101. PubMed ID: 29885498
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  • 46. Enzymatic saccharification of lignocellulosic residues using cellulolytic enzyme extract produced by Penicillium roqueforti ATCC 10110 cultivated on residue of yellow mombin fruit.
    de Almeida Antunes Ferraz JL, Souza LO, Soares GA, Coutinho JP, de Oliveira JR, Aguiar-Oliveira E, Franco M.
    Bioresour Technol; 2018 Jan; 248(Pt A):214-220. PubMed ID: 28669572
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  • 53. Effect of [Emim]Ac pretreatment on the structure and enzymatic hydrolysis of sugarcane bagasse cellulose.
    Bian J, Peng F, Peng XP, Xiao X, Peng P, Xu F, Sun RC.
    Carbohydr Polym; 2014 Jan 16; 100():211-7. PubMed ID: 24188856
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  • 55. Vacuum-assisted black liquor-recycling enhances the sugar yield of sugarcane bagasse and decreases water and alkali consumption.
    Fan Z, Lin J, Wu J, Zhang L, Lyu X, Xiao W, Gong Y, Xu Y, Liu Z.
    Bioresour Technol; 2020 Aug 16; 309():123349. PubMed ID: 32299049
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  • 56. Kinetic model for glycan hydrolysis and formation of monosaccharides during dilute acid hydrolysis of sugarcane bagasse.
    Zhao X, Zhou Y, Liu D.
    Bioresour Technol; 2012 Feb 16; 105():160-8. PubMed ID: 22178495
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  • 57. Influence of sugarcane bagasse variability on sugar recovery for cellulosic ethanol production.
    Andrade LP, Crespim E, de Oliveira N, de Campos RC, Teodoro JC, Galvão CMA, Maciel Filho R.
    Bioresour Technol; 2017 Oct 16; 241():75-81. PubMed ID: 28550776
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  • 59. Comparative hydrolysis and fermentation of sugarcane and agave bagasse.
    Hernández-Salas JM, Villa-Ramírez MS, Veloz-Rendón JS, Rivera-Hernández KN, González-César RA, Plascencia-Espinosa MA, Trejo-Estrada SR.
    Bioresour Technol; 2009 Feb 16; 100(3):1238-45. PubMed ID: 19000863
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