Bibliography Lengkap Tentang Cellulosic Ethanol

Bagi anda yang tertarik dengan penelitian tentang ethanol dari biomassa lignocellulosa saya membuat daftar artikel ilmiah (bibliography) yang terkait dengan topik tersebut.  Semoga bermanfaat.

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Banyak yang minta artikel terkait ke saya. Sampai kewalahan saya melayaninya. Kalau Anda tertarik dengan artikel di bawah ini atau artikel lain yang terkait, bisa kami bantu mengirimkannya dengan menganti ongkos fotokopy, pengiriman, dll. [hubungi saya]Semoga membantu.
Tambahan link bibliography dari USDA BIOENERGY and BIOFUELS BIBLIOGRAPHY

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Abbi, M.; Kuhad, R. C. & Singh, A. (1996), ‘Bioconversion of pentose sugars to ethanol by free and immobilized cells of Candida shehatae (NCL-3501): Fermentation behaviour’, Process Biochemistry 31(6), 555–560.

Adsul, M.; Ghule, J.; Shaikh, H.; Singh, R.; Bastawde, K.; Gokhale, D. & Varma, A. (2005), ‘Enzymatic hydrolysis of delignified bagasse polysaccharides’, Carbohydrate Polymers 62(1), 6–10.

Adsul, M.; Ghule, J.; Shaikh, H.; Singh, R.; Bastawde, K.; Gokhalea, D. & Varma, A. (2005), ‘Enzymatic hydrolysis of delignified bagasse polysaccharides’, Carbohydrate Polymers 62, 6-10.

Ahring, B.; Jensen, K.; Nielsen, P.; Bjerre, A. & Schimdt, A. (1996), ‘Pretreatment of wheat straw and Conversion of Xylose and Xylan to Ethanol by Thermophilic Anaerobik Bacteria’, Bioresources Technology 58, 107-113.

Ahring, B.; Licht, D.; Schmidt, A.; Sommer, P. & Thomsen, A. (1999), ‘Production of ethanol from wet oxidised wheat straw by Thermoanaerobacter mathranii’, Bioresource Technology 68, 3-9.

Ahring, B. K.; Jensen, K.; Nielsen, P.; Bjerre, A. B. & Schmidt, A. S. (1996), ‘Pretreatment of wheat straw and conversion of xylose and xylan to ethanol by thermophilic anaerobic bacteria’, Bioresource Technology 58(2), 107–113.

Ahring, B. K.; Licht, D.; Schmidt, A. S.; Sommer, P. & Thomsen, A. B. (1999), ‘Production of ethanol from wet oxidised wheat straw by Thermoanaerobacter mathranii’, Bioresource Technology 68(1), 3–9.

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Alkasrawi, M.; Eriksson, T.; Borjesson, J.; Wingren, A.; Galbe, M.; Tjerneld, F. & Zacchi, G. (2003), ‘The effect of Tween-20 on simultaneous saccharification and fermentation of softwood to ethanol’, Enzyme and Microbial Technology 33(1), 71–78.

Alvo, P. & Belkacemi, K. (1997), ‘Enzymatic saccharification of milled timothy (Phleum pratense L.) and alfalfa (Medicago sativa L.)’, Bioresource Technology 61(3), 185–198.

Alvo, P.; Savoie, P.; Tremblay, D.; Emond, J. P. & Turcotte, G. (1996), ‘A systems approach for the evaluation of ethanol production based on forages’, Bioresource Technology 56(1), 61–68.

Angenent, L. T. (2007), ‘Energy biotechnology: beyond the general lignocellulose-to-ethanol pathway’, Current Opinion in Biotechnology 18(3), 191–192.

Avellar, B. K. & Glasser, W. G. (1998), ‘Steam-assisted biomass fractionation. I. Process considerations and economic evaluation’, Biomass and Bioenergy 14(3), 205–218.

Bahkali, A. H. (1995), ‘Production of Cellulase, Xylanase and Polygalacturonase by Verticillium tricorpus on different Substrates’, Bioresources Technology 51, 171-174.

Balat, M.; Balat, H. & Oz, C. (), ‘Progress in bioethanol processing’, Progress in Energy and Combustion Science In Press, Corrected Proof, –658.

Baldrian, P. & Gabriel, J. (2003), ‘Lignocellulose degradation by Pleurotus ostreatus in the presence of cadmium’, FEMS Microbiology Letters 220(2), 235–240.

Ballesteros, M.; Oliva, J. M.; Negro, M. J.; Manzanares, P. & Ballesteros, I. (2004), ‘Ethanol from lignocellulosic materials by a simultaneous saccharification and fermentation process (SFS) with Kluyveromyces marxianus CECT 10875’, Process Biochemistry 39(12), 1843-1848.

Ballesteros, M.; Oliva, J. M.; Negro, M. J.; Manzanares, P. & Ballesteros, I. (2004), ‘Ethanol from lignocellulosic materials by a simultaneous saccharification and fermentation process (SFS) with Kluyveromyces marxianus CECT 10875’, Process Biochemistry 39(12), 1843–1848.

Batchelor, S. E.; Cook, P.; Booth, E. J. & Walker, K. C. (1994), ‘Economics of bioethanol production from wheat in the UK’, Renewable Energy 5(5-8), 807–809.

Bayer, E. A.; Lamed, R. & Himmel, M. E. (2007), ‘The potential of cellulases and cellulosomes for cellulosic waste management’, Current Opinion in Biotechnology 18(3), 237–245.

Belyea, R. L.; Rausch, K. D. & Tumbleson, M. E. (2004), ‘Composition of corn and distillers dried grains with solubles from dry grind ethanol processing’, Bioresource Technology 94(3), 293–298.

Beukes, N.; Chan, H.; Doi, R. H. & Pletschke, B. I. (), ‘Synergistic associations between Clostridium cellulovorans enzymes XynA, ManA and EngE against sugarcane bagasse’, Enzyme and Microbial Technology In Press, Corrected Proof, –462.

Biswas, A.; Saha, B. C.; Lawton, J. W.; Shogren, R. & Willett, J. (2006), ‘Process for obtaining cellulose acetate from agricultural by-products’, Carbohydrate Polymers 64(1), 134–137.

Borjesson, J.; Engqvist, M.; Sipos, B. & Tjerneld, F. (2007), ‘Effect of poly(ethylene glycol) on enzymatic hydrolysis and adsorption of cellulase enzymes to pretreated lignocellulose’, Enzyme and Microbial Technology 41(1-2), 186–195.

Borjesson, J.; Engqvist, M.; Sipos, B. & Tjerneld, F. (2007), ‘Effect of poly(ethylene glycol) on enzymatic hydrolysis and adsorption of cellulase enzymes to pretreated lignocellulose’, Enzyme and Microbial Technology 41(1-2), 186–195.

Borjesson, J.; Peterson, R. & Tjerneld, F. (2007), ‘Enhanced enzymatic conversion of softwood lignocellulose by poly(ethylene glycol) addition’, Enzyme and Microbial Technology 40(4), 754–762.

Boukis, I.; Vassilakos, N.; Kontopoulos, G. & Karellas, S. (), ‘Policy plan for the use of biomass and biofuels in Greece: Part II: Logistics and economical investigation’, Renewable and Sustainable Energy Reviews In Press, Uncorrected Proof, –.

Bower, S.; Wickramasinghe, R.; Nagle, N. J. & Schell, D. J. (), ‘Modeling sucrose hydrolysis in dilute sulfuric acid solutions at pretreatment conditions for lignocellulosic biomass’, Bioresource Technology In Press, Corrected Proof, –684.

Bower, S.; Wickramasinghe, R.; Nagle, N. J. & Schell, D. J. (), ‘Modeling sucrose hydrolysis in dilute sulfuric acid solutions at pretreatment conditions for lignocellulosic biomass’, Bioresource Technology In Press, Corrected Proof, –151.

Brandberg, T.; FranzeN, C. J. & Gustafsson, L. (2004), ‘The fermentation performance of nine strains of Saccharomyces cerevisiae in batch and fed-batch cultures in dilute-acid wood hydrolysate’, Journal of Bioscience and Bioengineering 98(2), 122–125.

Cantarella, M.; Cantarella, L.; Gallifuoco, A.; Spera, A. & Alfani, F. (2004), ‘Comparison of different detoxification methods for steam-exploded poplar wood as a substrate for the bioproduction of ethanol in SHF and SSF’, Process Biochemistry 39(11), 1533–1542.

Cara, C.; Ruiz, E.; Ballesteros, M.; Manzanares, P.; Negro, M. J. & Castro, E. (2008), ‘Production of fuel ethanol from steam-explosion pretreated olive tree pruning’, Fuel 87(6), 692–700.

Cardona Alzate, C. & Sanchez Toro, O. (2006), ‘Energy consumption analysis of integrated flowsheets for production of fuel ethanol from lignocellulosic biomass’, Energy 31(13), 2447–2459.

Cardona, C. A. & Sanchez, O. J. (2007), ‘Fuel ethanol production: Process design trends and integration opportunities’, Bioresource Technology 98(12), 2415–2457.

Castellanos, O. F.; Sinitsyn, A. P. & Vlasenko, E. Y. (1995), ‘Evaluation of Hydrolysis Conditions of Celluosic materials by Penicillium cellulase’, Bioresources Technology 52, 109-117.

Chandrakant, P. & Bisaria, V. S. (1998), ‘Simultaneous Bioconversion of Cellulose and Hemicellulose to Ethanol’, Critical Reviews in Biotechnology 18(4), 295–331.

Chang, M. C. (2007), ‘Harnessing energy from plant biomass’, Current Opinion in Chemical Biology 11(6), 677–684.

Chang, M. C. (2007), ‘Harnessing energy from plant biomass’, Current Opinion in Chemical Biology 11(6), 677–684.

Chen, H. & Jin, S. (2006), ‘Effect of ethanol and yeast on cellulase activity and hydrolysis of crystalline cellulose’, Enzyme and Microbial Technology 39(7), 1430–1432.

Cheung, S. W. & Anderson, B. C. (1997), ‘Laboratory investigation of ethanol production from municipal primary wastewater solids’, Bioresource Technology 59(1), 81–96.

Cho, K. M.; Yoo, Y. J. & Kang, H. S. (1999), ‘[delta]-Integration of endo/exo-glucanase and [beta]-glucosidase genes into the yeast chromosomes for direct conversion of cellulose to ethanol’, Enzyme and Microbial Technology 25(1-2), 23–30.

Chu, B. C. & Lee, H. (2007), ‘Genetic improvement of Saccharomyces cerevisiae for xylose fermentation’, Biotechnology Advances 25, 425-441.

Chu, B. C. & Lee, H. (2007), ‘Genetic improvement of Saccharomyces cerevisiae for xylose fermentation’, Biotechnology Advances 25(5), 425–441.

Dale, B. E.; Leong, C. K.; Pham, T. K.; Esquivel, V. M.; Rios, I. & Latimer, V. M. (1996), ‘Hydrolysis of lignocellulosics at low enzyme levels: Application of the AFEX process’, Bioresource Technology 56(1), 111–116.

van Dam, J.; Faaij, A.; Lewandowski, I. & Fischer, G. (2007), ‘Biomass production potentials in Central and Eastern Europe under different scenarios’, Biomass and Bioenergy 31(6), 345–366.

Davis, L.; Jeon, Y.; Svenson, C.; Rogers, P.; Pearce, J. & Peiris, P. (2005), ‘Evaluation of wheat stillage for ethanol production by recombinant Zymomonas mobilis’, Bioresource Technology 29, 49-59.

Davis, L.; Jeon, Y.; Svenson, C.; Rogers, P.; Pearce, J. & Peiris, P. (2005), ‘Evaluation of wheat stillage for ethanol production by recombinant Zymomonas mobilis’, Biomass and Bioenergy 29(1), 49–59.

Delgenes, J. P.; Laplace, J. M.; Moletta, R. & Navarro, J. M. (1996), ‘Comparative study of separated fermentations and cofermentation processes to produce ethanol from hardwood derived hydrolysates’, Biomass and Bioenergy 11(4), 353–360.

Delgenes, J. P.; Moletta, R. & Navarro, J. M. (1996), ‘Effects of lignocellulose degradation products on ethanol fermentations of glucose and xylose by Saccharomyces cerevisiae, Zymomonas mobilis, Pichia stipitis, and Candida shehatae’, Enzyme and Microbial Technology 19(3), 220–225.

Demirbas, A. (2007), ‘Progress and recent trends in biofuels’, Progress in Energy and Combustion Science 33(1), 1–18.

Dizhbite, T.; Zakis, G.; Kizima, A.; Lazareva, E.; Rossinskaya, G.; Jurkjane, V.; Telysheva, G. & Viesturs, U. (1999), ‘Lignin — a useful bioresource for the production of sorption-active materials’, Bioresource Technology 67(3), 221–228.

Doran, J. B. & Ingram, L. 0. (1993), ‘Fermentation of Crystalline Cellulose to Ethanol by Klebsiella oxytoca Containing Chromosomally Integrated Zymomonas mobilis Genes’, Biotechnol. Prog 9, 533-538.

Duff, S. J. B. & Murray, W. D. (1996), ‘Bioconversion of forest products industry waste cellulosics to fuel ethanol: A review’, Bioresource Technology 55(1), 1–33.

Durrant, L. R. (1996), ‘Biodegradation of lignocellulosic materials by soil fungi isolated under anaerobic conditions’, International Biodeterioration & Biodegradation 37(3-4), 189–195.

Ebrahimi, F.; Khanahmadi, M.; Roodpeyma, S. & Taherzadeh, M. J. (2007), ‘Ethanol production from bread residues’, Biomass and Bioenergy.

Eggeman, T. & Elander, R. T. (2005), ‘Process and economic analysis of pretreatment technologies’, Bioresource Technology 96(18), 2019–2025.

Elisashvili, V.; Penninckx, M.; Kachlishvili, E.; Tsiklauri, N.; Metreveli, E.; Kharziani, T. & Kvesitadze, G. (2008), ‘Lentinus edodes and Pleurotus species lignocellulolytic enzymes activity in submerged and solid-state fermentation of lignocellulosic wastes of different composition’, Bioresource Technology 99(3), 457–462.

Eriksson, T.; Borjesson, J. & Tjerneld, F. (2002), ‘Mechanism of surfactant effect in enzymatic hydrolysis of lignocellulose’, Enzyme and Microbial Technology 31(3), 353–364.

Ezeji, T. C.; Qureshi, N. & Blaschek, H. P. (2007), ‘Bioproduction of butanol from biomass: from genes to bioreactors’, Current Opinion in Biotechnology 18(3), 220–227.

Faaij, A. P. (2006), ‘Bio-energy in Europe: changing technology choices’, Energy Policy 34(3), 322–342.

Faix, O.; Meier, D. & Beinhoff, O. (1989), ‘Analysis of lignocelluloses and lignins from Arundo donax L. and Miscanthus sinensis Anderss., and hydroliquefaction of Miscanthus’, Biomass 18(2), 109–126.

Farag, S. & Al-Afaleq, E. I. (2002), ‘Preparation and characterization of saponified delignified cellulose polyacrylonitrile-graft copolymer’, Carbohydrate Polymers 48(1), 1–5.

Fleming, J. S.; Habibi, S. & MacLean, H. L. (2006), ‘Investigating the sustainability of lignocellulose-derived fuels for light-duty vehicles’, Transportation Research Part D: Transport and Environment 11(2), 146–159.

Foyle, T.; Jennings, L. & Mulcahy, P. (2007), ‘Compositional analysis of lignocellulosic materials: Evaluation of methods used for sugar analysis of waste paper and straw’, Bioresource Technology 98(16), 3026–3036.

Ganesh Kumar, A.; Sekaran, G. & Krishnamoorthy, S. (2006), ‘Solid state fermentation of Achras zapota lignocellulose by Phanerochaete chrysosporium’, Bioresource Technology 97(13), 1521–1528.

Gnansounou, E.; Dauriat, A. & Wyman, C. (2005), ‘Refining sweet sorghum to ethanol and sugar: economic trade-offs in the context of North China’, Bioresource Technology 96(9), 985–1002.

Goel, S. C. & Ramachandran, K. B. (1983), ‘Comparison of the rates of enzymatic hydrolysis of pretreated rice straw and bagasse with celluloses’, Enzyme and Microbial Technology 5(4), 281-284.

Goldbach, S. G. & Alban, L. (2006), ‘A cost-benefit analysis of Salmonella-control strategies in Danish pork production’, Preventive Veterinary Medicine 77(1-2), 1–14.

Golias, H.; Dumsday, G. J.; Stanley, G. A. & Pamment, N. B. (2002), ‘Evaluation of a recombinant Klebsiella oxytoca strain for ethanol production from cellulose by simultaneous saccharification and fermentation: comparison with native cellobiose-utilising yeast strains and performance in co-culture with thermotolerant yeast and Zymomonas mobilis’, Journal of Biotechnology 96(2), 155–168.

Govindaswamy, S. & Vane, L. M. (2007), ‘Kinetics of growth and ethanol production on different carbon substrates using genetically engineered xylose-fermenting yeast’, Bioresource Technology 98(3), 677–685.

Grethlein, H. E. (1984), ‘Pretreatment for enhanced hydrolysis of cellulosic biomass’, Biotechnology Advances 2(1), 43-62.

Gulati, M.; Kohlmann, K.; Ladisch, M. R.; Hespell, R. & Bothast, R. J. (1996), ‘Assessment of ethanol production options for corn products’, Bioresource Technology 58(3), 253–264.

Guo, G.; Chen, W.; Chen, W.; Men, L. & Hwang, W. (), ‘Characterization of dilute acid pretreatment of silvergrass for ethanol production’, Bioresource Technology In Press, Corrected Proof, –246.

GUO, P.; WANG, X.; ZHU, W.; YANG, H.; CHENG, X. & CUI, Z. (2008), ‘Degradation of corn stalk by the composite microbial system of MC1’, Journal of Environmental Sciences 20(1), 109–114.

Hahn-Hagerdal, B.; Galbe, M.; Gorwa-Grauslund, M.; Liden, G. & Zacchi, G. (2006), ‘Bio-ethanol – the fuel of tomorrow from the residues of today’, Trends in Biotechnology 24(12), 549–556.

Hahn-Hägerdala, B.; Galbea, M.; Gorwa-Grauslunda, M.; Lidéna, G. & Zacchi, G. (2006), ‘Bio-ethanol ? the fuel of tomorrow from the residues of today’, Trends in Biotechnology 24(12), 549-556.

Hamelinck, C. N. & Faaij, A. P. (2006), ‘Outlook for advanced biofuels’, Energy Policy 34(17), 3268–3283.

Hamelinck, C. N.; Hooijdonk, G. v. & Faaij, A. P. (2005), ‘Ethanol from lignocellulosic biomass: techno-economic performance in short-, middle- and long-term’, Biomass and Bioenergy 28(4), 384–410.

Hammel, K. E. & Cullen, D. (), ‘Role of fungal peroxidases in biological ligninolysis’, Current Opinion in Plant Biology In Press, Corrected Proof, –2339.

Han, Y. & Chen, H. (), ‘Characterization of [beta]-glucosidase from corn stover and its application in simultaneous saccharification and fermentation’, Bioresource Technology In Press, Corrected Proof, –2339.

Hari Krishna, S.; Janardhan Reddy, T. & Chowdary, G. V. (2001), ‘Simultaneous saccharification and fermentation of lignocellulosic wastes to ethanol using a thermotolerant yeast’, Bioresource Technology 77(2), 193–196.

Helle, S.; Cameron, D.; Lam, J.; White, B. & Duff, S. (2003), ‘Effect of inhibitory compounds found in biomass hydrolysates on growth and xylose fermentation by a genetically engineered strain of S. cerevisiae’, Enzyme and Microbial Technology 33(6), 786–792.

Helle, S. S.; Lin, T. & Duff, S. J. (2008), ‘Optimization of spent sulfite liquor fermentation’, Enzyme and Microbial Technology 42(3), 259–264.

Helle, S. S.; Murray, A.; Lam, J.; Cameron, D. R. & Duff, S. J. (2004), ‘Xylose fermentation by genetically modified Saccharomyces cerevisiae 259ST in spent sulfite liquor’, Bioresource Technology 92, 163-171.

Helle, S. S.; Murray, A.; Lam, J.; Cameron, D. R. & Duff, S. J. B. (2004), ‘Xylose fermentation by genetically modified Saccharomyces cerevisiae 259ST in spent sulfite liquor’, Bioresource Technology 92(2), 163–171.

Hongzhang, C. & Liying, L. (2007), ‘Unpolluted fractionation of wheat straw by steam explosion and ethanol extraction’, Bioresource Technology 98(3), 666–676.

Hu, Z. & Wen, Z. (2008), ‘Enhancing enzymatic digestibility of switchgrass by microwave-assisted alkali pretreatment’, Biochemical Engineering Journal 38(3), 369–378.

Hu, Z. & Wen, Z. (2008), ‘Enhancing enzymatic digestibility of switchgrass by microwave-assisted alkali pretreatment’, Biochemical Engineering Journal 38(3), 369–378.

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Jamai, L.; Sendide, K.; Ettayebi, K.; Errachidi, F.; Hamdouni-Alami, O.; Tahri-Jouti, M. A.; McDermott, T. & Ettayebi, M. (2001), ‘Physiological difference during ethanol fermentation between calcium alginate-immobilized Candida tropicalis and Saccharomyces cerevisiae’, FEMS Microbiology Letters 204(2), 375–379.

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Jeoh, T. & Agblevor, F. A. (2001), ‘Characterization and fermentation of steam exploded cotton gin waste’, Biomass and Bioenergy 21(2), 109–120.

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Jian Shi, M. S. C. & Sharma-Shivappa, R. R. (2008), ‘Microbial pretreatment of cotton stalks by solid state cultivation of Phanerochaete chrysosporium’, Bioresource Technology 10.1016/j.biortech.2007.11.069.

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Kadar, Z.; Szengyel, Z. & Reczey, K. (2004), ‘Simultaneous saccharification and fermentation (SSF) of industrial wastes for the production of ethanol’, Industrial Crops and Products 20(1), 103–110.

Kapoor, M.; Nair, L. M. & Kuhad, R. C. (2008), ‘Cost-effective xylanase production from free and immobilized Bacillus pumilus strain MK001 and its application in saccharification of Prosopis juliflora’, Biochemical Engineering Journal 38(1), 88–97.

Karimi, K.; Edebo, L. & Taherzadeh, M. J. (2007), ‘Mucor indicus as a biofilter and fermenting organism in continuous ethanol production from lignocellulosic hydrolyzate’, Biochemical Engineering Journal.

Karimi, K.; Emtiazi, G. & Taherzadeh, M. J. (2006), ‘Ethanol production from dilute-acid pretreated rice straw by simultaneous saccharification and fermentation with Mucor indicus, Rhizopus oryzae, and Saccharomyces cerevisiae’, Enzyme and Microbial Technology 40(1), 138–144.

Karimi, K.; Emtiazi, G. & Taherzadeh, M. J. (2006), ‘Ethanol production from dilute-acid pretreated rice straw by simultaneous saccharification and fermentation with Mucor indicus,Rhizopus oryzae,and Saccharomyces cerevisiae’, Enzyme and Microbial Technology 40, 138-144.

Karimi, K.; Emtiazib, G. & Taherzadeh, M. J. (2006), ‘Production of ethanol and mycelial biomass from rice straw hemicellulose hydrolyzate by Mucor indicus’, Process Biochemistry 41(3), 653-658.

Karimi, K.; Kheradmandinia, S. & Taherzadeh, M. J. (2006), ‘Conversion of rice straw to sugars by dilute-acid hydrolysis’, Biomass and Bioenergy 30(3), 247-253.

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Kaylen, M.; Van Dyne, D. L.; Choi, Y. & Blase, M. (2000), ‘Economic feasibility of producing ethanol from lignocellulosic feedstocks’, Bioresource Technology 72(1), 19–32.

Kennedy, P. M.; Lowry, J. B.; Coates, D. B. & Oerlemans, J. (2002), ‘Utilisation of tropical dry season grass by ruminants is increased by feeding fallen leaf of siris (Albizia lebbeck)’, Animal Feed Science and Technology 96(3-4), 175–192.

Kim, S. & Dale, B. E. (), ‘Life cycle assessment of fuel ethanol derived from corn grain via dry milling’, Bioresource Technology In Press, Corrected Proof, –399.

Kim, S. & Dale, B. E. (2005), ‘Life cycle assessment of various cropping systems utilized for producing biofuels: Bioethanol and biodiesel’, Biomass and Bioenergy 29(6), 426–439.

Kim, S. & Dale, B. E. (2005), ‘Environmental aspects of ethanol derived from no-tilled corn grain: nonrenewable energy consumption and greenhouse gas emissions’, Biomass and Bioenergy 28(5), 475–489.

Kim, S. & Dale, B. E. (2004), ‘Global potential bioethanol production from wasted crops and crop residues’, Biomass and Bioenergy 26(4), 361–375.

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Krishnan, M. S.; Taylor, F.; Davison, B. H. & Nghiem, N. P. (2000), ‘Economic analysis of fuel ethanol production from corn starch using fluidized-bed bioreactors’, Bioresource Technology 75(2), 99–105.

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Lark, N.; Xia, Y.; Qin, C.; Gong, C. S. & Tsao, G. T. (1997), ‘Production of ethanol from recycled paper sludge using cellulase and yeast, Kluveromyces marxianus’, Biomass and Bioenergy 12(2), 135–143.

Larsson, M.; Galbe, M. & Zacchi, G. (1997), ‘Recirculation of process water in the production of ethanol from softwood’, Bioresource Technology 60(2), 143–151.

Leathers, T. D. (2003), ‘Bioconversions of maize residues to value-added coproducts using yeast-like fungi’, FEMS Yeast Research 3(2), 133–140.

Lee, J. (1997), ‘Biological conversion of lignocellulosic biomass to ethanol’, Journal of Biotechnology 56(1), 1-24.

Lee, J. (1997), ‘Biological conversion of lignocellulosic biomass to ethanol’, Journal of Biotechnology 56(1), 1–24.

Lewandowski, I.; Schmidt, U.; Londo, M. & Faaij, A. (2006), ‘The economic value of the phytoremediation function – Assessed by the example of cadmium remediation by willow (Salix ssp)’, Agricultural Systems 89(1), 68–89.

Linde, M.; Galbe, M. & Zacchi, G. (2007), ‘Simultaneous saccharification and fermentation of steam-pretreated barley straw at low enzyme loadings and low yeast concentration’, Enzyme and Microbial Technology 40(5), 1100–1107.

Marques, S.; Alves, L.; Roseiro, J. & Girio, F. (), ‘Conversion of recycled paper sludge to ethanol by SHF and SSF using Pichia stipitis’, Biomass and Bioenergy In Press, Corrected Proof, –114.

Martin, C.; Galbe, M.; Wahlbom, C. F.; Hahn-Hagerdal, B. & Jonsson, L. J. (2002), ‘Ethanol production from enzymatic hydrolysates of sugarcane bagasse using recombinant xylose-utilising Saccharomyces cerevisiae’, Enzyme and Microbial Technology 31(3), 274–282.

Martin, C. & Jonsson, L. J. (2003), ‘Comparison of the resistance of industrial and laboratory strains of Saccharomyces and Zygosaccharomyces to lignocellulose-derived fermentation inhibitors’, Enzyme and Microbial Technology 32(3-4), 386–395.

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Meinander, N. Q.; Boels, I. & Hahn-Haigerdal, B. (1999), ‘Fermentation of xylose/glucose mixtures by metabolically engineered Saccharomyces cerevisiae strains expressing XYL1 and XYL2 from Pichia stipitis with and without overexpression of TALl’, Bioresource Technology 68, 79-87.

Mielenz, J. R. (2001), ‘Ethanol production from biomass: technology and commercialization status’, Current Opinion in Microbiology 4(3), 324–329.

Millati, R.; Edebo, L. & Taherzadeh, M. J. (2005), ‘Performance of Rhizopus, Rhizomucor, and Mucor in ethanol production from glucose, xylose, and wood hydrolyzates’, Enzyme and Microbial Technology 36(2-3), 294-300.

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