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Anaerobic digestion of various feedstocks for second-generation biofuel production  181

           [11] Vanholme R, Demedts B, Morreel K, Ralph J, Boerjan W. Lignin biosynthesis and struc-
               ture. Plant Physiol 2010;153:895–905.
           [12] Mulkey VR, Owens VN, Lee DK. Management of warm-season grass mixtures for bio-
               mass production in South Dakota USA. Bioresour Technol 2008;99(3):609–17.
           [13] Van der Drift A, Boerrigter H, Coda B. Entrained flow gasification of biomass. ECN -
               Energy Centre of the Netherlands; 2004. p. 58 (April).
           [14] Kumar A, Jones DD, Hanna MA. Thermochemical biomass gasification: a review of the
               current status of the technology. Energies 2009;2(3):556–81.
           [15] Davis BH. Fischer-Tropsch synthesis: overview of reactor development and future poten-
               tialities. Top Catal 2005;32(3–4):143–68.
           [16] Munasinghe PC, Khanal SK. Biomass - derived syngas fermentation into biofuels: oppor-
               tunities and challenges. Bioresour Technol 2010;101:5013–22.
           [17] McKendry P. Energy production from biomass (part 2): conversion technologies. Bio-
               resour Technol 2002;83(1):47–54.
           [18] Riedel T, Claeys M, Schulz H, Schaub G, Nam S, Jun K, Lee K. Comparative study of
               Fischer–Tropsch synthesis with H2/CO and H2/CO2 syngas using Fe- and Co-based cat-
               alysts. Appl Catal 1999;186:201–13.
           [19] Nijaguna BT. Biogas technology, vol. 4. New Age International; 2006. 298 pp.
           [20] Jingquan L. Optimization of anaerobic digestion of sewage sludge using thermophilic
               anaerobic pre-treatment. (Ph. D. thesis) submitted to Technical University of Denmark;
               2002.
           [21] Khoiyangbam RS, Gupta N, Kumar S. Biogas technology towards sustainable develop-
               ment. New Delhi: TERI Press; 2011.
           [22] Themelis NJ. Anaerobic digestion of biodegradable organics in municipal solid wastes.
               Foundation School of Engineering & Applied Science. Columbia University; 2002. 1–56.
           [23] Khanal SK. Anaerobic biotechnology for bioenergy production: principles and applica-
               tions. Wiley-Blackwell Publisher; 2009. 320 pp.
           [24] Nayono SE. Anaerobic digestion of organic solid waste for energy production. Karlsruhe:
               KIT Scientific Publishing; 2009.
           [25] Zhang Q, Hu J, Lee DJ. Biogas from anaerobic digestion processes: research updates.
               Renew Energy 2016;98:108–19.
           [26] Deepanraj B, Sivasubramanian V, Jayaraj S. Effect of substrate pretreatment on biogas
               production through anaerobic digestion of food waste. Int J Hydrog Energy
               2017;42:26522–8.
           [27] Mancini G, Papirio S, Lens PNL, Esposito G. Increased biogas production from wheat
               straw by chemical pretreatments. Renew Energy 2018;119:608–14.
           [28] Taherzadeh MJ, Karimi K. Pretreatment of lignocellulosic wastes to improve ethanol and
               biogas production: a review. Int J Mol Sci 2008;9:1621–51.
           [29] Braguglia CM, Gagliano MC, Rossetti S. High frequency ultrasound pretreatment for
               sludge anaerobic digestion: effect on floc structure and microbial population. Bioresour
               Technol 2012;110:43–9.
           [30] Ariunbaatar J, Panico A, Esposito G, Pirozzi F, Lens PNL. Pretreatment methods to
               enhance anaerobic digestion of organic solid waste. Appl Energy 2014;123:143–56.
           [31] Mussoline W, Esposito G, Giordano A, Lens P. The anaerobic digestion of rice straw: a
               review. Crit Rev Environ Sci Technol 2013;43(9):895–915.
           [32] Duan N, Dong B, Wu B, Dai X. High-solid anaerobic digestion of sewage sludge under
               mesophilic conditions: feasibility study. Bioresour Technol 2012;104:150–6.
           [33] Sambusiti C, Ficara E, Malpei F, Steyer JP, Carre `re H. Benefit of sodium hydroxide pre-
               treatment of ensiled sorghum forage on the anaerobic reactor stability and methane pro-
               duction. Bioresour Technol 2013;144:149–55.
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