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(2011) waste Biofuel
29(6) Bioremed. high-value for
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Remarks Biotechnol. challenges, lignocellulose al., et Pandey, Lignocellulosic
pressure. and of Umor, R.A. of
and application, toward prospective pretreatment N. Mahmood, Morone, Pretreatment
Disadvantages/ limitations temperature normal fundamentals biomass: the on N.A.N. A. 476 485; Bajpai,
NTP, lignocellulosic review A al., Abdullah, (2018) P. 21 35;
degrades eco- no process, toxic no of the during lignin low requirement water; hot liquid pretreatment: Biomass from production et Ping, L. B. Ismail, S. 94 Rev. Energy (2014) 37
Advantages conditions, and lignin hemicellulose, friendly of release compounds, generation fermentation inhibitors process, degradation, energy LHW, liquid; Levin, Biobutanol Yuan, X. Aziz, M.M.A. Sustain. Rev. Energy
ionic D.B. DaMing, Huzir, Renew. Sustain.
IL, Berlin, Zhang, C. Renew.
action/ polymerization; A. J. Cong, Chang, N.M. generation.
of Sparling, H. C. Jinbao, 196 206; next remedies.
Mechanism effects of degrees R. Cicek, Song, J. L. (2017) for biofuels potential
DP, N. Zhang, L. Hongyan, 160 and [77 82].
explosion; Agbor, V.B. Sheng, C. 363; Technol. eco-friendly gridlocks 2016
(Continued) method fungi, Bacillus fiber from Y. Cao, (2016) Process. production: production: Springer,
5.2 Pretreatment soft-rot Sphingomonas paucimobilis, circulans) Ammonia Adapted G. 7(4) Fuel
Table AFEX, Source: 675 685; Biodegrad. chemicals, biobutanol biobutanol Production,
