1 |
Cellulase and oxidative enzymes: new approaches, challenges and perspectives on cellulose degradation for bioethanol production Barbosa FC, Silvello MA, Goldbeck R Biotechnology Letters, 42(6), 875, 2020 |
2 |
Designing a hub location model in a bagasse-based bioethanol supply chain network in Iran (case study: Iran sugar industry) Saadati M, Hosseininezhad SJ Biomass & Bioenergy, 122, 238, 2019 |
3 |
Willingness to pay for a second-generation bioethanol: A case study of Korea Mamadzhanov A, McCluskey JJ, Li TZ Energy Policy, 127, 464, 2019 |
4 |
Future prospects of delignification pretreatments for the lignocellulosic materials to produce second generation bioethanol Baig KS, Wu J, Turcotte G International Journal of Energy Research, 43(4), 1411, 2019 |
5 |
The optimized co-cultivation system of Penicillium oxalicum 16 and Trichoderma reesei RUT-C30 achieved a high yield of hydrolase applied in second-generation bioethanol production Zhao XH, Yi S, Li HX Renewable Energy, 136, 1028, 2019 |
6 |
Enzymatic hydrolysis of biomass at high-solids loadings through fed-batch operation Hernandez-Beltran JU, Hernandez-Escoto H Biomass & Bioenergy, 119, 191, 2018 |
7 |
Modelling different types of uncertainty in biofuel supply network design and planning: A robust optimization approach Bairamzadeh S, Saidi-Mehrabad M, Pishvaee MS Renewable Energy, 116, 500, 2018 |
8 |
Valorization of carob waste: Definition of a second-generation bioethanol production process Bahry H, Pons A, Abdallah R, Pierre G, Delattre C, Fayad N, Taha S, Vial C Bioresource Technology, 235, 25, 2017 |
9 |
Combustion of lignin-rich residues with coal in a pilot-scale bubbling fluidized bed reactor Solimene R, Cammarota A, Chirone R, Leoni P, Rossi N, Salatino P Powder Technology, 316, 718, 2017 |
10 |
Efficient sugar production from sugarcane bagasse by microwave assisted acid and alkali pretreatment Zhu ZY, Rezende CA, Simister R, McQueen-Mason SJ, Macquarrie DJ, Polikarpov I, Gomez LD Biomass & Bioenergy, 93, 269, 2016 |