Chemosphere, 231, 588-606, 2019.
87. Bridgwater, T., Review Biomass for Energy, Journal of the Science of Food and Agriculture, 86, 1755-1768, 2006.
88. Zabed, H., Sahu, J.N., Suely, A., Boyce, A.N., Faruq, G. Bioethanol production from renewable sources : Current perspectives and technological progress, Renewable and Sustainable Energy Reviews, 71, 475-501, 2017.
89. Aditiya, H.B., Mahlia, T.M.I., Chong, W.T., Nur, H., Sebayang, A.H., Second generation bioethanol production: A critical review, Renewable and Sustainable Energy Reviews, 66, 631-653, 2016.
90. Jambo, S.A., Abdulla, R., Mohd Azhar, S.H., Marbawi, H., Gansau, J.A., Ravindra, P., A review on third generation bioethanol feedstock. Renewable and Sustainable Energy Reviews, 65, 756-769, 2016.
91. Madson, P.W., Lococo, D.B., Recovery of Volatile Products from Dilute High-Fouling Process Streams, Biotechnology and Applied Biochemistry, 84–86, 1049–1061, 2000.
92. Lee, S.Y., Park J.H., Jang, S.H., Nielsen, L.K., Kim, J., Jung, K.S., Fermentative Butanol Production by Clostridia, Biotechnology and Bioengineering, 101, 2, 209-228, 2008.
93. Ni, Y., Sun, Z., Recent progress on industrial fermentative production of acetone-butanol-ethanol by Clostridium acetobutylicum in China, Applied Microbiology and Biotechnology, 83, 415-423, 2009.
94. Qureshi, N., Ezeji, T.C. Butanol, a superior biofuel production from agricultural residues (renewable biomass): recent progress in technology, Biofuels, Bioproducts and Biorefinery, 2, 319-330, 2008.
95. Qureshi, N., Blaschek, H. P., Butanol production from agricultural mass, Food Biotechnology, 2, 526-549, 2006.
96. Li, Y., Tang, W., Chen, Y., Liu, J., Lee, C.F., Potential of acetone-butanol-ethanol (ABE) as a biofuel, Fuel, 242, 673-686, 2019.
97. Demirbaş, A. 2008. Biofuels sources, biofuel policy, biofuel economy and global biofuel projections, Energy Conversion and Management, 49, 2106-2116.
98. McKendry, P., Energy Production From Biomass (Part 2): Conversion Technologies, Bioresource Technology, 84, 47-54, 2002.
99. Lethomaki, Biogas Production from Energy Crops and Crop Residues, Ph. D. Thesis, University of Jyväskylä, ISBN 951-39-2559-5, Finland, 2006.
100. Seadi, T.A., Danish Centralized Biogas Plants - Plant Descriptions, University of Southern Denmark, Bioenergy Department, 2000.
101. Kucharska, K., Holowacz, I., Konopacka-Lyskawa, D., Rybarczyk, P., Kaminski, M., Key issues in modeling and optimization of lignocellulosic biomass fermentative conversion to gaseous biofuels, Renewable Energy, 129, 384-408, 2018.
102. Dursun, S., Ozdemir, Z.O., Anaerobik bakteriler kullanılarak atılardan biyogaz üretimi, ResearchGate, 2016.
103. Yu, H.W., Samani, Z., Hanson, A., Smith, G., Energy recovery from grass using two-phase anaerobic digestion, Waste Management, 22, 1-5, 2002.
104. Boyd, R., Internalising Environmental Benefits of Anaerobic Digestion of Pig Slurry in Norfolk, University of East Anglia, 2000.
105. Yadava, L.S., Hesse, P.R., The Development and Use of Biogas Technology in Rural Areas of Asia. Improving Soil Fertility through Organic Recycling, FAO/UNDP Regional Project RAS/75/004, Project Field Document No. 10. 1981.
106. Putun, A.E., Koçkar, O.M., Yorgun, S., Gerçel, H.F., Andersen, J., Snape, C.E., Putun, E., Fixed-Bed Pyrolysis and Hydropyrolysis of Sunflower Baggasse: Product YieIds and Compositions, Fuel Process. Technology, 46, 49-62, 1996.
107. Putun, A.E., Ozbay, N., Koçkar, O.M., Piltim, E., Fixed-Bed Pyrolysis of Cottonseed Cake: Product Yields and Compositions, Energy Sources, 905-915, 1997.
108. Rostrup-Nielsen, J.R., Dybkjaer, I., Aasberg-Petersen, K., Aasberg-Ptersen, K., Hansen, J.H.B., Christensen, T.S., Christensen, P.S., Nielsen, C.S., Madsen, S.E.L.W., Technologies for large-scale gas conversion, Applied Catalysis A: General, 221, 1-2, 379-387, 2001.
109. Soltes, E.J., Pyrolysis Oils from Biomass Producing, Analysing and Upgrading, in: ACS Symposium Series 376, Sottes, J.E., Milne T.A. (Ed), pp. 356, Washington, D. C., 1988.
110. Jenkins, B.M., Sumner, H.R., Harvesting and Handling Agricultural Residue for Energy, Transactions of the ASAE, 29, 3, 824-836, 1986.
111. Cannon, J., Clean Hydrogen Transportation: A Market Opportunity for Renewable Energy. REPP Issue Brief, 7, 20, 1997.
112. Sun, X., Atiyeh, H.K., Huhnke, R.L., Tanner, R.S., Syngas fermentation process development for production of biofuels and chemicals: A review, Bioresource Technology Reports, 7, 100279, 2019.
113. Doku, A., Falco, S., Biofuels in developing countries: Are comparative advantages enough?, Energy Policy, 44, 101-117, 2012.
114. Padilla-Rivera, A., Paredes, M.G., Güereca, L.P., A systematic review of the sustainability assessment of bioenergy: The case of gaseous biofuels, Biomass and Bioenergy, 125, 79-94, 2019.
115. Carneiro, M.L.N.M., Pradelle, F., Braga, S.L., Gomes, M.S.P., Martins, A.R.F.A., Turkovics, F., Pradelle, R.N.C., Potential of biofuels from algae: Comparison with fossil fuels, ethanol and biodiesel in Europe and Brazil through life cycle assessment (LCA), Renewable and Sustainable Energy Reviews, 73: 632-653, 2017.
116. Mofijur, M., Rasul, M.G., Hyde, J., Azad, A.K., Mamat, R., Bhuiya, M.M.K., Role of biofuel and their binary (diesel–biodiesel) and ternary (ethanol–biodiesel–diesel) blends on internal combustion engines emission reduction, Renewable and Sustainable Energy Reviews, 53: 265-278, 2016.
117. Adewuyi, A., Challenges and prospects of renewable energy in Nigeria: A case of bioethanol and biodiesel production, Energy Reports, 6, 4, 77-88, 2020.
118. Tan, I.S., Lam, M.K., Foo, H.C.Y., Lim, S., Lee, K.T., Advances of macroalgae biomass for the third generation of bioethanol production, Chinese Journal of Chemical Engineering, 28, 2, 502-517, 2020.
119. Ayodele, B.V., Alsaffar, M.A., Mustapa, S.I., An overview of integration opportunities for sustainable bioethanol production from first- and second-generation sugar-based feedstocks, Journal of Cleaner Production, 245, 118857, 2020.
120. Zhu, L., Yan, C., Li, Z., Microalgal cultivation with biogas slurry for biofuel production, Bioresource Technology, 220, 629-636, 2016.
121. Xue, S., Song, J., Wang, X., Shang, Z., Sheng, C., Li, C., Zhu, Y., Liu, J. A systematic comparison of biogas development and related policies between China and Europe and corresponding insights, Renewable and Sustainable Energy Reviews, 117, 109474, 2020.
122. Achinas, S., Jan, G., Euverink, W., Rambling facets of manure-based biogas production in Europe: A briefing, Renewable and Sustainable Energy Reviews, 119, 109566, 2020.
123. Zabed, H.M., Akter, S., Yun, J., Zhang, G., Awad, F.N., Qi, X., Sabu, J.N., Recent advances in biological pretreatment of microalgae and lignocellulosic biomass for biofuel production, Renewable and Sustainable Energy Reviews, 105, 105-128, 2019.
124. Stamenkovic, O.S., Siliveru, K., Velijkovic, V.B., Bankovic-Ilic, I.B., Tasic, M.B., Ciampitti, I.A., Dalovic, I.G., Mitrovic, P.M., Sikora, V.S., Prasad, P.V.V., Production of biofuels from sorghum, Renewable and Sustainable Energy Reviews, 124, 109769, 2020.
125. Vasquez, M.C., Silva, E.E., Castillo, E.F., Hydrotreatment of vegetable oils: A review of the technologies and its developments for jet biofuel production, Biomass and Bioenergy, 105, 197-206, 2017.
126. Wirth, R., Lakatos, G., Böjti, T., Maroti, G., Bagi, Z., Rakhely, G., Kovacs, K.L., Anaerobic gaseous biofuel production using microalgal biomass – A review, Anaerobe, 52, 1-8, 2018.
127. Zabed, H.M., Akter, S., Yun, J., Zhang, G., Qi, X., Biogas from microalgae: Technologies, challenges and opportunities, Renewable