336                     Refining Biomass Residues for Sustainable Energy and Bioproducts


         Travaini, R., Martı ´n-Jua ´rez, J., Lorenzo-Hernando, A., Bolado-Rodrı ´guez, S., 2016c.
             Ozonolysis: an advantageous pretreatment for lignocellulosic biomass revisited.
             Bioresour. Technol. 199, 2 12.
         Ueda, C., Takashima, Y., Ishiguri, F., Iizuka, K., Yoshizawa, N., Yokota, S., 2015. Ozone
             oxidation pretreatment for enzymatic saccharification of spent culture media after
             Lentinula edodes cultivation. J. Wood Sci. 61 (1), 65 69.
         Vidal, P.F., Molinier, J., 1988. Ozonolysis of lignin — improvement of in vitro digestibility
             of poplar sawdust. Biomass 16 (1), 1 17.
         Wan Omar, W.N.N., Amin, N.A.S., 2016. Multi response optimization of oil palm frond pre-
             treatment by ozonolysis. Ind. Crops Prod. 85, 389 402.
         Wu, J., Ein-Mozaffari, F., Upreti, S., 2013a. Effect of ozone pretreatment on hydrogen pro-
             duction from barley straw. Bioresour. Technol. 144, 344 349.
         Wu, J., Upreti, S., Ein-Mozaffari, F., 2013b. Ozone pretreatment of wheat straw for enhanced
             biohydrogen production. Int. J. Hydrogen Energy 38 (25), 10270 10276.
         Wulf, C., Kaltschmitt, M., 2013. Life cycle assessment of biohydrogen production as a trans-
             portation fuel in Germany. Bioresour. Technol. 150, 466 475.
         Xu, F., Sun, J., Konda, N.M., Shi, J., Dutta, T., Scown, C.D., et al., 2016. Transforming bio-
             mass conversion with ionic liquids: process intensification and the development of a
             high-gravity, one-pot process for the production of cellulosic ethanol. Energy Environ.
             Sci. 9 (3), 1042 1049.
         Ya’aini, N., Amin, N.A.S., Asmadi, M., 2012. Optimization of levulinic acid from lignocellu-
             losic biomass using a new hybrid catalyst. Bioresour. Technol. 116, 58 65.
         Ya¸sar, F., To˘ grul, H., Arslan, N., 2007. Flow properties of cellulose and carboxymethyl cel-
             lulose from orange peel. J. Food Eng. 81 (1), 187 199.
         Yi, Y.-B., Lee, J.-W., Hong, S.-S., Choi, Y.-H., Chung, C.-H., 2011. Acid-mediated produc-
             tion of hydroxymethylfurfural from raw plant biomass with high inulin in an ionic liq-
             uid. J. Ind. Eng. Chem. 17 (1), 6 9.
         Yi, Y.-B., Lee, J.-W., Choi, Y.-H., Park, S.-M., Chung, C.-H., 2012. Simple process for pro-
             duction of hydroxymethylfurfural from raw biomasses of girasol and potato tubers.
             Biomass Bioenergy 39, 484 488.
         Yu, Z., Jameel, H., Chang, H.-M., Park, S., 2011. The effect of delignification of forest bio-
             mass on enzymatic hydrolysis. Bioresour. Technol. 102 (19), 9083 9089.
         Zainol, M.M., Amin, N.A.S., Asmadi, M., 2019. Kinetics and thermodynamic analysis of
             levulinic acid esterification using lignin-furfural carbon cryogel catalyst. Renew. Energy
             130, 547 557.
         Zhang, G., Zhang, L., Deng, H., Sun, P., 2011. Preparation and characterization of sodium
             carboxymethyl cellulose from cotton stalk using microwave heating. J. Chem. Technol.
             Biotechnol. 86 (4), 584 589.
         Zhao, H., Kwak, J.H., Wang, Y., Franz, J.A., White, J.M., Holladay, J.E., 2006. Effects of
             crystallinity on dilute acid hydrolysis of cellulose by cellulose ball-milling study.
             Energy Fuels 20 (2), 807 811.