Subcritical and supercritical technology for the production of second generation bioethanol

• Published in: Critical reviews in biotechnology Vol. 35; no. 3; pp. 302 - 312
• Main Authors: Rostagno, Mauricio A., Prado, Juliana M., Mudhoo, Ackmez, Santos, Diego T., Forster-Carneiro, Tânia, Meireles, M. Angela A.
• Format: Journal Article
• Language: English
• Published: England Informa Healthcare 01.01.2015
• Subjects: Agricultural residues; Agriculture; bioethanol; Biofuels; Biomass; Biotechnology - methods; Ethanol; Hydrolysis; subcritical water; supercritical water; Agricultural residues; bioethanol; subcritical water; supercritical water; hydrolysis
• ISSN: 0738-8551; 1549-7801
• DOI: 10.3109/07388551.2013.843155

There is increased interest in reducing our reliance on fossil fuels and increasing the share of renewable raw materials in our energy supply chain due to environmental and economic concerns. Ethanol is emerging as a potential alternative to liquid fuels due to its eco-friendly characteristics and relatively low production costs. As ethanol is currently produced from commodities also used for human and animal consumption, there is an urgent need of identifying renewable raw materials that do not pose a competitive problem. Lignocellulosic agricultural residues are an ideal choice since they can be effectively hydrolyzed to fermentable sugars and integrated in the context of a biorefinery without competing with the food supply chain. However, the conventional hydrolysis methods still have major issues that need to be addressed. These issues are related to the processing rate and generation of fermentation inhibitors, which can compromise the quality of the product and the cost of the process. As the knowledge of the processes taking place during hydrolysis of agricultural residues is increasing, new techniques are being exploited to overcome these drawbacks. This review gives an overview of the state-of-the-art of hydrolysis with subcritical and supercritical water in the context of reusing agricultural residues for the production of suitable substrates to be processed during the fermentative production of bioethanol. Presently, subcritical and/or supercritical water hydrolysis has been found to yield low sugar contents mainly due to concurrent competing degradation of sugars during the hydrothermal processes. In this line of thinking, the present review also revisits the recent applications and advances to provide an insight of future research trends to optimize on the subcritical and supercritical process kinetics.