%0 Journal Article
%T Prospects for Bioethanol Production from Macroalgae
%A Junying Chen
%A Jing Bai
%A Hongliang Li
%A Chun Chang
%A Shuqi Fang
%J Trends in Renewable Energy
%P 185-197
%@ 2376-2144
%D 2015
%R 10.17737/tre.2015.1.3.0016
%X Macroalgae (mainly marine macroalgae, i.e. seaweeds) are considered as a very promising source for bioethanol production, because they have high carbohydrate contents, superior productivity, and wide adaptability. Macroalgae are generally grouped into three major categories: red, green, and brown algae. Each category has thousands of species, and each species possesses its unique cellular structure, biochemistry, and constitutes. Converting macroalgae to bioethanol involves pretreatment, saccharification, fermentation, and distillation; and the establishment of economic pretreatment methods is always the first key step for bioethanol production. In present, dilute-acid or alkali hydrolysis is typically used to treat macroalgal biomass. Macroalgae can be depolymerized under mild conditions as they have low lignin content. The resulting polysaccharides can be converted to ethanol through enzymatic hydrolysis, followed by adding bacteria, such as Saccharomyces cerevisiae and recombinant Escherichia coli KO11. Compared with the separate hydrolysis and fermentation process, the simultaneous saccharification and fermentation process often provided higher ethanol titer and conversion efficiency. However, the research on bioethanol production from macroalgae is still in its early stage due to both technical and economic barriers, significant amount of research and development work is needed prior to the commercialization of bioethanol manufacture from macroalgae.
%K Macroalgae
%K Bioethanol
%K Marine Macroalgae
%K Seaweeds
%K Pretreatment
%K Hydrolysis
%K Saccharification
%K Fermentation
%U http://futureenergysp.com/index.php/tre/article/view/16