%0 Journal Article
%@ 01968904
%A Tien Thanh, N.
%A Mostapha, M.
%A Lam, M.K.
%A Ishak, S.
%A Kanna Dasan, Y.
%A Lim, J.W.
%A Tan, I.S.
%A Lau, S.Y.
%A Chin, B.L.F.
%A Hadibarata, T.
%D 2022
%F scholars:16283
%I Elsevier Ltd
%J Energy Conversion and Management
%K Biodiesel; Biomass; Energy efficiency; Microorganisms; Reaction kinetics; Thermodynamics; Transesterification, Biodiesel production; Critical review; Energy efficient; In-situ transesterification; Micro-algae; Processing parameters; Reaction parameters; Situ transesterification; Techno-economics; Two-step process, Microalgae
%R 10.1016/j.enconman.2022.116212
%T Fundamental understanding of in-situ transesterification of microalgae biomass to biodiesel: A critical review
%U https://khub.utp.edu.my/scholars/16283/
%V 270
%X One-step in-situ transesterification has been recognized as an alternative approach to produce biodiesel from microalgae biomass. Based on technoeconomic perspective, in-situ transesterification of microalgae is more energy efficient than the conventional two-step process and thus economically competitive for biodiesel production. However, a comprehensive review on the effect of processing parameters towards conversion efficiency of microalgae biomass to biodiesel via in-situ transesterification is still lacking in the literature. Therefore, this review was intended to deliberate on fundamental understanding of this technology, including the effect of different reaction parameters towards biodiesel yield, technoeconomic impact of using wet paste microalgae, biodiesel composition profiles, and the state-of-the-art of the process. Besides, reaction kinetic and thermodynamics aspect of in-situ transesterification from microalgae were also discussed in detail. This review also provided in-depth information for process design and intensification under dedicated in-situ transesterification reaction condition for sustainable biodiesel production. Concurrently, research gaps in in-situ transesterification process was addressed for future study. © 2022 Elsevier Ltd
%Z cited By 21