Simplifying biodiesel production: The direct or in situ transesterification of algal biomass

Abstract: The in situ esterification/transesterification of algal biomass lipids to produce FAME for potential use as biodiesel was investigated. Commercial algal biomass was employed, containing 20.9 wt% hexane extractable oil. This consisted of 35.1 wt% free fatty acids (FFA), 18.2 wt% TAG, and 8.8 wt% MAG, accounting for 62.1% of the extractable material. Other constituents of the hexane extractable material, accounting for 37.9% of the extracts, were not further characterized. The predominant fatty acids in the oil … Show more

“…Moreover, a high solvent-to-microalgae biomass ratio (Carvalho Júnior et al, 2011;Velasquez-Orta et al, 2012), high catalyst loading (Haas and Wagner, 2011;Velasquez-Orta et al, 2012) or high reaction temperature (e.g., >90°C) (Cao et al, 2013;Dong et al, 2013;Kumara et al, 2014;Tsigie et al, 2012) are required to achieve a high biodiesel yield. In addition, some studies (Cao et al, 2013;Kumara et al, 2014) indicate that the water content has significant, negative effects on the one-step direct transesterification process.…”

Biodiesel production from wet microalgae feedstock using sequential wet extraction/transesterification and direct transesterification processes

“…Moreover, a high solvent-to-microalgae biomass ratio (Carvalho Júnior et al, 2011;Velasquez-Orta et al, 2012), high catalyst loading (Haas and Wagner, 2011;Velasquez-Orta et al, 2012) or high reaction temperature (e.g., >90°C) (Cao et al, 2013;Dong et al, 2013;Kumara et al, 2014;Tsigie et al, 2012) are required to achieve a high biodiesel yield. In addition, some studies (Cao et al, 2013;Kumara et al, 2014) indicate that the water content has significant, negative effects on the one-step direct transesterification process.…”

Biodiesel production from wet microalgae feedstock using sequential wet extraction/transesterification and direct transesterification processes

“…Another approach to minimize energy demand, process steps and use of organic solvents is the direct or in situ transesterification (Table 3), which is the direct treatment of lipid containing biomass for production of biodiesel (FAMEs or FAEEs) by combining extraction and transesterification methods [64]. For example, Patil et al investigated the direct transesterification of wet microalgae using supercritical methanol and obtained highly purified extracts [65].…”

Valorisation of food waste in biotechnological processes

“…Direct transesterification is promising technique that generates fatty acid methyl esters (FAMEs) from wet algal biomass. It eliminates the need to isolate and purify lipid before converting it to biodiesel, which could be reduced the cost of biodiesel production [8]. However, this method has a problem that moisture content is a limiting factor for conversion efficiency of triglyceride [9,10].…”

Single-step conversion of wet Nannochloropsis gaditana to biodiesel under subcritical methanol conditions