Developments in the use of lipase transesterification for biodiesel production from animal fat waste

F Toldrá-Reig, L Mora, F Toldrá - Applied Sciences, 2020 - mdpi.com
Applied Sciences, 2020mdpi.com
Biodiesel constitutes an attractive source of energy because it is renewable, biodegradable,
and non-polluting. Up to 20% biodiesel can be blended with fossil diesel and is being
produced and used in many countries. Animal fat waste represents nearly 6% of total
feedstock used to produce biodiesel through alkaline catalysis transesterification after its
pretreatment. Lipase transesterification has some advantages such as the need of mild
conditions, absence of pretreatment, no soap formation, simple downstream purification …
Biodiesel constitutes an attractive source of energy because it is renewable, biodegradable, and non-polluting. Up to 20% biodiesel can be blended with fossil diesel and is being produced and used in many countries. Animal fat waste represents nearly 6% of total feedstock used to produce biodiesel through alkaline catalysis transesterification after its pretreatment. Lipase transesterification has some advantages such as the need of mild conditions, absence of pretreatment, no soap formation, simple downstream purification process and generation of high quality biodiesel. A few companies are using liquid lipase formulations and, in some cases, immobilized lipases for industrial biodiesel production, but the efficiency of the process can be further improved. Recent developments on immobilization support materials such as nanoparticles and magnetic nanomaterials have demonstrated high efficiency and potential for industrial applications. This manuscript reviews the latest advances on lipase transesterification and key operational variables for an efficient biodiesel production from animal fat waste.
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