Oily waste to biosurfactant: A path towards carbon neutrality and environmental sustainability

Tons of oily waste accumulating worldwide has led to severe environmental problems and an increase in carbon footprint. The oily waste is rich in carbon and therefore its utilization as a substrate for the production of value-added products can aid in the concept of carbon neutrality. Oils can be directly utilized as substrate and microorgan-isms can catabolize them to produce biosurfactants. Biosurfactants being biodegradable and less toxic than synthetic surfactants are the molecules of the 21st century and are preferred candidates. Also, several fungal species can bio-transform oils to produce biosurfactants. Therefore, this study comprehensively summarizes different categories of oily waste generated worldwide, their sources, and environmental toxicity. The microbial efficiency towards oily waste utilization for the production of biosurfactants is reviewed. Following this, advance techniques including metabolic engineering, and omics approaches for biosurfactant production from this waste have been presented. Their global market and future perspective have been discussed to further emphasize the requirement for biosurfactants. The state-of-the-art information provided in various sections of this manuscript may aid the researchers to understand the relationship of oily waste utilization with carbon footprint generation. This directs attention and warrants future research towards the development of improved pathways/processes in oil waste based biorefineries.(c) 2023 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).

Automated summary

The accumulation of tons of oily waste worldwide has caused severe environmental problems and an increase in carbon footprint. Utilizing oily waste for the production of valuable products can contribute to carbon neutrality. Microorganisms can degrade oils to produce biodegradable biosurfactants, considered as the molecules of the 21st century. This study comprehensively reviews the categories, sources, and environmental toxicity of oily waste, as well as the microbial efficiency and advanced techniques for biosurfactant production. The market and future perspectives of biosurfactants are also discussed.