Abstract
Selection of the most appropriate remediation technology must coincide with the environmental characteristics of the site. The risk to human health and the environment at the site must be reduced, and not be transferred to another site. Biosurfactants have the potential as remediation agents due to their biodegradability, low toxicity, and effectiveness. Selection of biosurfactants should be based on pollutant characteristics and properties, treatment capacity, costs, regulatory requirements, and time constraints. Moreover, understanding of the mechanisms of interaction between biosurfactants and contaminants can assist in selection of the appropriate biosurfactants for sustainable remediation. Enhanced sustainability of the remediation process by biosurfactants can be achieved through the use of renewable or waste substrates, in situ production of biosurfactants, and greener production and recovery processes for biosurfactants. Future research needs are identified.
Subject
Biomedical Engineering,Histology,Bioengineering,Biotechnology
Reference82 articles.
1. Remediation of iron using rhamnolipid-surfactant produced by Pseudomonas aeruginosa.;Akintunde;Res. J. Environ. Sci,2015
2. Remediation of a heavy metal and PAH-contaminated sediment by a rhamnolipid foam;Alavi;Proceedings of the Geo-Environmental Engineering 2011, Takamatsu, Japan, May 21-22, 2011.,2011
3. Study of enhanced oil recovery by rhamnolipids in a homogeneous 2D micromodel.;Amani;J. Pet. Sci. Technol,2015
4. Reduction of chromium in water and soil using a rhamnolipid biosurfactant.;Ara;Geotech. Eng. J. SEAGS AGSSEA,2015
5. An eco-friendly method for heavy metal from mine tailings.;Arab;Environ. Sci. Poll. Res,2018
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