Abstract
Diverse and abundant applications of the eutectic solvents have appeared in the last years. Their promising tunable properties, eco-friendly character and the possibility of being prepared from numerous compounds have led to the publication of numerous papers addressing their use in different areas. Terpenes and terpenoids have been employed in the formulation of eutectic solvents, though they also have been applied as solvents in extraction processes. For their hydrophobic nature, renewable character, low environmental impact, cost and being non-hazardous, they have also been proposed as possible substitutes of conventional solvents in the separation of organic compounds from aqueous streams, similarly to hydrophobic eutectic solvents. The present work reviews the application of eutectic solvents in liquid–liquid extraction and terpenes and terpenoids in extraction processes. It has been made a research in the current state-of-the-art in these fields, describing the proposed applications of the solvents. It has been highlighted the scale-up feasibility, solvent regeneration and reuse procedures and the comparison of the performance of eutectic solvents, terpenes and terpenoids in extraction with conventional organic solvents or ionic liquids. Ultimately, it has been also discussed the employ of predictive methods in extraction, the reliability of thermodynamic models in correlation of liquid–liquid equilibria and simulation of liquid–liquid extraction processes.
Highlights
In the past two decades, the number of research papers focused on the application of deep eutectic solvents as an alternative to conventional solvents and ionic liquids in various and numerous areas has increased
Warrag et al (2018) [71] compared the performance of the eutectic solvents formed by and in the extraction of thiophene with the results showed by ionic liquids
A wide variety of hydrophilic eutectic solvents were applied in the separation of alcohols from hydrocarbons and in the extraction of high added-value compounds
Summary
In the past two decades, the number of research papers focused on the application of deep eutectic solvents as an alternative to conventional solvents and ionic liquids in various and numerous areas has increased. This rise is due to the search of processes environmentally friendly as eutectic solvent present promising and advantageous characteristics [1]. DES have notable advantages as starting materials could cost 10 times less than ionic liquids and can be prepared under mild conditions by mixing the components without further purification stages.
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