The Importance of Acetonitrile in the Pharmaceutical Industry and Opportunities for its Recovery from Waste

Autor:	Ian F. McConvey, Dean Woods, Paul Nancarrow, Quan Gan, Moira Lewis
Jazyk:	angličtina
Rok vydání:	2012
Předmět:	business.industry Chemistry Environmental profile Organic Chemistry Economic feasibility chemistry.chemical_compound Azeotropic distillation Biochemical engineering Physical and Theoretical Chemistry business Acetonitrile Pharmaceutical industry
Zdroj:	McConvey, I F, Woods, D, Lewis, M, Gan, Q & Nancarrow, P 2012, ' The Importance of Acetonitrile in the Pharmaceutical Industry and Opportunities for its Recovery from Waste ', Organic Process Research & Development, vol. 16, no. 4, pp. 612-624 . https://doi.org/10.1021/op2003503
DOI:	10.1021/op2003503
Popis:	Acetonitrile is regarded as a key solvent in the pharmaceutical industry. However, the volatility in acetonitrile supply in recent years, coupled with its relatively poor environmental profile, has presented significant challenges to its use in manufacturing processes and laboratories. This study investigates the importance of acetonitrile in the pharmaceutical industry and critically examines several options for reducing the exposure of the industry to future supply problems whilst also improving its life cycle management. The physicochemical properties of acetonitrile were compared with other typical process solvents and the Conductor-like Screening Model (COSMO) surfaces and sigma profiles were used to help explain the favorable solvation behaviour of acetonitrile. Several options for the replacement or recovery and recycle of acetonitrile were critically examined in the contexts of environmental, technical, and economic feasibility. Azeotropic distillation was found to be the most likely approach to recovering acetonitrile from aqueous waste streams. Several potential breaking agents were assessed against a range of selection rules based on residue curve maps, determined using the Universal Functional Activity Coefficient (UNIFAC) method, and potential processing issues. A range of ionic liquids were screened via the predictive Conductor-like Screening Model for Realistic Solvation (COSMO-RS) approach and several promising candidates were identified. Experimental vapor–liquid equilibria studies were carried out, confirming the feasibility of ionic liquid-enhanced azeotropic distillation as a novel approach to acetonitrile recovery.
Databáze:	OpenAIRE
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