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Advanced topics in separation methods including: selection of separation methods, membrane separations, pervaporation, ion exchange, adsorption, multi-component distillation, and liquid-liquid extraction.
Learning Outcomes:At the end of the course the students are expected to be able to:Develop process designs for any of the separations covered with a fundamental understanding of the physical and chemical phenomena occurring.Be able to select appropriate separation techniques for chemical processing from separations covered in ENCH396, ENCH496 and others.Carry out detailed design calculations for separation processes.
ENCH396
For further information see Chemical and Process Engineering Head of Department
Seader, J. D. , Henley, Ernest J., Roper, D. Keith; Separation process principles : chemical and biochemical operations ; 3rd ed; Wiley, 2011.
This course develops further the study of separation methods introduced in ENCH396. It aims to provide understanding of, and the ability to analyse, a wider range of process separation operations and to select the appropriate technology for a particular separation and thus provides knowledge and skills needed in ENCH494 (Process Design 3) and useful to chemical and process engineering graduates. The course will cover the following topics:Packed column distillation and design Liquid-liquid extraction (binary/tertiary)Advanced adsorption processes Advanced membrane separation Particle technology Introduction to supercritical technologyAdvanced drying technology and (de-) humidification (SSP)
Domestic fee $777.00
International fee $4,375.00
* All fees are inclusive of NZ GST or any equivalent overseas tax, and do not include any programme level discount or additional course-related expenses.
For further information see Chemical and Process Engineering .