Main Field of Study and progress level:
Chemistry: Second cycle, in-depth level of the course cannot be classified
Grading scale: Pass with distinction, Pass with merit, Pass, Pass with distinction, Pass, Fail
Responsible department: Department of Chemistry
Contents
The aim of this course is to establish a basic understanding of the different types of chemical and physical methods that may be employed on-line, at-line and in-line to monitor chemical processes. Examples of spectroscopic, chromatographic, physical and electrochemical devices will be discussed. Sampling procedures and sample pre-treatment methods will be considered in detail and the use of multivariate chemometric analysis to convert sensor response data into control parameters for process optimization will be examined. In the context of such optimization, particular attention will be given to maximizing yield and minimizing process waste in order to improve both external and internal industrial environments.
Required Knowledge
Analytical Chemistry (5KE081, 15 hp), or the equivalent.
For students at the Master of Science Programme in Energy Engineering: Engineering Chemistry I (5KE040, 7.5 hp), Engineering Chemistry II (5KE090, 7.5 hp), Combustion, Gasification and Pyrolysis (5KE015, 7,5 hp) and Measurement and Control Systems (5EN015, 7.5 hp).
Proficiency in English equivalent to Swedish upper secondary course English A (IELTS (Academic) with a minimum overall score of 5.5 and no individual score below 5.0. TOEFL PBT
(Paper-based Test) with a minimum total score of 530 and a minimum TWE score of 4. TOEFL iBT (Internet-based Test) with a minimum total score of 72 and a minimum score of 17 on the Writing Section).
Where the language of instruction is Swedish, applicants must prove proficiency in Swedish to the level required for basic eligibility for higher studies.
