• Must acquire knowledge about basic design principles and
modeling of chemical, biochemical, and biotechnological reactors.
• Must acquire knowledge about micro-reactors and their application in biotechnology.
• Must acquire knowledge on the underlying principles and the current state of molecular electronics.
• Must be able to apply the acquired knowledge to the design and
performance evaluation of batch and continuous flow reactors.
• Must be able to model chemical and biochemical reactors using COMSOL and other mathematical modeling software.
• Must have working knowledge and basic skills for designing,
modeling and evaluating of chemical, biochemical, and
• Must acquire an overview of the current progress in the area of molecular electronics.
Lectures and exercises.
This is a 5 ECTS course module and the work load is expected to be 150 hours for the student.
|Name of exam
|Reaction Engineering and Molecular Electronics
|Type of exam
|7-point grading scale
|Type of grading
|Criteria of assessment
|The criteria of assessment are stated in the Examination Policies and Procedures
|Engineering af reaktioner og molekylær elektronik
|Language of instruction
|Location of the lecture
|Responsible for the module
|Study Board of Mechanical Engineering and Physics
|Department of Materials and Production
|The Faculty of Engineering and Science