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| Course title | City | Start date | Credits |
|---|---|---|---|
| Advanced Topics in Process Systems Engineering | Kgs. Lyngby | - | 7,5 ECTS |
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DTU Department of Chemical and Biochemical Engineering
General course objectives:This course is aimed at introducing special topics from the current state of the art in process systems engineering. The objective is to give the participants a quick and thorough introduction to relevant advanced topics in proce |
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| Advanced Topics in Process Technology | Kgs. Lyngby | - | 7,5 ECTS |
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DTU Department of Chemical and Biochemical Engineering
General course objectives:This course is aimed at introducing special topics from the current state-of-the-art in process technology and engineering. The objective is to give the participants a quick, but thorough introduction to the latest developments i |
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| Advances in Chemical and Biochemical Engineering | Kgs. Lyngby | - | 2,5 ECTS |
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DTU Department of Chemical and Biochemical Engineering
General course objectives:General course objectives: Te main objective of the course is to familiarize the PhD candidates enrolled in the DTU Chemical Engineering PhD school with a broader spectrum of research activities of chemical and biochemical engine |
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| Automation and control of yeast fermentation | Kgs. Lyngby | - | 2,5 ECTS |
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DTU Department of Chemical and Biochemical Engineering
General course objectives:This course aims to provide participants with an understanding of the theory and skills needed to make decisions related to on-line sensor selection in view of establishing closed-loop control on a model fermentation process (yea |
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| Electrolyte Solution Thermodynamics | Kgs. Lyngby | - | 7,5 ECTS |
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DTU Department of Chemical and Biochemical Engineering
General course objectives:To introduce the participants to the thermodynamics of electrolyte solutions including the relevant modelsLearning objectives:A student who has met the objectives of the course will be able to:Select a proper thermodynamic model |
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| Process Engineering Laboratory | Kgs. Lyngby | - | 7,5 ECTS |
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DTU Department of Chemical and Biochemical Engineering
General course objectives:To train the students in operating large scale process plants, to understand the details in the industrial design and properties of industrial components, to relate the chemistry and engineering theory to practical application an |
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| Rheology of complex fluids (heavy) | Kgs. Lyngby | - | 7,5 ECTS |
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DTU Department of Chemical and Biochemical Engineering
General course objectives:To introduce the participants to rheology of complex fluids, in particular polymeric liquids and suspensions. The participants will learn how to characterise complex fluids and understand their flow behaviour.Learning objectives: |
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| Statistical Thermodynamics for Chemical Engineering | Kgs. Lyngby | - | 5 ECTS |
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DTU Department of Chemical and Biochemical Engineering
General course objectives:The goal of this course is the direct theoretical calculation of physical (bulk, macroscopic) properties based on first-principles, statistical mechanics considerations. The course will enable students to derive equations (of sta |
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| Thermodynamic Models, Fundamentals and Computational Aspects | Kgs. Lyngby | - | 7,5 ECTS |
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DTU Department of Chemical and Biochemical Engineering
General course objectives:The course is of relevance for researchers engaged in the development and implementation of thermodynamic models for process simulation.Learning objectives:A student who has met the objectives of the course will be able to:Derive |
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| Uncertainty and Sensitivity Analysis of Numerical Models | Kgs. Lyngby | - | 7,5 ECTS |
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DTU Department of Chemical and Biochemical Engineering
General course objectives:Modeling is actively used in various scientific and engineering disciplines for a variety of ends: from development of process understanding to design, control and operation of (natural or man-made) systems. Most numerical models |
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