Advanced Process and Energy Technologies
Faculteit | Science and Engineering |
Jaar | 2021/22 |
Vakcode | WMCE012-05 |
Vaknaam | Advanced Process and Energy Technologies |
Niveau(s) | master |
Voertaal | Engels |
Periode | semester II b |
ECTS | 5 |
Rooster | rooster.rug.nl |
Uitgebreide vaknaam | Advanced Process and Energy Technologies | ||||||||||||||||
Leerdoelen | At the end of the course, the student is able to: 1.Describe, discriminate and review important equipment and methods in process intensification, energy conversion and storage. 2.Explain and critically assess the characteristics and performance of typical examples of advanced process and energy technologies. 3.Apply the basic principles of advanced process and energy technologies to (re-)design the process and energy systems towards developing innovative solutions. 4.Work in a group and demonstrate their professional skills towards completing the process and energy system (re-)design in both writing and oral presentation formats. |
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Omschrijving | In this course, the following subjects about advanced process and energy technologies will be treated: - Fundamental concepts of process intensification - Compact heat exchangers - Structured catalysts and reactors - Microreactor technology - Chemical processing under high gravity field - Reactive separation - Industrial practice of process intensification - Energy storage: reactor and process systems for power- to-X conversion - Reactor and process systems for hydrothermal conversion of biomass to generate energy carriers - Elements of advanced power plant engineering |
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Uren per week | |||||||||||||||||
Onderwijsvorm |
Hoorcollege (LC)
(Lectures: 26 hours, self study: 114 hours) |
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Toetsvorm |
Presentatie (P), Verslag (R)
(Final report: 70%, final presentation: 30%. Each part (report or presentation) should have a grade of at least 5.5 in order to pass.) |
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Vaksoort | master | ||||||||||||||||
Coördinator | Prof. Dr. J. Yue | ||||||||||||||||
Docent(en) | prof. dr. ir. W. de Jong | ||||||||||||||||
Verplichte literatuur |
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Entreevoorwaarden | The course unit assumes prior knowledge acquired from the Bachelor degree programme in Chemical Engineering, especially those courses related to reactor engineering, catalysis, energy conversion and storage (e.g., the courses <Introduction to process and product technology>, <Technical thermodynamics>, <Physical transport phenomena 2>, <Single-phase reactors>, <Multiphase reactors>, <Separation technology>, <Catalysis for engineers>). | ||||||||||||||||
Opmerkingen | Criteria for marking the final report: - Content: 60% - Structure: 10 % - Clarity and completeness of description: 15 % - Language: 15 % Criteria for marking the final oral presentation (may differ for group members): - Content (broadness and depth): 40% - Structure: 20 % - Clarity: 20 % - Language: 20 % Each part (report or presentation) should have a grade of at least 5.5 in order to pass. To practice, two minor home assignments are handed over to the students during the course.These are compulsory but not graded. General feedback on the minor home assignments is given during the lectures and individual feedback is given on request. This course was registered last year with course code WMCH17001 |
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Opgenomen in |
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