pre042 - Water and Biomass Energy (Vollständige Modulbeschreibung)
Modulbezeichnung | Water and Biomass Energy |
Modulkürzel | pre042 |
Kreditpunkte | 6.0 KP |
Workload | 180 h
( 180 Stunden )
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Einrichtungsverzeichnis | Institut für Physik |
Verwendbarkeit des Moduls |
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Zuständige Personen |
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Teilnahmevoraussetzungen | |
Kompetenzziele | After the completion of the module students should be able to - critically evaluate and compare two Renewable Energy conversion processes which allow - confront those systems to a Renewable Energy conversion process with intermittent output - discuss extreme situations in Renewable Energy systems’ source and transfer such situations - analyse various system components and their interconnections within a complex Renewable - evaluate the Renewable Energy supply systems’ operational size and efficiency, - critically evaluate non-technical impact and side effects when implementing renewable |
Modulinhalte | Biomass Energy (Lecture - 90 h workload) – Energy mix overview; gas, heat, electricity, Pros and Cons, of biomass, – Chemical composition of biomass: sugar, cellulose, starch, fats, oils, proteins, lignin, – Natural photosynthesis in plants: chemical storage of solar energy; general mechanisms, – Chemistry and Biology (microorganism) of Biogas Technology, – Conversion processes of biomass: classification, main pathways, – Introduction to catalysis used in biomass conversion, – Chemical fuels (chemical energy storage) from biomass, – Routes to platform chemicals and separation processes, – Technology concepts for bioenergy usage, – Introduction into economical and legal constraints.
Hydro and Marine Power (Lecture + Excursion - 90 h workload) – Revision of hydraulic basics and their application to hydro and marine power. – Hydropower and marine power resources and their representation – Technological and economical state of the art. |
Literaturempfehlungen | Biomass Energy – IEA (2019), Renewables 2019, IEA, Paris https://www.iea.org/reports/renewables- – The role of Anaerobic Digestion and Biogas in the Circular Economy. Murphy, J.D. (Ed.) IEA - IEA (2020), Outlook for biogas and biomethane: Prospects for organic growth, IEA, Paris https://www.iea.org/reports/outlook-for-biogas-and-biomethane-prospects-for-organic-growth - International Finance Corporation. 2017. Converting Biomass to Energy: A Guide for - Cushion, Elizabeth, Adrian Whiteman, and Gerhard Dieterle. Bioenergy development: issues - Pehlken, A., Wulf, K., Grecksch, K., Klenke, T., Tsydenova, N.; More Sustainable Bioenergy by - Schlögl, Robert (2013). Chemical energy storage (Elektronische Ressource ed.). Berlin [u.a.]: - Sackheim, G.I., Lehman, D.D.: Chemistry for the Health Sciences - Chemistry – General, Organic and Biological, Pearson International Edition (2nd edition), 2007 - Alonso, D.M., Bond, J.Q., Dumesic, J.A., Catalytic conversion of biomasses to biofuels, Green
Hydro and Marine Power - Charlier R.H., (2009) Ocean Energy: Tide and Tidal Power. - Chtrakar P (2005) Micro-hydropower design aids manual: Small Hydropower Promotion - Croockewit J (2004) Handbook for developing micro hydro in British Columbia: BChydro. 69 - Giesecke J, Heimerl S, Mosonyi E (2014) Wasserkraftanlagen: Springer Vieweg. XXVI, 940 p. - Inversin AR (1986) Micro-hydropower sourcebook: NRECA International Foundation. - Meder K (2011) Environment Assessment and Watershed Action Planning related to GIZ ECO
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Links | |
Unterrichtssprache | Englisch |
Dauer in Semestern | 1 Semester |
Angebotsrhythmus Modul | Wintersemester |
Aufnahmekapazität Modul | unbegrenzt |
Hinweise | Within the lecture Hydro and Marine Power an excursion to a hydropower plant and the catchment area will be offered. The duration of this excursion will be in total 5 hours. It is recommended to know the basics of photosynthesis. |
Modulart | Pflicht / Mandatory |
Modullevel | MM (Mastermodul / Master module) |
Vorkenntnisse | Basics of - Hydrodynamics - Mechanical Engineering - Electrical Engineering - Recommended: Basic knowledge of General Chemistry |
Lehrveranstaltungsform | Kommentar | SWS | Angebotsrhythmus | Workload Präsenz |
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Vorlesung | 2 | SoSe oder WiSe | 28 | |
Seminar | 2 | SoSe oder WiSe | 28 | |
Präsenzzeit Modul insgesamt | 56 h |
Prüfung | Prüfungszeiten | Prüfungsform |
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Gesamtmodul | End of Winter Semester |
Written Exam and active participation |