Introduction into the " Waste to Energy " consisting of:
Thermal Process ( incinerator , RDF combustion )
Biological processes ( Wet-/Dryfermentation )
technology , energy , emissions, approval , etc.
Group work
design of systems/plants for energy recovery from waste
The following points are to be processed :
Input: waste ( fraction collection and transportation, current quantity , material flows , possible amount of development )
Plant (design, process diagram , technology, energy production )
Output ( energy quantity / type , by-products )
Costs and revenues
Climate and resource protection ( CO2 balance , substitution of primary raw materials / fossil fuels )
Location and approval (infrastructure , expiration authorization procedure)
Focus at the whole concept ( advantages, disadvantages , risks and opportunities , discussion )
Grading: No Exam , but presentation of the results of the working group
Leistungsnachweis:
620 - Waste and Energy<ul><li>620 - Waste and Energy: Presentation</li></ul><br>621 - Waste and Energy<ul><li>620 - Waste and Energy: Presentation</li><li>821 - Compulsory Course Work Waste and Energy - Written Essay: schriftliche Ausarbeitung</li></ul>
ECTS-Kreditpunkte:
2
Weitere Informationen aus Stud.IP zu dieser Veranstaltung
Heimatinstitut: Institut für Circular Resource Engineering and Management [CREM] (V-11)
In Stud.IP angemeldete Teilnehmer: 34
Anzahl der Dokumente im Stud.IP-Downloadbereich: 11
Supervised Theses
ongoing
2024
Ahmed, Taha (2024). Development of an iterative multi-agent coordination framework for congestion prevention in low voltage grids.
Busch, Marcel (2024). Entwicklung eines Netzmodells zur szenarienbasierten Untersuchung von Engpässen in heutigen und zukünftigen städtischen Verteilnetzen.
Krammer, Friederike (2024). Entwicklung eines Algorithmus zur Koordinierung flexibler Prosumer zur Netzengpassvermeidung in Niederspannungssträngen.
Wilke, Jan Jakob (2024). Definition leistungsbasierter Netzregeln zur Engpassvermeidung in elektrischen Verteilnetzen.