302.691 Thermodynamics of Advanced and Alternative Energy Conversion Methods
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2022S, VU, 2.0h, 3.0EC
Lecture TubeTUWEL

Properties

  • Semester hours: 2.0
  • Credits: 3.0
  • Type: VU Lecture and Exercise
  • LectureTube course
  • Format: Presence

Learning outcomes

After successful completion of the course, students are able to:

  • distinguish between different concepts of waste heat recovery and to select the best one for a certain case of application
  • apply knowledge about multicomponent systems on refrigeration cycles, heat pumps and power cycles
  • explain the manner of operation of a fuel cell
  • distinguish the different types of fuel cells
  • describe the concept of thermochemical energy storage and to perform basic design calculations
  • to distinguish the different concepts of seewater-desalination and to determine the energy demand

Subject of course

  • Basics of multicomponent systems - as far as necessary for discussed applications
  • Absorption-refrigerations and Absorption-heat pumps
  • Kalina-, ORC- and sCO2-cycles for heat recovery
  • Fuel Cells: thermodynamics, efficiencies, types
  • Thermochemical energy storage: materials, themodynamics and process integration
  • Seawater desalination

Teaching methods

  • lecture
  • presentation of examples
  • discussion with students
  • performing basic design calculations

Mode of examination

Written

Additional information


 

Lecturers

Institute

Course dates

DayTimeDateLocationDescription
Fri09:00 - 11:0004.03.2022 - 24.06.2022HS Atrium 2 Unit
Fri09:00 - 11:0029.04.2022 - 24.06.2022Sem.R. DA grün 02 A 302.691
Thermodynamics of Advanced and Alternative Energy Conversion Methods - Single appointments
DayDateTimeLocationDescription
Fri04.03.202209:00 - 11:00HS Atrium 2 Unit
Fri11.03.202209:00 - 11:00HS Atrium 2 Unit
Fri18.03.202209:00 - 11:00HS Atrium 2 Unit
Fri25.03.202209:00 - 11:00HS Atrium 2 Unit
Fri01.04.202209:00 - 11:00HS Atrium 2 Unit
Fri08.04.202209:00 - 11:00HS Atrium 2 Unit
Fri29.04.202209:00 - 11:00Sem.R. DA grün 02 A 302.691
Fri29.04.202209:00 - 11:00HS Atrium 2 Unit
Fri06.05.202209:00 - 11:00Sem.R. DA grün 02 A 302.691
Fri06.05.202209:00 - 11:00HS Atrium 2 Unit
Fri13.05.202209:00 - 11:00Sem.R. DA grün 02 A 302.691
Fri13.05.202209:00 - 11:00HS Atrium 2 Unit
Fri20.05.202209:00 - 11:00Sem.R. DA grün 02 A 302.691
Fri20.05.202209:00 - 11:00HS Atrium 2 Unit
Fri03.06.202209:00 - 11:00Sem.R. DA grün 02 A 302.691
Fri03.06.202209:00 - 11:00HS Atrium 2 Unit
Fri10.06.202209:00 - 11:00Sem.R. DA grün 02 A 302.691
Fri10.06.202209:00 - 11:00HS Atrium 2 Unit
Fri17.06.202209:00 - 11:00Sem.R. DA grün 02 A 302.691
Fri17.06.202209:00 - 11:00HS Atrium 2 Unit

Examination modalities

  • presence and collaboration
  • delivery of an elaborated basic design example

Course registration

Use Group Registration to register.

Group Registration

GroupRegistration FromTo
Werner12.01.2022 08:00

Curricula

Study CodeSemesterPrecon.Info
066 445 Mechanical Engineering STEOP
Course requires the completion of the introductory and orientation phase
066 460 Physical Energy and Measurement Engineering
066 460 Physical Energy and Measurement Engineering
066 473 Chemical and Process Engineering
066 482 Mechanical Engineering - Management STEOP
Course requires the completion of the introductory and orientation phase

Literature

No lecture notes are available.

Language

German