Technische Universität Ilmenau

Batterien und Brennstoffzellen - Modultafeln of TU Ilmenau

The Modultafeln have a pure informational character. The legally binding information can be found in the corresponding Studienplan and Modulhandbuch, which are served on the pages of the course offers. Please also pay attention to this legal advice (german only).
Information on the room and time of planned courses can be found in the e-calendar of events. Courses and examinations that are not listed in the e-calendar of events are planned "by appointment". A list of the events concerned can be found here: courses, examinations.

module properties 100105 - common information
module number100105
departmentDepartment of Electrical Engineering and Information Technology
ID of group 2172 (Group of Materials for Electrical Engineering and Electronics)
module leaderProf. Dr. Peter Schaaf
requirements

Grundkenntnisse der elektrochemischen Thermodynamik und Kinetik

learning outcome

Die Studierenden haben vertiefte Kenntnisse zur Funktionsweise der wichtigsten elektrochemischen Speicher und Wandler erworben. Sie können die Leistungsdaten dieser Systeme bewerten und für eine gegebene Anwendung (Unterhaltungselektronik, Elektromobilität, Netzstabilisierung) ein geeignetes System auswählen.

Details in major Master Elektrotechnik und Informationstechnik 2014 (EWT)
module nameBatterien und Brennstoffzellen
credit points5
Obligationobligatory elective
certificate of the module Individual achievements or exams
details of the certificate
Details in major Master Elektrochemie und Galvanotechnik 2013
module nameBatteries and fuel cells
credit points5
Obligationobligatory
certificate of the module Individual achievements or exams
details of the certificate
subject properties subject number 100105 - common information
subject number100105
departmentDepartment of Electrical Engineering and Information Technology
ID of group2175 (Electrochemistry and Electroplating Group)
subject leaderProf. Dr. Andreas Bund
languageEnglisch
term Sommersemester
previous knowledge and experience

Basic understanding of electrochemical thermodynamics and kinetics

learning outcome

The students have acquired in-depth knowledge of the functioning of the most important electrochemical storage devices and converters. They are able to evaluate the performance data of these systems and select a suitable system for a given application (e.g. consumer electronics, electro mobility, grid stabilization).

content
  • Thermodynamic and kinetic principles of fuel cells and batteries
  • Fundamentals and applications of important fuel cell types such as polymer electrolyte membrane fuel cell, direct alcohol fuel cell, alkaline fuel cell, phosphoric acid fuel cell, molten carbonate fuel cell, solid oxide fuel cell
  • Stationary and mobile applications of fuel cells
  • Preparation and distribution of hydrogen
  • Basics and applications of important battery types such as lead acid battery, nickel-based batteries, lithium-based batteries, redox-flow batteries, metal-air batteries
  • Battery management
media of instruction

Tafelanschrieb

Projektor

literature / references

Allen J. Bard, Larry R. Faulkner: Electrochemical methods: Fundamentals and applications, 2nd edition, John Wiley & Sons, 2001

C.H. Hamann, A. Hamnett, W. Vielstich: Electrochemistry, 2nd edition. Wiley-VCH, 2007

K. Kordesch, G. Simader: Fuel cells and their application. Wiley-VCH, 1996

J. Larminie, A. Dicks: Fuel cell systems explained, 2nd edition. John Wiley & Sons, 2003

Ryan O'Hayre, Suk-Won Cha, Whitney Colella, Fritz B. Prinz: Fuel cells fundamentals, 2nd edition. John Wiley & Sons, 2009

D. Linden, T. B. Reddy: Handbook of Batteries, 3rd edition. McGraw-Hill, 2002

Claus Daniel, Jürgen O. Besenhard: Handbook of Battery Materials (two volumes), 2nd edition. Wiley-VCH, 2011

evaluation of teaching

Pflichtevaluation:

SS 2014 (Fach)

 

Freiwillige Evaluation:

 

Hospitation:

Details in major Master Elektrotechnik und Informationstechnik 2014 (EWT), Master Micro- and Nanotechnologies 2016, Master Maschinenbau 2017
subject nameBatteries and fuel cells
examination number2100375
credit points5
on-campus program (h)45
self-study (h)105
Obligationobligatory elective
examalternative examination performance, 90 minutes
details of the certificate

The final grade of the module is calculated from the following individual performances:

Successful participation in the final examination (written, 90 min.) at the end of the lecture period: 40 percent of the module grade

Successful participation in the seminar during the lecture period: 30 percent of the module grade

Successful completion of the lab work during the lecture period and preparation of a report for each lab work experiment: 30 percent of the module grade

The maximum capacity for the lab work is 30 students.

Signup details for alternative examinationsDie Anmeldung zur alternativen semesterbegleitenden Abschlussleistung erfolgt über das Prüfungsverwaltungssystem (thoska) außerhalb des zentralen Prüfungsanmeldezeitraumes. Die früheste Anmeldung ist generell ca. 2-3 Wochen nach Semesterbeginn möglich. Der späteste Zeitpunkt für die An- oder Abmeldung von dieser konkreten Abschlussleistung ist festgelegt auf den (falls keine Angabe, erscheint dies in Kürze):
maximum number of participants
Details in major Master Regenerative Energietechnik 2013, Master Regenerative Energietechnik 2016
subject nameBatteries and fuel cells
examination number2100426
credit points5
on-campus program (h)45
self-study (h)105
Obligationobligatory
examnone
details of the certificate

Die alternative Prüfungsleistung ergibt sich aus folgenden Einzelleistungen:

  • erfolgreiche Teilnahme an der Abschlussprüfung am Ende der Vorlesungszeit:
    40 Prozent der Modulnote
  • erfolgreiche Teilnahme am Seminar während der Vorlesungszeit:
    30 Prozent der Modulnote
  • erfolgreiche Bearbeitung der Praktikumsversuche während der Vorlesungszeit sowie Erstellung eines Berichts zu jedem Praktikumsversuch:
    30 Prozent der Modulnote
Signup details for alternative examinations
maximum number of participants
Details in major Master Elektrochemie und Galvanotechnik 2013
subject nameBatteries and fuel cells
examination number2100375
credit points5
on-campus program (h)45
self-study (h)105
Obligationobligatory
examalternative examination performance, 90 minutes
details of the certificate

The final grade of the module is calculated from the following individual performances:

Successful participation in the final examination (written, 90 min.) at the end of the lecture period: 40 percent of the module grade

Successful participation in the seminar during the lecture period: 30 percent of the module grade

Successful completion of the lab work during the lecture period and preparation of a report for each lab work experiment: 30 percent of the module grade

The maximum capacity for the lab work is 30 students.

Signup details for alternative examinationsDie Anmeldung zur alternativen semesterbegleitenden Abschlussleistung erfolgt über das Prüfungsverwaltungssystem (thoska) außerhalb des zentralen Prüfungsanmeldezeitraumes. Die früheste Anmeldung ist generell ca. 2-3 Wochen nach Semesterbeginn möglich. Der späteste Zeitpunkt für die An- oder Abmeldung von dieser konkreten Abschlussleistung ist festgelegt auf den (falls keine Angabe, erscheint dies in Kürze):
maximum number of participants