course-details-portlet

TMT4285 - Hydrogen Technology, Fuel Cells, Batteries and Solar Cells

About

Examination arrangement

Examination arrangement: Written examination
Grade: Letters

Evaluation Weighting Duration Grade deviation Examination aids
Written examination 100/100 4 timer

Course content

Solar radiation. Semiconductors. Electric power from solar cells, principles of operation, characteristics. Power losses and efficiency. Sizing and construction of solar-cell systems. Production and storage of hydrogen. Water electrolysis. Electrical energy from fuel cells. Thermodynamic and kinetic calculations for electrolysis- and fuel cells. Safety in hydrogen handling. Storage of electrical energy in batteries. Applications of solar cells, hydrogen and fuel cells in stationary and mobile systems. Economical and energy analyses for the introduction of energy systems based on renewable energy resources and hydrogen.

Learning outcome

The student will after course completion be able to describe the principles of solar cells based on pn-junctions, galvanic cells, and electrolysis cells, define efficiencies and relate these to fundamental physical quantities (for solar cells their band gaps and the solar spectrum, for fuel cells thermodynamic quantities free energy, enthalpy, entropy).
She will be able to point out the central parts of the solar cell or the fuel cell/battery and explain their functions. He will be able to describe the the physical implementation of the components and account for typical material choices made in state-of-the-art cells. The student will be able to describe the following fuel cells and account for the advantages and drawbacks: PEMFC, and SOFC.
The student will be able to account for the most central principles of hydrogen production and storage. The student will have knowledge about the most common secondary batteries: Lead-acid, Li-ion and Ni metal hydride.
The student is able to perform quantitative (analytical) calculations associated with the concepts above, including calculations of efficiency in the presence of ohmic losses and overpotentials for fuel cells and batteries, and simple calculations associated with solar cell characteristics. In addition the student will be able to calculate solar radiation on a tilted solar cell panel facing south, at a given time of the year and position, given the solar irradiation at a horizontal panel at the same time and position. The student will also be able to use a simple laboratory setup for water electrolysis and a fuel cell.
The student will be able to account for the general principles of well-to-wheel analyses, and perform simple calculations associated with this.

Learning methods and activities

Lectures, problem sets and laboratory experiments. Invited lectureres from industry and business. 50% of the problem sets and the laboratory assignment have to be approved before examination. If the teaching is given in English the Examination papers can be given in English only. Students are free to choose Norwegian or English for written assessments.

Compulsory assignments

  • Exercises

Further on evaluation

In case of a re-sit examination, the examination form may be changed from written to oral.

Course materials

(a) "Solar Electricity", ed. by Tomas Markvart, 2.ed., Wiley (2000), ISBN-0-471-98852-9 (ppc) eller ISBN-0-471-98853-7 (paper back).
(b) Written exercises, laboratory exercises and other distributed materials are also required reading list for exam.

Credit reductions

Course code Reduction From To
SIK5066 7.5
More on the course

Facts

Version: 1
Credits:  7.5 SP
Study level: Second degree level

Coursework

Term no.: 1
Teaching semester:  SPRING 2018

Language of instruction: English, Norwegian

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Subject area(s)
  • Physics
  • Materials Science and Engineering
  • Technological subjects
Contact information
Course coordinator: Lecturer(s):
  • Ann Mari Svensson

Department with academic responsibility
Department of Materials Science and Engineering

Examination

Examination arrangement: Written examination

Term Status code Evaluation Weighting Examination aids Date Time Examination system Room *
Spring ORD Written examination 100/100 2018-06-01 09:00
Room Building Number of candidates
Summer UTS Written examination 100/100 2018-08-08 09:00
Room Building Number of candidates
  • * The location (room) for a written examination is published 3 days before examination date. If more than one room is listed, you will find your room at Studentweb.
Examination

For more information regarding registration for examination and examination procedures, see "Innsida - Exams"

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