lunduniversity.lu.se

Forskar­utbildnings­kurser

Faculty of Engineering | Lund University

Detaljer för kursplan för kurs MVKP25F giltig från och med Spring 2021

Utskriftsvänlig visning

Allmänt
Syfte
  • The course aims to provide the students with knowledge and understanding concerning hydrogen as an energy carrier and how to produce and store it. In addition, description, applications, and analysis of electrochemical devices like batteries, fuel cells and electrolyzers are presented. The basic mechanisms of momentum, heat, mass, charge (ion and current) transport phenomena are analyzed and introduction to modeling with focus on thermal management is presented. The students should reach ability to understand and apply the theory on engineering problems.
Innehåll
  • The course covers hydrogen as an energy carrier and how to produce and store it.. Electrochemical conversion in batteries and fuel cells is described and analyzed. All major transport processes (of momentum, heat, mass, ion and current (charge)) and thermal management issues are presented. System integration is described. Properties and characteristics of energy relevant materials and their role in electrochemical devices are treated. Relevance for energy systems and the transportation sector is discussed. Various engineering problems are presented.

Kunskap och förståelse
  • För godkänd kurs skall doktoranden
  • be able to describe methods for production and storage of hydrogen especially based on renewable energy resources like solar and wind power
    be able to explain the basic electrochemical conversion processes
    understand the principles and function of various batteries
    be able to explain the relation between material properties and the performance of a battery, especially lithium-ion battery
    be able to describe usage and engineering aspects of batteries in vehicles
    understand engineering opportunities and applications of batteries
    be able to explain the principles of various fuel cells, focus on PEMFC and SOFC
    understand under what conditions analytical or empirical methods are applicable
    understand the basic governing equations and methods for modeling, especially thermal management of batteries and fuel cells
    be able to set up models for estimation of performance of electrochemical devices
Färdighet och förmåga
  • För godkänd kurs skall doktoranden
  • be able to analyze different transport phenomena and electrochemical processes in batteries and fuel cells.
    be able to describe methods of hydrogen production and storage
    be able to describe opportunities for batteries and fuel cells in vehicles
    be able to critically review methods for analysis of performance of electrochemical devices and thermal management.

Värderingsförmåga och förhållningssätt
  • För godkänd kurs skall doktoranden
  • be able to participate in discussions and judgement of relevant problems related to electrochemical conversion and devices
    be able to to present analysis and synthesis of basic phenomena and governing equations for batteries and fuel cells both in a written way and orally

Undervisningsformer
  • Föreläsningar
  • Seminarier
  • Projekt
  • övrigt
  • Guest lectures. Problem solving is integrated in the lectures
Examinationsformer
  • Skriftlig tentamen
  • Skriftlig rapport
  • Inlämningsuppgifter
  • Seminarieföredrag av deltagarna
  • The examination process have three components: Assignments, project including report and seminar, written exam. More details in separate document.
  • Underkänd, godkänd
Förkunskapskrav
  • course is given in English
Förutsatta förkunskaper
  • Thermodynamics and optionally heat transfer and fluid mechanics
Urvalskriterier
  • no selection criteria as long as prior knowledge is satisfactory
Litteratur
  • Sunden, B.: Hydrogen, batteries and fuel cells. Elsevier-Academic Press, 2019. ISBN 9780128169506.
  • available as ebook for students via LU library
    https://lubcat.lub.lu.se/cgi-bin/koha/opac-detail.pl?biblionumber=6309699
Övrig information
  • bengt.sunden@energy.lth.se
Kurskod
  • MVKP25F
Administrativ information
  • 2021-03-29
  • Anders Gustafsson/ FUN

Alla publicerade kurstillfällen för kursplanen

5 kurstillfällen.

Kurskod ▽ Kursnamn ▽ Avdelning ▽ Inrättad ▽ Kursplan giltig från ▽ Startdatum ▽ Slutdatum ▽ Publicerad ▽
MVKP25F Hydrogen, Batteries and Fuel Cells Energy Sciences 2021‑04‑07 Spring 2021 2021‑03‑22 2021‑06‑06 2021‑04‑07
MVKP25F Hydrogen, Batteries and Fuel Cells Energy Sciences 2022‑01‑19 Spring 2021 2022‑03‑21 2022‑06‑04 2022‑01‑19
MVKP25F Hydrogen, Batteries and Fuel Cells Energy Sciences 2023‑01‑18 Spring 2021 2023‑03‑22 2023‑06‑03 2023‑01‑18
MVKP25F Hydrogen, Batteries and Fuel Cells Energy Sciences 2023‑12‑07 Spring 2021 2024‑03‑18 2024‑05‑24 2023‑12‑07
MVKP25F Hydrogen, Batteries and Fuel Cells Energy Sciences 2024‑11‑15 Spring 2021 2025‑03‑24 2025‑06‑08 2024‑11‑15

Utskriftsvänlig visning