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Event

Production Technology for E-Mobility [SS232150605]

Type

lecture (V)
Präsenz/Online gemischt

Term

SS 2023

SWS

Language

Deutsch

Appointments

Links

ILIAS

Lecturers

Prof. Dr.-Ing. Jürgen Fleischer

Organisation

KIT-Fakultät für Maschinenbau

Part of

Brick Production Technology for E-Mobility | Industrial Engineering and Management (M.Sc.)
Brick Production Technology for E-Mobility | Industrial Engineering and Management (B.Sc.)
Brick Production Technology for E-Mobility | Economics Engineering (M.Sc.)
Brick Production Technology for E-Mobility | Economics Engineering (B.Sc.)

Literature

Skript zur Veranstaltung wird über Ilias (https://ilias.studium.kit.edu/) bereitgestellt.

Lecture notes will be provided in Ilias (https://ilias.studium.kit.edu/)

Appointments

18.04.2023 11:30 - 13:00 - Room: 10.91 Mittlerer Hörsaal Maschinenbau
25.04.2023 11:30 - 13:00 - Room: 10.91 Mittlerer Hörsaal Maschinenbau
02.05.2023 11:30 - 13:00 - Room: 10.91 Mittlerer Hörsaal Maschinenbau
09.05.2023 11:30 - 13:00 - Room: 10.91 Mittlerer Hörsaal Maschinenbau
16.05.2023 11:30 - 13:00 - Room: 10.91 Mittlerer Hörsaal Maschinenbau
23.05.2023 11:30 - 13:00 - Room: 10.91 Mittlerer Hörsaal Maschinenbau
06.06.2023 11:30 - 13:00 - Room: 10.91 Mittlerer Hörsaal Maschinenbau
13.06.2023 11:30 - 13:00 - Room: 10.91 Mittlerer Hörsaal Maschinenbau
20.06.2023 11:30 - 13:00 - Room: 10.91 Mittlerer Hörsaal Maschinenbau
27.06.2023 11:30 - 13:00 - Room: 10.91 Mittlerer Hörsaal Maschinenbau
04.07.2023 11:30 - 13:00 - Room: 10.91 Mittlerer Hörsaal Maschinenbau
11.07.2023 11:30 - 13:00 - Room: 10.91 Mittlerer Hörsaal Maschinenbau
18.07.2023 11:30 - 13:00 - Room: 10.91 Mittlerer Hörsaal Maschinenbau
25.07.2023 11:30 - 13:00 - Room: 10.91 Mittlerer Hörsaal Maschinenbau

Note

In the lecture Production Engineering for Electromobility the students should be enabled to design, select and develop production processes for the production of the components of an electric drive train (electric motor, battery cells, fuel cells) by using research-oriented teaching.

Learning Outcomes:

The students are able to:

describe the structure and function of a fuel cell, an electric traction drive and a batterysystem.
reproduce the process chains for the production of the components fuel cell, battery and electric traction drive.
apply methodical tools to solve problems along the process chain.
derive the challenges in the production of electric drives for electric mobility.
describe the factors influencing the individual process steps on each other using the process chain of Li-ion battery cells.
enumerate or describe the necessary process parameters to counteract the influencing factors of the process steps in Li-ion battery cell production.
apply methodical tools to solve problems along the process chain for the production of Li-ion battery cells.
derive the challenge of mounting and dismounting battery modules.
derive the challenges in the production of fuel cells for use in mobility.

Workload:

regular attendance: 42 hours
self-study: 78 hours