Master Thesis / Internship (Three-phase Power Flow Algorithm for Advanced Power Flow Analysis)
Electrification Suite & Test Lab
20 December 2018
Open until filled
Fixed Term (8 months)
Technical university of Munich - Campus for Research Excellence and Technological Enterprise (TUMCREATE) is a research platform for the improvement of Singapore's public transportation, including the deployment of electric and autonomous mobility. Researchers from Technical University Munich and Nanyang Technological University join forces and are funded by Singapore’s National Research Foundation as part of the Campus for Research Excellence And Technological Enterprise (CREATE).
At TUMCREATE, over 100 scientists, researchers and engineers work together, led by Professors from the Technical University of Munich and Nanyang Technological University. The Mission of TUMCREATE is to seek the ultimate public transport system for the people of Singapore. Our innovative road transport solutions will provide high comfort and a positive travel experience, best protection of the environment and maximum benefit to the society and the economy.
More Information about TUMCREATE can be found by viewing our web pages at http://www.tum-create.edu.sg/
About This Position
ESTL at TUMCREATE puts an emphasis on the interaction of the electricity grid with advanced electrified public transport systems for Singapore. Ranging from charging infrastructure optimisation to demand side management and integration of renewable energies, ESTL covers many hierarchy levels of the electrification concept in the context of the major goals of TUMCREATE.
Objectives & Tasks
In this research, development of a three-phase power flow algorithm will be undertaken for advanced power system analysis. The research will involve:
Development of basic understanding of three-phase power flow.
Development of conventional three-phase power flow codes.
Development of a novel three-phase power flow algorithm.
Implementation of the codes in simulation software.
Analysis of a test power network utilizing the developed algorithms.
Very good understanding of power systems with a focus on power flow analysis
Very good programing skills
Good knowledge of MATLAB (other simulation tools will be considered as added benefit)
Prior experience in power flow algorithm coding/development will be highly beneficial
Excellent interpersonal skills and communication skills in both written and spoken English and work with people from different backgrounds and cultures
What We Offer
Exposure to the state-of-the-art research topics
An international and multidisciplinary working environment
Work with researchers from world-renowned universities
Opportunity for publishing in international journals and conferences