Summary
Summary
My PhD project aims at developing a multi-vector model of Great Britain's national energy system using a Resource-Technology Network (RTN) modeling framework. Multiple energy carriers will be included. The design as well as the operation of the future national energy grid has to be optimized. As the majority of the population is predicted to live in urban areas in the future, the interaction between urban systems and the national system are of great interest. Including industries with high energy consumption is of relevance and will be addressed at a later stage. Furthermore, we want to investigate how we evolve from the state of the art towards the optimal solution.
My research will contribute to the Integrated Development of Low-Carbon Energy Systems (IDLES) project launched between several departments at Imperial College London.
BioGRAPHY
- Research Assistant on multi-energy systems,
Department of Mechanical and Process Engineering,
ETH Zurich - Master thesis on crystallization of metastable paracetamol,
Department of Chemical Engineering,
University of California, Santa Barbara - Master of Science in Chemical and Bioengineering,
ETH Zurich - Bachelor of Science in Chemical and Bioengineering,
ETH Zurich - Bachelor of Science in Chemistry,
ETH Zurich
Publications
Journals
Aunedi M, Yliruka M, Dehghan S, et al. , 2022, Multi-model assessment of heat decarbonisation options in the UK using electricity and hydrogen, Renewable Energy, Vol:194, ISSN:0960-1481, Pages:1261-1276