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Speeding up Energy System Models - a Best Practice Guide

Authors :
Scholz, Yvonne
Fuchs, Benjamin
Borggrefe, Frieder
Cao, Karl-Kien
Wetzel, Manuel
von Krbek, Kai
Cebulla, Felix
Gils, Hans Christian
Fiand, Frederik
Bussieck, Michael
Koch, Thorsten
Rehfeldt, Daniel
Gleixner, Ambros
Khabi, Dmitry
Breuer, Thomas
Rohe, Daniel
Hobbie, Hannes
Schönheit, David
Yilmaz, Hasan Ümitcan
Panos, Evangelos
Jeddi, Samir
Buchholz, Stefanie
Publication Year :
2020

Abstract

Background Energy system models (ESM) are widely used in research and industry to analyze todays and future energy systems and potential pathways for the European energy transition. Current studies address future policy design, analysis of technology pathways and of future energy systems. To address these questions and support the transformation of today’s energy systems, ESM have to increase in complexity to provide valuable quantitative insights for policy makers and industry. Especially when dealing with uncertainty and in integrating large shares of renewable energies, ESM require a detailed implementation of the underlying electricity system. The increased complexity of the models makes the application of ESM more and more difficult, as the models are limited by the available computational power of today’s decentralized workstations. Severe simplifications of the models are common strategies to solve problems in a reasonable amount of time – naturally significantly influencing the validity of results and reliability of the models in general. Solutions for Energy-System Modelling Within BEAM-ME a consortium of researchers from different research fields (system analysis, mathematics, operations research and informatics) develop new strategies to increase the computational performance of energy system models and to transform energy system models for usage on high performance computing clusters. Within the project, an ESM will be applied on two of Germany’s fastest supercomputers. To further demonstrate the general application of named techniques on ESM, a model experiment is implemented as part of the project. Within this experiment up to six energy system models will jointly develop, implement and benchmark speed-up methods. Finally, continually collecting all experiences from the project and the experiment, identified efficient strategies will be documented and general standards for increasing computational performance and for applying ESM to high performance computing will be documented in a best-practice guide.

Details

Language :
English
Database :
OpenAIRE
Accession number :
edsair.od......1640..fa0584228a493cf9db45eb80f29e7136