@misc{LindnerBartoszukDebguptaetal.2024, author = {Lindner, Niels and Bartoszuk, Karolina and Debgupta, Srinwanti and Gering, Marie-Claire and Muschner, Christoph and Zittel, Janina}, title = {Warm-starting modeling to generate alternatives for energy transition paths in the Berlin-Brandenburg area}, issn = {1438-0064}, url = {http://nbn-resolving.de/urn:nbn:de:0297-zib-97835}, year = {2024}, abstract = {Energy system optimization models are key to investigate energy transition paths towards a decarbonized future. Since this approach comes with intrinsic uncertainties, it is insufficient to compute a single optimal solution assuming perfect foresight to provide a profound basis for decision makers. The paradigm of modeling to generate alternatives enables to explore the near-optimal solution space to a certain extent. However, large-scale energy models require a non-negligible computation time to be solved. We propose to use warm start methods to accelerate the process of finding close-to-optimal alternatives. In an extensive case study for the energy transition of the Berlin-Brandenburg area, we make use of the sector-coupled linear programming oemof-B3 model to analyze a scenario for the year 2050 with a resolution of one hour and 100\% reduction of greenhouse gas emissions. We demonstrate that we can actually achieve a significant computational speedup.}, language = {en} }