Karlo Hainsch

Picture of Karlo Hainsch

Contact

E-mail
kh-PleaseRemoveIncludingDashes-@wip.tu-berlin.de
Street
Auf dem Campus 1b
Post code / City
24943 Flensburg

Additional information

Postal address:

Europa-Universität Flensburg
Energie- und Umweltmanagement
z.H. Karlo Hainsch
Auf dem Campus 1
24943 Flensburg
Germany

Lectures

No Title Type Semester
222010g Basic methods for energy modelling and optimization in Python Lecture Spring semester 2022
222007g Energy System Modelling Lecture Spring semester 2022
222011g Operations Research – Modeling Sustainable Mobility (OR-MSM) Lecture Spring semester 2022

Curriculum vitae

Karlo Hainsch is a research associate at the Workgroup for Infrastructure Policy at TU Berlin since 2019 and is simultaneously doing his PhD in the CoalExit research group on topics related to energy system modeling as well as decarbonization scenarios with a focus on the transport sector. As one of the original developers of the open-source energy system model GENeSYS-MOD, he was and is part of numerous projects (including openENTRANCE and open MODEX) and teaches in the areas of energy system modeling and operations research.

He did his Bachelor and Master in Industrial Engineering and Management with a focus on energy and resources during his Master. As part of his studies he spent one year at the University of Maryland and was Energy Economics Group at the Paul-Scherrer Institute in Switzerland.

Publications

  • Hauenstein, C./ Hainsch, K./ Herpich, P./ von Hirschhausen, C./ Holz, F./ Kemfert, C./ Kendziorski, M./ Oei, P.-Y./ Rieve, C. (2022): Stromversorgung auch ohne russische Energielieferungen und trotz Atomausstieg sicher – Kohleausstieg 2030 bleibt machbar. DIW aktuell, Nr. 84 : Sonderausgaben zum Krieg in der Ukraine. https://www.diw.de/documents/publikationen/73/diw_01.c.839634.de/diw_aktuell_84.pdf
  • Hainsch, K. / Burandt, T. / Löffler, K. / Kemfert, C. / Oei, P. / Hirschhausen, C.  (2020): Emission Pathways Towards a Low-Carbon Energy System for Europe: A Model-Based Analysis of Decarbonization Scenarios. The Energy Journal 42 (5), Download-Link.
  • Auer, H. et al. (2020): Development and modelling of different decarbonization scenarios of the European energy system until 2050 as a contribution to achieving the ambitious 1.5 °C climate target—establishment of open source/data modelling in the European H2020 project openENTRANCE. Elektrotech. Inftech. 137, 346–358, Download-Link.
  • Hainsch, K. / Göke, L. / Kemfert, C. / Oei, P.-Y. / von Hirschhausen, C. (2020): European Green Deal: Mit ambitionierten Klimaschutzzielen und erneuerbaren Energien aus der Wirtschaftskrise. DIW Wochenbericht 28 (2020), Berlin, Download-Link.
  • Hainsch, K. / Göke, L. / Kemfert, C. / Oei, P.-Y. / von Hirschhausen, C. (2020): European Green Deal: Using Ambitious Climate Targets and Renewable Energy to Climb out of the Economic Crisis. DIW Weekly Report 28/29 (2020), Berlin, Download-Link.
  • Hainsch, K. / Brauers. H. / Burandt, T. / Göke, L. / von Hirschhausen, C. / Kemfert, C. / Kendziorski, M. / Löffler, K. / Oei, P.-Y. / Präger, F. / Wealer, B. (2020): Make the European Green Deal Real – Combining Climate Neutrality and Economic Recovery. Politikberatung kompakt 153, Berlin, Download-Link.
  • Oei, P. / Burandt, T. / Hainsch, K. / Löffler, K. / Kemfert, C. (2020): Lessons from modeling 100% renewable scenarios using GENeSYS-MOD. Economics of Energy & Environmental Policy 9 (1). DOI: 10.5547/2160-5890.9.1.poei
  • Löffler, K. / Burandt, T. / Hainsch, K. / Oei, P.-Y. (2019): Modeling the low-carbon transition of the European energy system - A quantitative assessment of the stranded assets problem. Energy Strategy Reviews 26, 100422, Download-Link.
  • Oei, P.-Y. / Hainsch, K. / Löffler, K. / von Hirschhausen, C. / Holz, F. / Kemfert, C. (2019): Neues Klima für Europa: Klimaschutzziele für 2030 sollten angehoben werden. DIW Wochenbericht 41 (2019), Berlin, Download-Link.
  • Oei, P.-Y. / Hainsch, K. / Löffler, K. / von Hirschhausen, C. / Holz, F. / Kemfert, C. (2019): A new climate for Europe: 2030 climate targets must be more ambitious. DIW Weekly Report 40+41 (2019), Berlin, Download-Link.
  • Löffler, K. / Burandt, T. / Hainsch, K. / Kemfert, C. / Oei, P.-Y. / von Hirschhausen, C. (2018): Modeling the Low-Carbon Transformation in Europe: Developing Paths for the European Energy System Until 2050; in Energiewende "Made in Germany" Electricity Sector Reform in the European Context, edited by Christian von Hirschhausen, Clemens Gerbaulet, Claudia Kemfert, Casimir Lorenz, and Pao-Yu Oei. Berlin, Germany: Springer International Publishing AG.
  • Burandt, T. / Löffler, K. / Hainsch, K. (2018): GENeSYS-MOD v2.0 - Enhancing the Global Energy System Model: Model Improvements, Framework Changes, and European Data Set. DIW Data Documentation 94, Download-Link.
  • Hainsch, K. / Burandt, T. / Kemfert, C. / Löffler, K. / Oei, P. / von Hirschhausen, C. (2018): Emission Pathways Towards a Low-Carbon Energy System for Europe - A Model-Based Analysis of Decarbonization Scenarios. DIW Discussion Paper 1745, Download-Link.
  • Kemfert, C. / Burandt, T. / Hainsch, K. / Löffler, K. / Oei, P. / von Hirschhausen, C. (2017): Nuclear power unnecessary for climate protection – there are more cost-efficient alternatives. DIW Economic Bulletin 48, Berlin, Download-Link.
  • Kemfert, C. / Burandt, T. / Hainsch, K. / Löffler, K. / Oei, P. / von Hirschhausen, C. (2017): Atomkraft für Klimaschutz unnötig – Kostengünstigere Alternativen sind verfügbar. DIW Wochenbericht 47, Berlin, Download-Link.
  • Löffler, K. / Hainsch, K. / Burandt, T. / Oei, P. / Kemfert, C. / von Hirschhausen, C. (2017): Designing a Model for the Global Energy System - GENeSYS-MOD: An Application of the Open-Source Energy Modeling System (OSeMOSYS). Energies 2017, 10(10), 1468, Download-Link.
  • Löffler, K. / Hainsch, K. / Burandt, T. / Oei, P. / Kemfert, C. / von Hirschhausen, C. (2017): Designing a Global Energy System Based on 100% Renewables for 2050 - GENeSYS-MOD: An Application of the Open-Source Energy Modelling System (OSeMOSYS). DIW Discussion paper 1678, Download-Link.
  • Löffler, K. / Hainsch, K. / Burandt, T. / Oei, P. / von Hirschhausen, C. (2017): Decarbonizing the Indian Energy System until 2050 - An Application of the Open Source Energy Modeling System OSeMOSYS, IAEE Energy Forum, Singapore Issue 2017, Download-Link.
  • Burandt, T. / Hainsch, K. / Löffler, K. / Oei, P. (2017): Designing a Global Energy System based on 100% Renewables for 2050, Konferenzpapier (Langfassung) für die 10. Internationalen Energiewirtschaftstagung (IEWT), Download-Link.
  • Burandt, T. / Hainsch, K. / Löffler, K. / Böing, H. / Erbe, J. / Kafemann, I. / Kendziorski, M. / Kruckelmann, J. / Rechtlitz, J. / Scherwath, T. / von Hirschhausen, C. / Oei, P. / Holz, F. / Mendelevitch, R. (2016): Designing a Global Energy System based on 100% Renewables for 2050, Abschlussbericht des Moduls Operations Research - Student Research Project