TU Berlin

Fachgebiet
Wirtschafts- und Infrastrukturpolitik (WIP)
Karlo Hainsch

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Contact and Consultation / Kontakt und Sprechstunde

Contact / Kontakt

Lupe

Visiting address / Besucheradresse

Raum H 4142a
(Hauptgebäude, Straße des 17. Juni 135)
(Campusplan) (Wegbeschreibung)

Tel. +49-(0)30-314-21488
Fax +49-(0)30-314-26934
Email

Postal address / Postanschrift

Technische Universität Berlin

Fachgebiet Wirtschafts- und
Infrastrukturpolitik (WIP), Sekretariat H 33,
z. Hd. Karlo Hainsch

Straße des 17. Juni 135
D-10623 Berlin

Consultation / Sprechstunde

Nach Vereinbarung per E-Mail oder Telefon.

Teaching / Lehre

Topics for papers and theses / Betreuungsthemen

I will advise students in the fields of my research focus. Please contact me for further details.

Research Focus / Forschungsschwerpunkte

Sectors / Sektoren

  • Energy Systems with a special focus on transportation
  • Energy system modelling

Topics / Themen

    • Modelling pathways towards low-carbon energy systems
    • Challenges of decarbonizing the transportation sector
    • Future transportation demand and modal shifts

    Methods / Methodik

    • Modelling with the General Algebraic Modelling System (GAMS)
    • Development of the Global Energy System Model (GENeSYS-MOD)

    Publications & Presentations / Veröffentlichungen & Vorträge

    Publications / Veröffentlichungen 

    • 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

    Presentations / Vorträge

    • Hainsch, K. (2019/06/28): Emission Pathways Towards a Low-Carbon Energy System for Europe - A Model-Based Analysis of Decarbonization Scenarios – Presentation at the 24th Conference of the European Association of Environmental and Resource Economists (EAERE), Manchester, UK.
    • Hainsch, K. (2017/11/13): Designing a Global Energy System based on 100% Renewables for 2050 – Presentation at the 35th USAEE/IAEE North American Conference, Houston, USA.
    • Löffler, K. / Hainsch, K. (shared presentation) (2016/11/10): Designing a Global Energy System based on 100% renewables for 2050 – Insights from the Open-Source Energy Modeling System (OSeMOSYS) – Presentation at the 10th Transatlantic Infraday, Washington DC, USA

    Curriculum Vitae

    Seit 05/2019
    Research Associate at the Workgroup for Economic and Infrastructure Policy (WIP), TU Berlin
    10/2015 - 08/2017
    Student Research Assistant at the Workgroup for Economic and Infrastructure Policy (WIP), TU Berlin
    10/2016 - 04/2019
    Studies of Industrial Engineering and Management with a Major in Energy and Resources (Master of Science) at TU Berlin
    10/2012 - 09/2016
    Studies of Industrial Engineering and Management with a Major in Information and Communication Technology (Bachelor of Science) at TU Berlin
    10/2011 - 09/2012
    Studies of Mathematics at Humboldt University Berlin
    06/2011
    A-Levels at Friedensburg Oberschule Berlin, Germany

    Awards

    2019
    Young Scientist “Best Paper Award” at the 11th Internationale Energiewirtschaftstagung (IEWT) at TU Wien, Austria
    2018
    Award of exemplary teaching for the course: Operations Research – Methods for Energy and Resource Markets (OR-RES)

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