M. Sc. Hauke Hirsch

© M. Kretzschmar

Research assistant

Name

Hauke Hirsch M.Sc.

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SHORT INFO

• Research Gate of Hauke Hirsch
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• ORCID of Hauke Hirsch

RESEARCH AREAS

• District heating and cooling networks
• Near-surface geothermal energy 
• Development of simulation software for buildings and district heating networks
• Hygrothermal material characterization for building materials

EDUCATION

• 2011 – 2013 Master in Mechanical Engineering with focus on thermodynamics and fluid dynamics, Technical University Ilmenau
• 2007 – 2011 Bachelor in Renewable Energy Systems, FH Nordhausen

ACADEMIC POSITIONS

• 2015– 2016 Research Associate at Institute for Solar Energy Research in Hamelin (ISFH)
• 2018 - Research Associate at Institute for Building Climatology

RESEARCH PROJECTS

• Since 2022: MultiSource: Use of multiple heat sources in an urban neighbourhood context using the example of the Lagarde Campus in Bamberg
• Since 2019: KNW-Opt: Cold local district heating (CLDH) with near-surface large-area collector in Bad Nauheim
• 2019 – 2022: NaVe: Development of scientifically justified evaluation criteria and implementation of a verification procedure for the damage-free refurbishment of existing buildings and planning of new buildings
• 2018 – 2019: ErdEis: Earth-Ice Storage and near-surface geothermal energy
• 2015 – 2016 (at ISFH) Terra-Solar: Horizontal ground heat exchangers and solar thermal collectors as heat source for highly efficient heat pump systems

SELECTED RECENT PUBLICATIONS

Hirsch, Hauke & Nicolai, Andreas. (2022). 
An efficient numerical solution method for detailed modelling of large 5th generation district heating and cooling networks. Energy. 124485. 10.1016/j.energy.2022.124485.

Hirsch, H., Heyn, R., Grunewald, J (2022). 
Dimensioning of low-temperature district heating grids with geothermal heat sources using detailed simulation software SIM-VICUS. European Geothermal Congress 2022, Berlin.

Hirsch, Hauke & Paepcke, Anne. (2022). 
Detailed Modelling of Large District Heating and Cooling Network coupled to Ground Heat Exchanger. BauSIM Weimar.

Johra, Hicham & Jafarinejad, Tohid & Beyzaee, Arash & Hirsch, Hauke & Felsmann, Clemens & Saelens, Dirk. (2022). 
Creating common exercises for modelling building and district energy systems: lessons learnt from the IBPSA Project 1 - DESTEST. E3S Web of Conferences. 362. 10.1051/e3sconf/202236210005.

Munsch, Sarah & Bintz, Thilo & Heyn, Rüdiger & Hirsch, Hauke & Grunewald, John & Kruschwitz, Sabine. (2022). 
Detailed investigation of capillary active insulation materials by 1 H nuclear magnetic resonance (NMR) and thermogravimetric drying.

Hirsch, Hauke & Heyn, Rüdiger & Klõšeiko, Paul. (2020). 
Capillary condensation experiment for inverse modelling of porous building materials. E3S Web of Conferences. 172. 17003. 10.1051/e3sconf/202017217003.

Chi Feng, Ana Sofia Guimarães, Nuno Ramos, Lixin Sun, Dariusz Gawin, Piotr Konca, Christopher Hall, Jianhua Zhao, Hauke Hirsch, John Grunewald, Maria Fredriksson, Kurt Kielsgaard Hansen, Zbyšek Pavlík, Andrea Hamilton, Hans Janssen, (2020). 
Hygric properties of porous building materials (VI): A round robin campaign, Building and Environment, Volume 185, https://doi.org/10.1016/j.buildenv.2020.107242.

For more publications please visit my Google Scholar Page