Malte Schwanebeck

Research associate for geodata management at the Competence Center Geo-Energy (Kiel University)
Focus fields:
Buildings & Heating Grid Integration
Contact me for:
Cooperations with companies Cooperations for scientists Lectures Evaluations
Contact:
Languages:
German English

Short description

Research associate for geodata management at the Competence Center Geo-Energy of Kiel University

Research data

Academic degree
PhD candidate
Department
Engineering, Social issues, Climate protection & Resources
Research topic

Geospatial data, GIS, geographic information systems, spatial analysis, municipal heat planning, building heat demand, urban building energy modeling (UBEM), geothermal energy, thermal storage, underground spatial planning

Research institute
Kiel University
Location of the research institute
Kiel
Department/Faculty
Faculty of Mathematics and Natural Sciences
Institution
Institute for Geosciences

Career

Education
Master of Science, Kiel University, 2016
Experience
Research associate in the research project ANGUS + (Kiel University) (2016 - 2017)
Research associate in the research project ANGUS II (Kiel University) (2017 - 2019)
Research associate for geodata management at the Competence Center Geo-Energy (Kiel University) (since 2019)

Publications and projects

Selected publications
M. Schwanebeck, M. Krüger und R. Duttmann, 2021, Improving GIS-Based Heat Demand Modelling and Mapping for Residential Buildings with Census Data Sets at Regional and Sub-Regional Scales, Energies, 14(4), 1029 (Link to publication)
M. Nolde, M. Schwanebeck, F. Dethlefsen, R. Duttmann und A. Dahmke, 2016, Utilization of a 3D webGIS to support spatial planning regarding underground energy storage in the context of the German energy system transition at the example of the federal state of Schleswig–Holstein, Environmental Earth Sciences Volume 75, Article number: 1284 (Link to publication)
Selected sponsored projects
ANGUS II: Effects of using the geological subsurface as thermal, electrical, or material storage—integration of underground storage technologies into the energy system transformation using the example of the model area of Schleswig-Holstein, former BMWi, Christian Albrechts Universität zu Kiel (CAU), Helmholtz-Zentrum für Umweltforschung Leipzig (UFZ), Hochschule Flensburg (HSF), Europa-Universität Flensburg (EUF) Johannes Gutenberg-Universität Mainz (JGU), 4.827.000€, 01/2017 – 09/2021 (Link to project)
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