Research project description
Will you join us in our pursuit towards carbon-free heating and cooling in urban areas? We look for an enthusiastic(postdoc) researcher to advance the use of building performance simulation with enriched and diversified user profiles.
User behaviour can be a barrier to achieving optimal CO2 reduction potential of the energy transition in the built environment. If not used appropriately, advanced energy systems may not achieve their potential, in some cases leading to increased rather than decreased energy demand for heating and cooling. This in turn can lead to decreased levels of acceptance of these solutions, and thus slow down the energy transition. On the other hand, behaviour change can also harbour significant potential for energy savings, for example in the form of changing conventions of comfort, that is not always tapped into in the design of future solutions. System engineers have difficulties integrating the dynamics of social change into their designs because they are not trained to anticipate the complex relations between (building) system design and user behaviour. Design support tools, e.g. based on building performance simulation, tend to assume typical or average users as starting point, thereby overlooking the needs of specific subgroups and well-documented phenomena such as the (p)rebound effect. This project will deploy advanced building performance simulations to explore optimization potential in considering (future) energy practices, based on data of actual residents, as well as out-of-the-box scenarios developed using creative methods.
This postdoc will work between the Building Performance group of the Department of the Built Environment and the Future Everyday group of the Industrial Design Department. The (intermediate) outcomes of the project will provide valuable insights for the modelling of consumer behaviour of heating systems, as well as for determining and optimizing demand side reduction potential, resulting in insights for system design and decision-making for energy-efficient retrofits.
This position and research project are made possible by the BEHeaT program initiated by the Eindhoven Institute for Renewable Energy Systems (EIRES). EIRES facilitates the collaborative development and swift deployment of new technologies and devices by bringing together TU/e researchers working on materials, systems, and processes for energy storage and conversion.
EIRES consists of collaborating research groups within TUe. These include over 140 researchers and more than 450 PhDs. EIRES brings these researchers together and creates new network connections between researchers and industry.
Within the focus area of energy transition in the built environment, a large-scale research program was recently launched. This program, BEHeaT, stands for Built Environment Heat Transition. The program is funded with TUe's own resources as well as contributions from industry. The research program has a pragmatic approach.
Within the BEHeaT program, research is conducted into the (further) development of various (new) materials, components and/or systems in relation to intelligent buildings, heat storage, heat networks and/or electricity grids. The focus is not only on physical materials, components and systems, but also on dynamic (predictive) models. We believe that in order to have impact, any research must take systems integration as its starting point. In addition, we believe that technology does not stand alone and should always be seen in relation to the (end) user. In this way, the impact of research results is increased.
A meaningful job in a dynamic and ambitious university, in an interdisciplinary setting and within an international network. You will work on a beautiful, green campus within walking distance of the central train station. In addition, we offer you:
Eindhoven University of Technology is an internationally top-ranking university in the Netherlands that combines scientific curiosity with a hands-on attitude. Our spirit of collaboration translates into an open culture and a top-five position in collaborating with advanced industries. Fundamental knowledge enables us to design solutions for the highly complex problems of today and tomorrow.
Do you recognize yourself in this profile and would you like to know more?
Please contact hiring manager dr.ir. Roel Loonen, Assistant Professor, r.c.g.m.loonen[at]tue.nl or +31 40 247 2571.
Visit our website for more information about the application process or the conditions of employment. You can also contact HR Services at HRServices.BE[at]tue.nl.
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We invite you to submit a complete application using the apply-button.
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We look forward to receiving your application and will screen it as soon as possible. The vacancy will remain open until the position is filled.