Assessment of five control strategies of an adjustable glazing at three different climate zones

  • Volker Ritter University of Liechtenstein, Institute for Architecture and Planning, Chair of Sustainable Design, Vaduz
  • Christoph Matschi
  • Dietrich Schwarz

Abstract

The energy demand for operating modern office spaces is often driven by either the annual heating demand, cooling demand or the demand for electrical lighting. The irradiation of the sun directly and indirectly affects the demand of all three. Consequently, the glazing of higher office buildings is often treated with coating that allows a fixed transmittance. Due to changing exterior conditions and interior needs, a fix-transmittance value is a compromise and most often doesn’t provide optimal thermal and visual conditions. The team in the research project named Fluidglass develops a new glazing in which the transmittance of the glazing can be adjusted. This is possible by colouring a fluid, which is circulated in chambers of the glazing. The concentration of the colorant can be infinitely adjusted. In addition, this window allows collecting heat in the exterior fluid and allows the interior fluid chamber to operate as heating panel. This paper presents a first assessment of different control strategies for adjusting the colorant concentration with a simplified model. The assessed control strategies result in considerably different overall energy demands. Certain control strategies have high potential for reducing the energy demand for heating and cooling depending on the locations (Munich 20–30% , Madrid 50–70% , Dubai 50–60%). However, certain control strategies increase the electricity demand for lighting, which needs to be considered in the further development. In general, control strategies that only consider the solar irradiation are less promising strategies in temperate climate than strategies that also take the interior temperature into account. The results of controls that also respect the thermal comfort based on a Predicted Mean Vote (PMV) index can achieve low energy demand, presuming that a deviation from the highest level of comfort is acceptable. At this stage of research, none of the studied control strategies shows to be optimal for all climate conditions to achieve highest energy reductions. Further research is necessary in the development of a control strategy that can universally be applied.

How to Cite
RITTER, Volker; MATSCHI, Christoph; SCHWARZ, Dietrich. Assessment of five control strategies of an adjustable glazing at three different climate zones. Journal of Facade Design and Engineering, [S.l.], v. 3, n. 2, p. 129-141, nov. 2015. ISSN 2213-3038. Available at: <https://journals.library.tudelft.nl/index.php/jfde/article/view/1014>. Date accessed: 17 aug. 2018. doi: https://doi.org/10.7480/jfde.2015.2.1014.

Keywords

Adaptive facade, shading control, control strategies, energy reduction