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Future climate adaptive building shells 'optimizing energy and comfort by inverse modelling'
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TLDR
In this paper, the development of climate adaptive buildings shells (CABS), based on theoretically 'ideal' adaptive properties, enables maximizing indoor comfort and minimizing energy use for heating, cooling, ventilation and lighting.Abstract:
The traditional design process of building shells leads even today to substantially static systems. Building shell properties, like insulation value, thermal mass and window area, are kept constant throughout the year for the majority of buildings. As a result, buildings do not perform optimally and large energy consuming HVAC installations are used to compensate for the poor performance of the building itself. The assumption of the FACET project (Dutch acronym for: ‘Adaptive facade technology for increased comfort and lower energy use in the future’) is that buildings with climate adaptive thermal and daylight properties will have a much better energy performance while maintaining a high comfort standard. The development of climate adaptive buildings shells (CABS), based on theoretically ‘ideal’ adaptive properties, enables maximizing indoor comfort and minimizing energy use for heating, cooling, ventilation and lighting. This enables the realisation of nearly zero energy, or even energy producing buildings in the near future.read more
Citations
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Approaches for computational performance optimization of innovative adaptive façade concepts
TL;DR: The final author version and the galley proof are versions of the publication after peer review and the final published version features the final layout of the paper including the volume, issue and page numbers.
Energy saving potential of long-term climate adaptive greenhouse shells
TL;DR: In this article, the authors describe yearly and monthly optimization of greenhouse shells and conclude that monthly adaptation of greenhouse shell provides little improvement in the crop production and energy performance of the greenhouse when compared to the yearly optimized greenhouse.
References
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Journal ArticleDOI
Co-Simulation of Building Energy and Control Systems with the Building Controls Virtual Test Bed
TL;DR: The article concludes by presenting applications in which different state of the art simulation programs are linked for run-time data exchange, and allows the use of the simulation program best suited for the particular problem to model building heat transfer, HVAC system dynamics and control algorithms, and to compute a solution to the coupled problem using co-simulation.
Performance simulation of climate adaptive building shells - Smart Energy Glass as a case study
TL;DR: In this paper, the authors explored the role that building performance simulation (BPS) can play in designing climate adaptive building shells (CABS) and illustrated the potential role of BPS via the case study of Smart Energy Glass.
Climate adaptive building shells for the future - optimization with an inverse modelling approach
TL;DR: Results of the inverse thermal modelling for a climate adaptive building shell shows that ideally building shells have the potential to practically eliminate the heat demand and to reduce the total heating and cooling demand by a factor 10, compared to state of the art new built offices under the Dutch climate.
Performance prediction of advanced building controls in the design phase using esp-r, bcvtb and matlab
TL;DR: In this paper, the authors present a simulation-based approach with capabilities for analysing the impact of advanced control strategies on building performance during the building design phase, which consists of ESP-r as building simulation tool, Matlab as software for advanced building controllers and BCVTB as middleware for data exchange per time step between the two programs.
Energy saving potential of climate adaptive building shells - Inverse modelling of optimal thermal and visual behaviour
de Bj Bart Boer,GJ Ruijg,LG Bakker,W Kornaat,L Laurens Zonneveldt,SR Kurvers,N Alders,A Raue,Jlm Jan Hensen,Rcgm Roel Loonen,M Marija Trcka +10 more
TL;DR: In this article, the authors proposed a new, inverse modeling approach to simulate adaptive, variable building shell behavior. And the results showed that the proposed adaptive building shell properties can reduce the total heating and cooling demand by a factor 10 compared to state-of-the-art new built offices.