A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Simulation-based support for product development of innovative building envelope components
Abstract A need for innovation in building envelope technologies forms a key element of technology roadmaps focusing on improvements in building energy efficiency. Many new products are being proposed and developed, but often, a lack of insights into building integration issues is an obstacle in typical product development processes. The main objective of this paper is to demonstrate the potential of expanding the application area of whole-building performance simulation and analysis towards decision-making support in the domain of research and development of such innovative building products. We propose a simulation-based approach that can help overcome several of the existing limitations. The methodology combines building performance simulation together with sensitivity analysis and structured parametric studies to provide multi-scale, multi-disciplinary information about the performance of different product variants. The strength of this computational approach lies in increased opportunity for analysis and informed decision-making on the basis of whole-building performance information, and therefore less dependence on trial and error procedures. This methodology is illustrated in an application example of a new type of switchable glazing where we give recommended directions for improved product specifications.
Graphical abstract Display Omitted
Highlights Current limitations in R&D processes of innovative facade components are identified. Building simulation and analysis is put forward as a new tool for decision support. We propose and test a framework for using simulations in the R&D phase. A switchable glazing case study shows the advantages of this approach.
Simulation-based support for product development of innovative building envelope components
Abstract A need for innovation in building envelope technologies forms a key element of technology roadmaps focusing on improvements in building energy efficiency. Many new products are being proposed and developed, but often, a lack of insights into building integration issues is an obstacle in typical product development processes. The main objective of this paper is to demonstrate the potential of expanding the application area of whole-building performance simulation and analysis towards decision-making support in the domain of research and development of such innovative building products. We propose a simulation-based approach that can help overcome several of the existing limitations. The methodology combines building performance simulation together with sensitivity analysis and structured parametric studies to provide multi-scale, multi-disciplinary information about the performance of different product variants. The strength of this computational approach lies in increased opportunity for analysis and informed decision-making on the basis of whole-building performance information, and therefore less dependence on trial and error procedures. This methodology is illustrated in an application example of a new type of switchable glazing where we give recommended directions for improved product specifications.
Graphical abstract Display Omitted
Highlights Current limitations in R&D processes of innovative facade components are identified. Building simulation and analysis is put forward as a new tool for decision support. We propose and test a framework for using simulations in the R&D phase. A switchable glazing case study shows the advantages of this approach.
Simulation-based support for product development of innovative building envelope components
Loonen, R.C.G.M. (author) / Singaravel, S. (author) / Trčka, M. (author) / Cóstola, D. (author) / Hensen, J.L.M. (author)
Automation in Construction ; 45 ; 86-95
2014-05-10
10 pages
Article (Journal)
Electronic Resource
English
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