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  1. Forschung Forschung
  2. High Resolution Complex Glazing Library High Resolution Complex Glazing Library

High Resolution Complex Glazing Library

Complex fenestration systems are optically characterized by gonio-photometric measurements. Data-driven simulation models of high resolution will be compiled into a novel model-library.

Kurzinformation

Departement:

Technik & Architektur

Status:

Abgeschlossen

Zeitraum:

01.01.2016 - 31.07.2018

In der Übersicht

The project will provide models of complex glazing products to foster their application in high performance buildings. 15 products shall be characterized by gonio-photometric measurements. Data-driven models of high directional resolution as supported by the daylight simulation software Radiance shall accurately replicate selectivity and directionality. Derived low-resolution models will be included into the Complex Glazing Database.

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Fakten

Projektart

Forschung

Beteiligte interne Organisationen
  • CC Gebäudehülle
  • CC Gebäudehülle und Ingenieurbau
Externe Projektpartner
  • Lawrence Berkeley National Laboratory
  • Siteco Beleuchtungstechnik GmbH
  • Hella Storen AG
  • Pelllini SpA
  • EURAC Accademia Europea Bolzano
  • Transsolar Energietechnik GmbH
  • HZDS AG
  • Reflexion AG
  • Preluce AG
  • Relux Informatik AG
Finanzierung
  • BFE
  • Private / Stiftungen
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Links

  • Blog

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Beteiligte Personen intern

Projektleiter/in
  • Lars Oliver Grobe
Projektmitarbeiter/in
  • Roland Schregle
  • Stephen Wittkopf

Publikationen

  • Artikel, Rezension; peer reviewed (5)

    • Ward, Gregory J; Bueno, Bruno; Geisler-Moroder, David; Grobe, Lars Oliver; Jonsson, Jacob C; Lee, Eleanor S; Wang, Taoning & Wilson, Helen Rose (2022). Daylight simulation workflows incorporating measured Bidirectional Scattering Distribution Functions. Energy and Buildings, 259, 111890. doi: 10.1016/j.enbuild.2022.111890

    • Ward, Gregory J; Wang, Taoning; Geisler-Moroder, David; Lee, Eleanor; Grobe, Lars Oliver; Wienold, Jan & Jonsson, Jacob C (2021). Modeling specular transmission of complex fenestration systems with data-driven BSDFs. Building and Environment, 196(107774), doi: 10.1016/j.buildenv.2021.107774

    • Grobe, Lars Oliver (2018). Characterization and data-driven modeling of a retro-reflective coating in Radiance. Energy and Buildings, 162, 121-133. doi: 10.1016/J.ENBUILD.2017.12.029

    • Grobe, Lars Oliver (2017). Computational combination of the optical properties of fenestration layers at high directional resolution. Buildings, 7(1), 1-19. doi: 10.3390/buildings7010022

    • Grobe, Lars Oliver; Wittkopf, Stephen & Kazanasmaz, Zehra Tuğçe (2017). High-resolution data-driven models of daylight redirection components. Journal of Façade Design and Engineering, 5(2), 103-116. doi: 10.7480/jfde.2017.2.1743

  • Buchkapitel/Gesetzeskommentar/Lexikonartikel (1)

    • Grobe, Lars Oliver; Wittkopf, Stephen & Kazanasmaz, Zehra Tuğçe (2017). High-resolution data-driven models of daylight redirecting components. In Aslıhan Tavil; Oğuz Cem Çelik (Hrsg.), ICBEST Istanbul: Interdisciplinary Perspectives for future building envelopes (S. 84-93). Istanbul: Istanbul Technical University.

  • Bericht/Working Paper (1)

    • Grobe, Lars Oliver (2017). High resolution complex glazing library: BIMSOL (Bericht). Bundesamt für Energie (BFE), Horw.

  • Präsentation (Tagungsbeitrag/Referat/Vortrag) (6)

    • Lee, Eleanor; Wang, Taoning; Jonsson, Jacob; Ward, Gregory; Grobe, Lars Oliver; Wienold, Jan & Geisler-Moroder, David (03.09.2018). Generating high-resolution BSDFs for the direct beam component. 2018 International Radiance Workshop, Loughborough, UK.

    • Grobe, Lars Oliver (21.03.2018). High Resolution Complex Glazing Library BIMSOL. Marktplatz Energieforschung an der Hochschule Luzern Technik & Architektur, Horw.

    • Grobe, Lars Oliver; Wittkopf, Stephen & Kazanasmaz, Zehra Tuğçe (15.05.2017). High-resolution data-driven models of daylight redirecting components. ICBEST Istanbul 2017: Interdisciplinary Perspectives for future building envelopes, Istanbul.

    • Grobe, Lars Oliver (24.10.2016). BSDF characterizing components of high-performance building envelopes: Complex fenestration systems and architecture integrated photovoltaics. Workshop IEA SHC Task Definition Phase "Integrated solutions for daylight and electric lighting", Fraunhofer Institut für Bauphysik IBP, Stuttgart.

    • Papaiz, Luca; Grobe, Lars Oliver & De Michele, Giuseppe (29.08.2016). Modeling and measuring of solar shading with retro-reflection microstructure. 15th International Radiance Workshop, Padua.

    • Grobe, Lars Oliver (25.08.2016). BSDF measurements to characterize components of high-performance building envelopes: Complex Fenestration Systems and Architecture Integrated Photovoltaics. Workshop Current state of the art and the future of BSDF measurements and simulation, Aldrans.

Kurzinformation

Departement:

Technik & Architektur

Status:

Abgeschlossen

Zeitraum:

01.01.2016 - 31.07.2018

Projektleitung

Dr. Lars Oliver Grobe

Hochspezialisierter Senior Wissenschaftlicher Mitarbeiter

+41 41 349 36 32

E-Mail anzeigen

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