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  1. Forschung Forschung
  2. Solar facades with daylight re-direction and coloured photovoltaics Solar facades with daylight re-direction and coloured photovoltaics

Solar facades with daylight re-direction and coloured photovoltaics

The competence center “Building Envelopes” of the Institute for Civil Engineering of HSLU contributes to the development and assessment of innovative architectural building technologies.

Kurzinformation

Departement:

Technik & Architektur

Status:

Abgeschlossen

Zeitraum:

01.01.2017 - 31.12.2020

In der Übersicht

Fenestration systems that bend daylight glare free and deep into the building are being developed at EPFL. Their optical and thermal performance is measured at HSLU using the Goniophotometer Laboratory to characterize their spectrally selective reflection and transmission. New coloured photovoltaic modules are being developed at HSLU and demonstrated at EMPA’s Nest building. This includes on-site comparison of electrical and architectural performance of different types and colours of PV modules.

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Fakten

Projektart

Forschung

Beteiligte interne Organisationen
  • CC Gebäudehülle
  • CC Gebäudehülle und Ingenieurbau
Finanzierung
  • KTI-HSLU als Nicht-Hauptgesuchsteller/in
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Beteiligte Personen intern

Projektleiter/in
  • Sabine Sulzer
Co-Projektleitung
  • Lars Oliver Grobe
Projektmitarbeiter/in
  • Elio Amato
  • Ina Amenda
  • Seraina Kessler
  • Marek Krehel
  • Marco Kunz
  • Richard Lüchinger
  • Melissa Obermeyer
  • Roland Schregle
  • Michaela Terwilliger
  • Stephen Wasilewski
  • Stephen Wittkopf

Publikationen

  • Artikel, Rezension; peer reviewed (11)

    • 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 (2021). Irregular light scattering properties of fenestration for comfortable and energy-efficient buildings. International Journal of Digital Innovation in the Built Environment, 10(2), 1-16. doi: 10.4018/IJDIBE.2021070101

    • Wüest, Thomas; Grobe, Lars Oliver & Luible, Andreas (2020). An Innovative Façade Element with Controlled Solar-Thermal Collector and Storage. Sustainability, 12(13), 5281. doi: 10.3390/su12135281

    • Grobe, Lars Oliver (2019). Photon mapping to accelerate daylight simulation with high-resolution, data-driven fenestration models. Journal of Physics: Conference Series, 1343(1), 012154. doi: 10.1088/1742-6596/1343/1/012154

    • Grobe, Lars Oliver (2019). Photon mapping in image-based visual comfort assessments with BSDF models of high resolution. Journal of Building Performance Simulation, 12(6), 745-758. doi: 10.1080/19401493.2019.1653994

    • Grobe, Lars Oliver (2019). Photon-Mapping in climate-based daylight modelling with high-resolution BSDFs. Energy and Buildings, 205, 109524. doi: 10.1016/j.enbuild.2019.109524

    • Wittkopf, Stephen (2019). Building integrated photovoltaic at NEST - Preliminary test bedding results. Journal of Physics: Conference Series, 1343(1), 012090. doi: 10.1088/1742-6596/1343/1/012090

    • 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

    • Krehel, Marek; Grobe, Lars Oliver & Wittkopf, Stephen (2016). A hybrid data-driven BSDF model to predict light transmission trough complex fenestration systems including high incident directions. Journal of Façade Design and Engineering., 4(3-4), 79-89. doi: 10.3233/FDE-161191

  • Buchkapitel/Gesetzeskommentar/Lexikonartikel (4)

    • Papaiz, Luca; Grobe, Lars Oliver & De Michele, Giuseppe (2020). Retroreflective coating for window blinds: Reconciling view, solar control and visual comfort. In Douglas Noble; Karen Kensek; Katie Gould (Hrsg.), Facade Tectonics 2020 World Congress (Vol.1, S. 287-299). Los Angeles, United States: Tectonic Press.

    • Grobe, Lars Oliver; Terwilliger, Michaela & Wittkopf, Stephen (2020). Designing the colour, pattern and specularity of building integrated photovoltaics. In Deniz Ezgin; Ecenur Kızılörenli (Hrsg.), Architecture, Technology and Innovation 2020: Smart buildings, smart cities (S. 44-53). Izmir, Turkey: Yaşar Üniversitesi Yayınları.

    • Grobe, Lars Oliver (2020). Irregular light scattering properties of innovative fenestration for comfortable and energy-efficient buildings. In Deniz Ezgin; Ecenur Kızılörenli (Hrsg.), Architecture, Technology and Innovation 2020: Smart buildings, smart cities (S. 34-43). Izmir, Turkey: Yaşar Üniversitesi Yayınları.

    • 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 (2)

    • Geisler-Moroder, David; Lee, Eleanor; Ward, Gregory; Bueno, Bruno; Grobe, Lars Oliver; Wang, Taoning; Deroisy, Bertrand & Wilson, Helen Rose (2021). BSDF generation procedures for daylighting systems (Bericht). International Energy Agency IEA,

    • Apian-Bennewitz, Peter; de Boer, Jan; Bueno, Bruno; Deroisy, Bertrand; Fang, Yuan; Geisler-Moroder, David; Grobe, Lars Oliver; Jonsson, Jacob C; Lee, Eleanor S; Tian, Zhen; Wang, Taoning; Ward, Gregory J; Wilson, Helen Rose & Wu, Yujie (2021). Analysis and evaluation of BSDF characterization of daylighting systems (Bericht). International Energy Ageny IEA,

  • Sonstige Publikationsformate (2)

    • Grobe, Lars Oliver (23.08.2019). Measured BSDF and data-driven model of a laser cut panel (LCP001).

    • Grobe, Lars Oliver; Krehel, Marek; Wittkopf, Stephen & Yang, Xiaoming (2017). Monitoring of solar irradiation at Lucerne University of Applied Sciences and Arts.

  • Präsentation (Tagungsbeitrag/Referat/Vortrag) (7)

    • Grobe, Lars Oliver (26.08.2020). Irregular light scattering properties of innovative fenestration for comfortable and energy-efficient buildings. Architecture, Technology and Innovation ATI 2020, Izmir, TR.

    • Grobe, Lars Oliver; Terwilliger, Michaela & Wittkopf, Stephen (26.08.2020). Designing the colour, pattern and specularity of building integrated photovoltaics. Architecture, Technology and Innovation ATI 2020, Izmir, TR.

    • Grobe, Lars Oliver (04.09.2019). Photon mapping to accelerate daylight simulation with high-resolution, data-driven fenestration models. CISBAT 2019, Lausanne, Switzerland.

    • Grobe, Lars Oliver & Wittkopf, Stephen (04.09.2019). Building Integrated Photovoltaics at NEST: Preliminary test-bedding results. CISBAT 2019, Lausanne, Switzerland.

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

    • Wu, Yujie & Grobe, Lars Oliver (21.03.2018). Modeling light transmission through Venetian blinds. 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.

Kurzinformation

Departement:

Technik & Architektur

Status:

Abgeschlossen

Zeitraum:

01.01.2017 - 31.12.2020

Projektleitung

Prof. Dr. Sabine Sulzer

Vizedirektorin

+41 41 349 35 97

E-Mail anzeigen

Co-Projektleitung

Dr. Lars Oliver Grobe

Hochspezialisierter Senior Wissenschaftlicher Mitarbeiter

+41 41 349 36 32

E-Mail anzeigen

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