Optical characterization of historical coloured stained glasses in winter gardens and their modelling in daylight availability simulations

Lo Faro, 2021, Sustainable strategies for the adaptive reuse of religious heritage: a sustainable approach, Sustainability, 13, 8187, 10.3390/su13158187

Godfraind S, Pender R. Practical building conservation. Glass and glazing. Taylor & Francis Ltd. 2012; London.

Azhdari, 2017, Psychological impact of color or residents of Shiraz’s Houses during Qajar Era (Case Study: Narenjestan Qavam), Int. J. Scientific Study, 5, 40

Al-Sallal, 2018, UAE heritage buildings converted into museums: evaluation of daylighting effectiveness and potential risks on artifacts and visual comfort, Energy and Buildings, 176, 333, 10.1016/j.enbuild.2018.06.067

Ayoub, 2019, 100 Years of daylighting: a chronological review of daylight prediction and calculation methods, Solar Energy, 194, 360, 10.1016/j.solener.2019.10.072

Nocera, 2018, Daylight performance of classrooms in a Mediterranean school heritage building, Sustainability, 10, 3705, 10.3390/su10103705

Soleimani, 2021, Improving daylight availability in heritage buildings: a case study of below-grade classrooms in Tehran, J. Daylighting, 8, 120, 10.15627/jd.2021.9

Almodovar-Melendo, 2018, Lighting features in historical buildings: scientific analysis of the Church of Saint Louis of the Frenchmen in Sevilla, Sustainability, 10, 3352, 10.3390/su10093352

Leccese, 2020, Application of climate-based daylight simulation to assess lighting conditions of space and artworks in historical buildings: the case study of cetacean gallery of the Monumental Charterhouse of Calci, J. Cultural Heritage, 46, 193, 10.1016/j.culher.2020.06.010

Hosseini, 2018, Quantitative investigation through climate-based daylight metrics of visual comfort due to colorful glass and Orosi windows in Iranian architecture, J. Daylighting, 5, 21, 10.15627/jd.2018.5

Ceglia, 2012, Using optical spectroscopy to characterize the material of a 16th c. stained glass window

Meulebroeck, 2016, Authenticity screening of stained glass windows using optical spectroscopy, Scientific Reports, 6, 37726, 10.1038/srep37726

Barral, 2007, Stained glasses, Masterpieces of the modern era, Thames & Hudson, 33

Fatta, 1983

Ocean Optics Inc., Operating Manual and User’s Guide. S2000 Miniature Fiber Optic Spectrometers and Accessories. Document Number 203-00000-DW-02-0505, 2005.

Buratti C. Aging influence on the thermal and optical properties of artistic glasses: experimental data and comparison. Proceeding of the 6th ASME-JSME Thermal Engineering Joint Conference, March 16-20, 2003.

Bellia, 2020, Matching CIE illuminants to measured spectral power distributions: a method to evaluate non-visual potential of daylight in two European cities, Solar Energy, 208, 830, 10.1016/j.solener.2020.08.021

Smith, 1932, The CIE colorimetric standards and their use, Trans. Optical Soc., 33, 73, 10.1088/1475-4878/33/3/301

Konica Minolta Illuminance meter T-10A/T-10MA Instruction manual, retrieved from https://www.konicaminolta.com/instruments/download/instruction_manual/light/pdf/t-10a_instruction_eng.pdf (accessed November 2021).

Konica Minolta Luminance meter LS-100 and LS-110 Instruction manual, retrieved from https://www.konicaminolta.com/instruments/download/instruction_manual/light/pdf/ls-100-110_instruction_eng.pdf (accessed November 2021).

ClimateStudio software, https://www.solemma.com/climatestudio (accessed November 2021).

Rhinoceros software, https://www.rhino3d.com/ (accessed November 2021).

Brembilla, 2019, Evaluation of climate-based daylighting techniques for complex fenestration and shading systems, Energy and Buildings, 203, 109454, 10.1016/j.enbuild.2019.109454

Ward Larson, 2007

Balakrishnan, 2019, Spectral rendering with daylight: a comparison of two spectral simulation platforms, 1191

Radiance reference website, https://floyd.lbl.gov/radiance/refer/Notes/rpict_options.html (accessed June 2022).

Evola, 2021, Typical-year and multi-year building energy simulation approaches: a critical comparison, Energy, 219, 119591, 10.1016/j.energy.2020.119591

Nabil, 2005, Useful daylight illuminance: a new paradigm for assessing daylight in buildings, Lighting Res. Technol., 37, 41, 10.1191/1365782805li128oa

IES Daylight Metrics Committee (2012). IES Spatial Daylight Autonomy (sDA) and Annual Sunlight Exposure (ASE); Daylight Metrics Committee. Approved Method IES LM-83-12; Illuminating Engineering Society of North America: New York, NY, USA.

Xuan, 2019, Daylighting characteristics and experimental validation of a novel concentrating photovoltaic/daylighting system, Solar Energy, 186, 264, 10.1016/j.solener.2019.05.014

Reinhart, 2001, Validation of dynamic Radiance-based daylight simulations for a test office with external blinds, Energy and Buildings, 33, 683, 10.1016/S0378-7788(01)00058-5

Reinhart, 2009, Experimental validation of Autodesk 3ds Max Design 2009 and Daysim 3.0, Leukos, 6, 7, 10.1582/LEUKOS.2009.06.01001

Reinhart, 2006, Development and validation of a Radiance model for a translucent panel.“, Energy and Buildings, 38, 890, 10.1016/j.enbuild.2006.03.006

McNeil, 2013, A validation of the Radiance three-phase simulation method for modelling annual daylight performance of optically complex fenestration systems, J. Building Performance Simulation, 6, 24, 10.1080/19401493.2012.671852