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Journal of the Illuminating Engineering Society Volume 26, 1997 - Issue 2
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Original Articles

Advanced Optical Daylighting Systems: Light Shelves and Light Pipes

L.O. BeltránLawrence Berkeley National Laboratory, Energy & Environment Division, Berkley, CA.
,
E.S. LeeLawrence Berkeley National Laboratory, Energy & Environment Division, Berkley, CA.
&
S.E. SelkowitzLawrence Berkeley National Laboratory, Energy & Environment Division, Berkley, CA.
Pages 91-106 | Published online: 19 Sep 2013

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Feny Elsiana, Sri Nastiti N Ekasiwi & IGN Antaryama. (2023) The impact of aspect ratio of buildings implementing Horizontal light pipe and shading systems on daylight performance. Journal of Asian Architecture and Building Engineering 0:0, pages 1-19.
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Sourin Bhattacharya, Sudipta Majumder, Subarna Roy & Imran Hossain Sardar. (2022) Estimation of daylight availability in Kolkata and approximation of indoor daylight levels for different daylighting methods. International Journal of Sustainable Energy 41:1, pages 29-57.
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Mina Ishac & Wafaa Nadim. (2021) Standardization of optimization methodology of daylighting and shading strategy: a case study of an architectural design studio – the German University in Cairo, Egypt. Journal of Building Performance Simulation 14:1, pages 52-77.
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Anothai Thanachareonkit, Eleanor S. Lee & Andrew McNeil. (2014) Empirical Assessment of a Prismatic Daylight-Redirecting Window Film in a Full-Scale Office Testbed. LEUKOS 10:1, pages 19-45.
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Khaled Nassar & Abdullah Al-Mohaisen. (2006) A Practical Approach for Cost/Benefit Analysis of Early Design Decisions: Application to Architectural Daylighting. Architectural Science Review 49:3, pages 295-300.
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AprilJ. Gruber. (2002) The Experimentally Measured Performance of a Peripherally—Glazed Floor, Sunlighting System. Architectural Science Review 45:4, pages 307-310.
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Articles from other publishers (37)

Ya Hui Teo, Jun Hong Yap, Hui An, Nenggang Xie, Jie Chang, Simon Ching Man Yu, Wai Ching Poon, Limao Zhang & Kang Hao Cheong. (2023) A simulation-aided approach in examining the viability of passive daylighting techniques on inclined windows. Energy and Buildings 282, pages 112739.
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E S Rumondang, Y V Regina, Y R Angela & D Larasati. (2022) Analysis study of light shelves, light pipes, mirror ducts utilization and implementation in Indonesia. IOP Conference Series: Earth and Environmental Science 1007:1, pages 012011.
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Subarna Roy, Sudipta Majumder, Sourin Bhattacharya & Imran Hossain Sardar. (2021) Simulation and analysis of the effects of room surface reflectance combinations on a proposed retrofit illumination system of an office. Journal of Engineering, Design and Technology 19:6, pages 1620-1647.
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Wanying Qu, Wei Cheng & Congru Liu. (2020) Lighting Design and Statistical Analysis on Sunshine Underground garage. Journal of Physics: Conference Series 1670:1, pages 012040.
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Jin Woo Moon, Yong-Kyu Baik & Sooyoung Kim. (2020) Operation guidelines for daylight dimming control systems in an office with lightshelf configurations. Building and Environment 180, pages 106968.
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Marlise Lila Silva Carvalho & Ricardo Carvalho Cabús. (2020) Eficiência da luz solar refletida e desempenho de dispositivos de sombreamento. Ambiente Construído 20:2, pages 191-209.
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Kang Hao Cheong, Ya Hui Teo, Jin Ming Koh, U. Rajendra Acharya & Simon Ching Man Yu. (2020) A simulation-aided approach in improving thermal-visual comfort and power efficiency in buildings. Journal of Building Engineering 27, pages 100936.
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Liliana O. Beltrán. 2020. Smart and Sustainable Cities and Buildings. Smart and Sustainable Cities and Buildings 631 641 .
Zhen Tian, Yaping Lei & Jacob C. Jonsson. (2018) Daylight luminous environment with prismatic film glazing in deep depth manufacture buildings. Building Simulation 12:1, pages 129-140.
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Kyungsoo Kim, Heangwoo Lee, Hyangin Jang, Changyoung Park & Changho Choi. (2019) Energy-saving performance of light shelves under the application of user-awareness technology and light-dimming control. Sustainable Cities and Society 44, pages 582-596.
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Rizki A. Mangkuto, Fathurrahman Feradi, Rialdi Eka Putra, R. Triyogo Atmodipoero & Federico Favero. (2018) Optimisation of daylight admission based on modifications of light shelf design parameters. Journal of Building Engineering 18, pages 195-209.
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Heangwoo Lee, Seonghyun Park & Janghoo Seo. (2018) Development and Performance Evaluation of Light Shelves Using Width-Adjustable Reflectors. Advances in Civil Engineering 2018, pages 1-9.
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Thanh Pham, Ngoc Vu & Seoyong Shin. (2017) Daylighting System Based on Novel Design of Linear Fresnel lens. Buildings 7:4, pages 92.
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Ing Liang Wong. (2017) A review of daylighting design and implementation in buildings. Renewable and Sustainable Energy Reviews 74, pages 959-968.
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Antonis Kontadakis, Aris Tsangrassoulis, L. Doulos & F. Topalis. (2017) An active sunlight redirection system for daylight enhancement beyond the perimeter zone. Building and Environment 113, pages 267-279.
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Andrew McNeil, Eleanor S. Lee & Jacob C. Jonsson. (2017) Daylight performance of a microstructured prismatic window film in deep open plan offices. Building and Environment 113, pages 280-297.
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MG Nair, K Ramamurthy & AR Ganesan. (2013) Classification of indoor daylight enhancement systems. Lighting Research & Technology 46:3, pages 245-267.
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Peng Xue, C.M. Mak & H.D. Cheung. (2014) New static lightshelf system design of clerestory windows for Hong Kong. Building and Environment 72, pages 368-376.
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Claes‐Göran Granqvist. 2013. Nanotechnology for the Energy Challenge. Nanotechnology for the Energy Challenge 593 617 .
Seong-Teak Jang & Seong-Ju Chang. (2013) Exploration of a Light Shelf System for Multi-Layered Vegetable Cultivation. Journal of the Korea Institute of Ecological Architecture and Environment 13:2, pages 61-66.
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Jeong Tai Kim & Gon Kim. (2012) Optical Daylighting Performance of an Active Mirror System for Visual Sustainability of Residential Environment. Indoor and Built Environment 22:1, pages 212-225.
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Ahmed A. Freewan. 2011. Sustainability in Energy and Buildings. Sustainability in Energy and Buildings 57 64 .
Richard Kittler, Miroslav Kocifaj & Stanislav DarulaRichard Kittler, Miroslav Kocifaj & Stanislav Darula. 2012. Daylight Science and Daylighting Technology. Daylight Science and Daylighting Technology 233 255 .
Claes G. Granqvist. 2011. Handbook of Transparent Conductors. Handbook of Transparent Conductors 353 423 .
Ahmed A. Freewan. (2010) Maximizing the lightshelf performance by interaction between lightshelf geometries and a curved ceiling. Energy Conversion and Management 51:8, pages 1600-1604.
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Claes‐Göran Granqvist. 2010. Nanotechnology for the Energy Challenge. Nanotechnology for the Energy Challenge 435 458 .
Jeong Tai Kim & Gon Kim. (2010) Overview and new developments in optical daylighting systems for building a healthy indoor environment. Building and Environment 45:2, pages 256-269.
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V. Duc Hien & S. Chirarattananon. (2009) An experimental study of a facade mounted light pipe. Lighting Research & Technology 41:2, pages 123-142.
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Claes G. Granqvist. (2008) Electrochromics for energy efficiency and indoor comfort. Pure and Applied Chemistry 80:11, pages 2489-2498.
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C. G. Granqvist. 2008. Reactive Sputter Deposition. Reactive Sputter Deposition 485 495 .
L. O. Beltrán & B. G. Martins-Mogo. 2009. Proceedings of ISES World Congress 2007 (Vol. I – Vol. V). Proceedings of ISES World Congress 2007 (Vol. I – Vol. V) 461 465 .
C G Granqvist, A Azens, J Smulko & L B Kish. (2007) Oxide-based electrochromics for energy efficient buildings: materials, technologies, testing, and perspectives. Journal of Physics: Conference Series 93, pages 012021.
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Claes G. Granqvist. (2007) Transparent conductors as solar energy materials: A panoramic review. Solar Energy Materials and Solar Cells 91:17, pages 1529-1598.
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R.P. Leslie. (2003) Capturing the daylight dividend in buildings: why and how?. Building and Environment 38:2, pages 381-385.
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I.R Edmonds & P.J Greenup. (2002) Daylighting in the tropics. Solar Energy 73:2, pages 111-121.
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W Lorenz. (2001) A glazing unit for solar control, daylighting and energy conservation. Solar Energy 70:2, pages 109-130.
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Surapong Chirarattananon, Siriwat Chedsiri & Liu Renshen. (2000) Daylighting through light pipes in the tropics. Solar Energy 69:4, pages 331-341.
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