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[해외논문] Daylight Availability of Living Rooms in Dense Residential Areas under Current Planning Regulations: A Cross-Region Case Study in China

Buildings, v.14 no.4, 2024년, pp.1090 -   

Hong, Lishu (School of Architecture, Tsinghua University, Beijing 100084, China) ,  Wang, Chenxi (School of Architecture, Tsinghua University, Beijing 100084, China) ,  Zhang, Xin (School of Architecture, Tsinghua University, Beijing 100084, China)

Abstract AI-Helper 아이콘AI-Helper

After the pandemic, as it becomes more feasible to study and work from home, the quality of residential daylighting has attracted increasing attention. With the rapid growth of high-density residential areas, China is confronted with the incoordination between site planning and interior daylight ava...

참고문헌 (74)

  1. Reinhart, C.F. (2014). Daylighting Handbook I, Building Technology Press. 

  2. Tregenza Daylighting buildings: Standards and the needs of the designer Light. Res. Technol. 2018 10.1177/1477153517740611 50 63 

  3. Boyce Light, lighting and human health Light. Res. Technol. 2022 10.1177/14771535211010267 54 101 

  4. Dingel How many jobs can be done at home? J. Public Econ. 2020 10.1016/j.jpubeco.2020.104235 189 104235 

  5. Shimura Remote Work Decreases Psychological and Physical Stress Responses, but Full-Remote Work Increases Presenteeism Front. Psychol. 2021 10.3389/fpsyg.2021.730969 12 730969 

  6. Ng Remote work as a new normal? The technology-organization-environment (TOE) context Technol. Soc. 2022 10.1016/j.techsoc.2022.102022 70 102022 

  7. Littlefair, P. (2011). Site Layout Planning for Daylight and Sunlight: A Guide to Good Practice (BR 209), IHS BRE Press. [2nd ed.]. 

  8. Littlefair Passive solar urban design: Ensuring the penetration of solar energy into the city Renew. Sustain. Energy Rev. 1998 10.1016/S1364-0321(97)00009-9 2 303 

  9. Tregenza, P., and Wilson, M. (2011). Daylighting: Architecture and Lighting Design, Routledge. 

  10. Mardaljevic The implementation of natural lighting for human health from a planning perspective Light. Res. Technol. 2021 10.1177/14771535211022145 53 489 

  11. Littlefair Daylight, sunlight and solar gain in the urban environment Sol. Energy 2001 10.1016/S0038-092X(00)00099-2 70 177 

  12. Ng Studies on daylight design and regulation of high-density residential housing in Hong Kong Light. Res. Technol. 2003 10.1191/1477153503li087oa 35 178 

  13. Reinhart Dynamic daylight performance metrics for sustainable building design Leukos 2006 10.1582/LEUKOS.2006.03.01.001 3 7 

  14. (2013). Standard of Daylighting Design of Buildings (Standard No. GB 50033-2013). (In Chinese). 

  15. Building Research Establishment (2021). BREEAM International New Construction, Version 6.0, Building Research Establishment. 

  16. (2022). Daylight in Buildings (Standard No. EN 17037:2018+A1:2021). 

  17. Bournas Daylight compliance of residential spaces: Comparison of different performance criteria and association with room geometry and urban density Build. Environ. 2020 10.1016/j.buildenv.2020.107276 185 107276 

  18. Institute for Building Environment and Energy Conservation (2021, November 30). Comprehensive Assessment System for Built Environment Efficiency-New Construction. (In Japanese). 

  19. (2019). Assessment Standard for Green Building (Standard No. GB/T 50378-2019). (In Chinese). 

  20. U.S. Green Building Council (2021, November 12). LEED v4.1 RESIDENTIAL BD+C: MULTIFAMILY HOMES. Available online: https://www.usgbc.org/leed/v41#residential. 

  21. German Sustainable Building Council (2021, December 23). DGNB System-New Buildings Criteria Set 2020. Available online: https://www.dgnb-system.de/en/buildings/new-construction/criteria/. 

  22. International WELL Building Institute (2023, December 25). The WELL Building Standard™ Version 2. Available online: https://v2.wellcertified.com/en/wellv2-23q4/overview. 

  23. Mardaljevic, J. (2006, January 21-22). Examples of Climate-Based Daylight Modelling. Proceedings of the CIBSE National Conference 2006: Engineering the Future, Oval Cricket Ground, London, UK. 

  24. Reinhart Validation of dynamic RADIANCE-based daylight simulations for a test office with external blinds Energy Build. 2001 10.1016/S0378-7788(01)00058-5 33 683 

  25. Nabil Useful daylight illuminances: A replacement for daylight factors Energy Build. 2006 10.1016/j.enbuild.2006.03.013 38 905 

  26. Illuminating Engineering Society of North America (IES) (2012). Approved Method: IES Spatial Daylight Autonomy (sDA) and Annual Sunlight Exposure (ASE), Illuminating Engineering Society of North America. IES LM-83-12. 

  27. Dogan A critical review of daylighting metrics for residential architecture and a new metric for cold and temperate climates Light. Res. Technol. 2019 10.1177/1477153518755561 51 206 

  28. Reinhart The daylit area-Correlating architectural student assessments with current and emerging daylight availability metrics Build. Environ. 2012 10.1016/j.buildenv.2011.10.024 50 155 

  29. Jakubiec, J.A., Srisamranrungruang, T., Kong, Z., Quek, G., and Talami, R. (2019, January 2-4). Subjective and Measured Evidence for Residential Lighting Metrics in the Tropics. Proceedings of the Building Simulation 2019: 16th Conference of IBPSA, Rome, Italy. 

  30. Bauer Annual daylight simulations with EvalDRC-Assessing the performance of daylight redirection components J. Facade Des. Eng. 2015 10.3233/FDE-160044 3 253 

  31. Lucas Measuring and using light in the melanopsin age Trends Neurosci. 2014 10.1016/j.tins.2013.10.004 37 1 

  32. Rea Light as a circadian stimulus for architectural lighting Light. Res. Technol. 2018 10.1177/1477153516682368 50 497 

  33. Revell A “Melanopic” Spectral Efficiency Function Predicts the Sensitivity of Melanopsin Photoreceptors to Polychromatic Lights J. Biol. Rhythm. 2011 10.1177/0748730411409719 26 314 

  34. Andersen A framework for predicting the non-visual effects of daylight-Part I: Photobiology-based model Light. Res. Technol. 2012 10.1177/1477153511435961 44 37 

  35. Mardaljevic A framework for predicting the non-visual effects of daylight-Part II: The simulation model Light. Res. Technol. 2014 10.1177/1477153513491873 46 388 

  36. U.S. Green Building Council (2021, November 12). LEED v4.1 Building Design and Construction. Available online: https://build.usgbc.org/bd+c_guide. 

  37. Kanters Planning for solar access in Sweden: Routines, metrics, and tools Urban Plan. Transp. Res. 2021 10.1080/21650020.2021.1944293 9 347 

  38. (2018). Standard for Urban Residential Area Planning and Design (Standard No. GB 50180-2018). (In Chinese). 

  39. Zhang Domestic and Foreign Study Progress on Sunlight Control of Residential Plot Des. Community 2019 1 97 

  40. Ministry of Land Infrastructure Transport and Tourism (2023, March 29). Uniform Building Code, (In Japanese). 

  41. Lau Preferred solar access in high-density, sub-tropical housing Light. Res. Technol. 2013 10.1177/1477153512464218 45 317 

  42. Lu Assessing the daylight and sunlight availability in high-density residential areas: A case in North-east China Archit. Sci. Rev. 2013 10.1080/00038628.2012.729311 56 168 

  43. Lau Residents’ preference of solar access in high-density sub-tropical cities Sol. Energy 2011 10.1016/j.solener.2011.04.026 85 1878 

  44. Hamzah The development of visible sky area as an alternative daylight assessment method for high-rise buildings in high-density urban environments Archit. Sci. Rev. 2016 10.1080/00038628.2014.963021 59 178 

  45. Lu Dynamic evaluation of daylight availability in a highly-dense Chinese residential area with a cold climate Energy Build. 2019 10.1016/j.enbuild.2019.03.045 193 139 

  46. Wang Characterization of the acceptable daylight quality in typical residential buildings in Hong Kong Build. Environ. 2020 10.1016/j.buildenv.2020.107094 182 107094 

  47. Dogan Testing the residential daylight score: Comparing climate-based daylighting metrics for 2444 individual dwelling units in temperate climates Light. Res. Technol. 2020 10.1177/1477153520924838 52 991 

  48. Ticleanu Impacts of home lighting on human health Light. Res. Technol. 2021 10.1177/14771535211021064 53 453 

  49. 10.3390/buildings13051357 Potocnik, J., and Kosir, M. (2023). The Necessity for Multi-Spectral Simulations of the Indoor Non-Visual Luminous Environment: A Simplified Annual Approach. Buildings, 13. 

  50. (2021). General Code for Building Environment (Standard No. GB 55016-2021). (In Chinese). 

  51. Architectural Design and Research Institute of Tsinghua University Co., and School of Architecture and Urban Planning of Chongqing University (2017). The Sourcebook of Architecture Design, China Architecture & Building Press. [3rd ed.]. (In Chinese). 

  52. Bureau of Natural Resources and Planning of Kunming Municipality (2023, August 07). Technical Regulations on Urban and Rural Planning Management in Kunming, (In Chinese). 

  53. (2021). Technical Specifications for Planning Management of Construction Projects (Standard No. DB12/T 1040-2021). (In Chinese). 

  54. The People’s Government of Changsha Municipality (2023, August 07). Technical Regulations on Urban Planning Management in Changsha (2018 Revision), (In Chinese). 

  55. The People’s Government of Chongqing Municipality (2023, August 07). Technical Regulations on Urban Planning Management in Chongqing, (In Chinese). 

  56. Ministry of Natural Resources of the People’s Republic of China (2023, December 13). Map of China GS(2019)1682, Available online: http://bzdt.ch.mnr.gov.cn/browse.html?picId=%224o28b0625501ad13015501ad2bfc0272%22. 

  57. CIE (2020). CIE S 017:2020 ILV: International Lighting Vocabulary, CIE Central Bureau. [2nd ed.]. 

  58. China Meteorological Bureau (CMB), Climate Information Centre, Climate Data Office, and Department of Building Science and Technology, Tsinghua University (2005). China Standard Weather Data for Analyzing Building Thermal Conditions, China Building Industry Publishing House. (In Chinese). 

  59. (2019). Uniform Standard for Design of Civil Buildings (Standard No. GB 50352-2019). (In Chinese). 

  60. Ayoub A review on light transport algorithms and simulation tools to model daylighting inside buildings Sol. Energy 2020 10.1016/j.solener.2020.02.018 198 623 

  61. Solemma LLC (2022, September 30). ClimateStudio. Available online: https://www.solemma.com/climatestudio. 

  62. Solemma LLC (2021, September 14). ALFA. Available online: https://www.solemma.com/alfa. 

  63. University of Washington, and ZGF Architects LLP (2023, September 25). Lark Spectral Lighting. Available online: http://faculty.washington.edu/inanici/Lark/Lark_home_page.html. 

  64. The People’s Government of Kunming Municipality (2024, February 05). Master Plan of Kunming (2011-2020, 2016 Edition), (In Chinese). 

  65. Tianjin Municipal Bureau of Statistics, and Survey Office of the National Bureau of Statistics in Tianjin (2024, February 05). Tianjin Statistical Yearbook 2023, Available online: https://stats.tj.gov.cn/nianjian/2023nj/zk/indexch.htm. 

  66. The People’s Government of Changsha Municipality (2024, February 05). Urban Master Plan of Changsha (2003-2020, 2014 Edition), (In Chinese). 

  67. Chongqing Municipal Bureau of Statistics, and NBS Survey Office in Chongqing (2023). Chongqing Statistical Yearbook 2023, China Statistics Press. 

  68. 10.3390/buildings13092128 Lo Verso, V.R.M., Giovannini, L., Valetti, L., and Pellegrino, A. (2023). Integrative Lighting in Classrooms: Preliminary Results from Simulations and Field Measurements. Buildings, 13. 

  69. CIE (2018). CIE S 026/E:2018 CIE System for Metrology of Optical Radiation for ipRGC-Influenced Responses to Light, CIE Central Bureau. 

  70. (2016). Code for Thermal Design of Civil Building (Standard No. GB 50176-2016). 

  71. Reinhart, C.F. (2006). Tutorial on the Use of Daysim Simulations for Sustainable Design, Institute for Research in Construction, National Research Council Canada. 

  72. Mardaljevic, J., Andersen, M., Roy, N., and Christoffersen, J. (2022, March 01). Daylighting, Artificial Lighting and Non-Visual Effects Study for a Residential Building. Available online: http://thedaylightsite.com/library-3/research-publications/papers/. 

  73. CIE (2004). CIE S 011/E: 2003 Spatial Distribution of Daylight-CIE Standard General Sky, CIE Central Bureau. 

  74. Galatioto Aspects and issues of daylighting assessment: A review study Renew. Sustain. Energy Rev. 2016 10.1016/j.rser.2016.08.018 66 852 

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