DEVELOPMENT OF A HIGH-QUALITY ILLUMINATION ENVIRONMENT IN THE PREMISES OF INDUSTRIAL BUILDINGS IN THE CLIMATIC CONDITIONS OF SOUTHEAST CHINA
Pages 16 - 25
The problem of high-quality illumination of the premises of multistory industrial buildings in the climatic conditions of southeast China is considered in the article, and a new effective system of natural illumination is implemented. The proposed illumination system is based on the existing sources of lateral illumination with addition of supplementary natural illumination incoming through the so-called «illumination wells».
Whenever industrial facilities are designed in the hot and sunny climate of southern provinces of China, particular attention should be driven to the high-quality internal microclimate, which is, to a substantial extent, based on the temperature, light and solar exposure rates inside buildings.
In the case under consideration, the solar exposure and protection of the premises from excessive sunlight are addressed as a top priority in terms of excessive heat input, thereafter, the above phenomena are considered in terms of their impact on the internal light environment generated by uncomfortable contrasts, brightness and glare.
Basically, the quality of the illumination environment depends on the natural illumination inside the buildings in question, which, in its turn, depends on the system of transmission of natural lighting and luminosity of its individual elements.
DOI: 10.22227/1997-0935.2012.7.16 - 25
- SNiP 23.05.95*. Estestvennoe i iskusstvennoe osveshchenie [Building Norms and Rules 23.05.95*. Natural and Artificial Lighting]. Moscow, State Construction Committee of Russia, 2004.
- SP 52.13330.2011. Estestvennoe i iskusstvennoe osveshchenie. Aktualizirovannaya redaktsiya SNiP 23-05—95* [Building Rules 52.13330.2011. Natural and Artificial Illumination. Revised version of SNIP 23. 05.95*]. Moscow, Ministry of Regional Development, 2010.
- Solov’ev A.K. Fizika sredy [Environmental Physics]. Moscow, ASV Publ., 2011.
- Solov’ev A.K. Effektivnost’ verkhnego estestvennogo osveshcheniya proizvodstvennykh zdaniy [Efficiency of Natural Overhead Lighting in Industrial Buildings]. Moscow, 2010.
- Zemtsov V.A. Voprosy proektirovaniya i rascheta estestvennogo osveshcheniya pomeshcheniy cherez zenitnye fonari shakhtnogo tipa [Problems of Natural Lighting Design and Analysis in Premises through Zenith Skylights of the Shaft Type]. Svetotechnika Publ., Moscow, 1990, no. 10.
- Skat’ D.D. Kompleksnyy metod rascheta zenitnogo osveshcheniya zdaniy [Multi-component Method of Analysis of Zenith Lighting in Buildings]. Poltava, 1999.
- Gusev N.M. Osnovy stroitel’noy fiziki [Fundamentals of Building Physics]. Stroyizdat Publ., Moscow, 1975.
- Solov’ev A.K. Polye trubchatye svetovody i ikh primenenie dlya estestvennogo osveshcheniya zdaniy [Hollow Tubular Light Conductors and Their Application for Natural Lighting of Buildings]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Engineering]. Moscow, 2007, no. 2.
- Stetskiy S.V., Chen Guanglong. Svetoklimaticheskoe rayonirovanie territorii Kitaya na osnove sovetskikh i Rossiyskikh normativnykh dokumentov [Lighting Climate Regionalization in China on the basis of Soviet and Russian Regulatory Documents]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2011, no. 2.
- Hokoshka S., Bodman G. Sub»ektivnaya otsenka usloviy osveshcheniya v rabochem pomeshchenii [Subjective Assessment of Lighting Conditions in Workrooms]. Lihttehnik Publ., 1977, no. 3 (in German).
- Stetskiy S.V., Salo M.A. Uchet vliyaniya solntsezashchitnykh ustroystv pri raschetakh estestvennogo osveshcheniya v usloviyakh yuzhnykh regionov s preobladaniem yasnogo neba [The Influence of Shading Devices in the Calculation of Natural Lighting in the Southern Regions Dominated by the Clear Sky]. SMOT XXI Century Publ., Moscow, 2008, no. 12.