ARCHITECTURE AND URBAN DEVELOPMENT. RESTRUCTURING AND RESTORATION

EFFECTIVE SUN PROTECTION DEVICES IN THE CIVIL ENGINEERING OF HOT AND SUNNY REGIONS

Vestnik MGSU 7/2012
  • Stetskiy Sergey Vyacheslavovich - Moscow State University of Civil Engineering (MSUCE) Candidate of Technical Sciences, Professor, Department of Architecture, Moscow State University of Civil Engineering (MSUCE), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.
  • Khodeir Walid Abbas - Moscow State University of Civil Engineering (MSUCE) postgraduate student, Department of Architecture, Moscow State University of Civil Engineering (MSUCE), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 9 - 15

The authors consider the problem of design of external stationary sun protection devices, namely, modified multi-component units that are especially effective in the hot and sunny climate of Lebanon.
Apart from their sun protection properties, the proposed units demonstrate effective light-reflecting characteristics in the clear sky environment. These properties substantially increase the value of the daylight factor. The value is mainly increased inside buildings, or in the areas that are located far from sources of natural illumination. The authors propose EF, a new efficiency factor to be taken into account in any calculations of the daylight factor. This factor depends on the shape of the sun protection device installed above the window of the storey below the one under consideration and at a distance from the device under consideration and the window in question. As a result, the new proposals increase the quality of the internal environment and may result in energy saving due to the reduction of the artificial lighting period.

DOI: 10.22227/1997-0935.2012.7.9 - 15

References
  1. Tvarovskiy M. Solntse v arkhitekture [Sun in Architecture]. Moscow, Stroyizdat Publ., 1977.
  2. Solov’ev A.K. Otsenka svetovoy sredy proizvodstvennykh pomeshcheniy v usloviyakh yasnogo neba [Assessment of the Lighting Environment of Industrial Premises in the Clear Sky Climate]. Moscow, Svetotekhnika [Illumination Engineering]. 1987, no. 7.
  3. Stetskiy S.V., Amkhaz Kh. Rol’ solntsezashchitnykh ustroystv v pomeshcheniyakh administrativnykh zdaniy dlya usloviy Beyruta [The Role of Sun Protection Devices in the Premises of Office Buildings in the Climate of Beirut]. Stroitel’nye materialy, oborudovanie i tekhnologii XXI veka [Building Materials, Equipment and Technologies of the 21st Century]. 2004, no. 2.
  4. Gusev N.M. Osnovy stroitel’noy fiziki [Fundamentals of Building Physics]. Moscow, Stroyizdat Publ., 1975.
  5. Stetskiy S.V., Suliman Samekh. Povyshenie urovney estestvennoy osveshchennosti v pomeshcheniyakh grazhdanskikh zdaniy s sistemoy bokovogo estestvennogo osveshcheniya dlya usloviy zharkogo i solnechnogo klimata [Improvement of Natural Illumination in Civic Buildings That Have a System of Natural Side Illumination in the Hot and Sunny Climate]. Moscow, Stroitel’nye materialy, oborudovanie i tekhnologii XXI veka [Building Materials, Equipment and Technologies of the 21st Century]. 2005, no. 5.
  6. Suliman Samekh. Sozdanie stroitel’nymi metodami komfortnoy akusticheskoy, svetovoy i insolyatsionnoy sredy dlya pomeshcheniy grazhdanskikh zdaniy v usloviyakh krupnykh gorodov Sirii (na primere goroda Damaska) [Employment of Civil Engineering Methods for the Generation of a Comfortable Architectural, Illumination and Insolation Environment for the Premises of Civic Buildings in Major Cities of Syria (exemplified by Damascus)]. Moscow, 2006.
  7. Salo Mokhamed Ali. Povyshenie effektivnosti sistem estestvennogo osveshcheniya v proizvodstvennykh zdaniyakh Sirii (na primere predpriyatiy pishchevoy promyshlennosti) [Improvement of Efficiency of Natural Illumination Systems in Industrial Buildings of Syria (exemplified by food processing enterprises)]. Moscow, 2005.
  8. Kharnes E., Mekhta M. Regulirovanie solnechnoy radiatsii v zdaniyakh [Regulation of Solar Radiation inside Buildings]. Moscow, Stroyizdat Publ., 1984.
  9. Dzhamus Yaser Makhmud. Sozdanie stroitel’nymi metodami komfortnykh usloviy vnutrenney sredy v grazhdanskikh zdaniyakh Blizhnego Vostoka [Generation of Comfortable Environment Inside Civic Buildings of the Middle East]. Moscow, 2000.
  10. Mitnik M.Yu., Spiridonov A.V. Inzhenernyy metod rascheta sistem estestvennogo osveshcheniya pomeshcheniy s ratsional’noy solntsezashchitoy [Engineering Method of Analysis of Natural Lighting Systems in the Premises with Rational Sunlight Protection]. Moscow, Svetotekhnika [Illumination Engineering]. 1990, no. 10.

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OPTIMIZATION OF GEOMETRICS OF LIGHT WELLS FOR MULTI-STOREY INDUSTRIAL BUILDINGS IN THE CONDITIONS OF SOUTHEAST CHINA

Vestnik MGSU 11/2012
  • Stetskiy Sergey Vyacheslavovich - Moscow State University of Civil Engineering (MGSU) Candidate of Technical Sciences, Professor, Department of Architecture of Civil and Industrial Buildings, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Chen Guanglong - Moscow State University of Civil Engineering (MSUCE) postgraduate student, Department of Architecture of Civil and Industrial Buildings, Moscow State University of Civil Engineering (MSUCE), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 23 - 31

The authors consider problems of optimum height (or length) of light wells in multi-storey
industrial buildings in the hot and sunny climate of southeast China. The researches were based
on the multi-component data analysis that included the analysis of dimensions of light wells in plan
view, analysis of natural light that they delivered and the time period of the use of the artificial light in
the workrooms of the above industrial buildings. Conclusions were made concerning the efficiency
of light wells in the upper and pre-upper storeys of similar industrial buildings.
Particular attention must be driven to the quality of the internal microclimate, which accrues
importance in the extreme weather conditions like hot and sunny climates. In the course of multiple
years, the problem of development and maintenance of the favourable indoor environment has
been the subject of research performed by the leading experts in building physics. The researches
concerning hot climates are mainly based on the research of the lighting, thermal and insulation
conditions in the said premises and development of architectural and structural concepts and solutions
aimed to improve these conditions.

DOI: 10.22227/1997-0935.2012.11.23 - 31

References
  1. Solov’ev A.K. Fizika sredy [Environmental Physics]. Moscow, ASV Publ., 2011, 344 p.
  2. Gusev N.M. Osnovy stroitel’noy fiziki [Fundamentals of Building Physics]. Moscow, Stroyizdat Publ., 1975, 330 p.
  3. Solov’ev A.K. Effektivnost’ verkhnego estestvennogo osveshcheniya proizvodstvennykh zdaniy [Efficiency of Overhead Natural Lighting in Industrial Buildings]. Moscow, 2010, 72 p.
  4. Skat’ D.D. Kompleksnyy metod rascheta zenitnogo osveshcheniya zdaniy [Multi-component Method of Analysis of Overhead Lighting in Buildings]. Poltava, 1999, 20 p.
  5. Zemtsov V.A. Voprosy proektirovaniya i rascheta estestvennogo osveshcheniya pomeshcheniy cherez zenitnye fonari shakhtnogo tipa [Issues of Design and Analysis of Natural Lighting of Premises through Shaft–type Skylights]. Svetotekhnika [Illumination Engineering]. Moscow, 1990, no. 10, pp. 25—36.
  6. 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]. 2007, no. 2, pp. 53—55.
  7. Stetskiy S.V., Chen Guanglong. Sozdanie kachestvennoy svetovoy sredy v pomeshcheniyakh proizvodstvennykh zdaniy dlya klimaticheskikh usloviy yugo-vostochnogo Kitaya [Development of a High-quality Illumination Environment in the Premises of Industrial Buildings in the Climatic Conditions of Southeast China]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no. 7, pp. 16—25.
  8. Aleksandrov Yu.P., Marantidi I.N., Solov’ev A.K., Stetskiy S.V. Proektirovanie svetoprozrachnykh konstruktsiy i estestvennogo osveshcheniya zdaniy [Design of Translucent Structures and Natural Lighting of Buildings]. Moscow, MISI Publ., 1984, 115 p.
  9. Liu Jianping. Building Physics. China Building Industry Press, 2009, 558 p.
  10. SNiP 23-05—95*. Estestvennoe i iskusstvennoe osveshchenie [Construction Norms and Regulations 23-05—95*. Natural and Artificial Lighting]. Moscow, Gosstroy Rossii publ., 2004, 27 p.
  11. SP 52.13330. Estestvennoe i iskusstvennoe osveshchenie. Aktualizirovannaya redaktsiya SNiP 23-05—95*. 2011. [Construction Rules SP 52.13330. Daylight and Artificial Lighting. Updated Version of Construction Norms and Regulations 23. 05.95*.2011. SP 52.13330.2011]. Moscow, Ministry of Regional Development, 2010, 75 p.
  12. Kondratenkov A.N., Solov’ev A.K., Stetskiy S.V., Khamidov K.Kh. Razrabotat’ kompleks meropriyatiy po uluchsheniyu svetovoy sredy v tselykh predpriyatiy Minlegproma Tadzhikskoy SSR s uchetom ekonomii energoresursov [Development of a Set of Actions Aimed at Improvement of the Lighting Environment at Industrial Enterprises of the Ministry of Textile Industry of the Tajik SSR with account for the Saving of Electricity]. Scientific Report compiled under Contract 102. Moscow, MISI Publ., 1986.

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