2013

Spor Tesislerinin Aydınlatmasında Yüksek Enerji Verimli ve LED’li Aydınlatma Araçları

Spor tesislerinin aydınlatması, aydınlatma uygulamasının özel bir kategorisidir. Oyunun türüne ve seviyesine görefarklı aydınlatma seviyelerine ihtiyaç duyulmaktadır. Sporcuların ve seyircilerin görsel ihtiyaçlarının karşılamasıamacıyla spor sahalarında yüksek miktarda enerji tüketilmektedir. Bunun için spor tesislerinin aydınlatılmasındaekonomik ve sürdürülebilir yöntemlere ihtiyaç duyulmaktadır. Ayrıca spor tesislerinde elverişli ve sağlıklı görmekoşullarının sağlanması sporcuları hem fizyolojik hem de psikolojik açıdan etkilemektedir. Elverişli ve sağlıklıgörme koşullarının sağlanması uygun ve elverişli aydınlatma araçlarının ve standartlarının kullanılması ilegerçekleştirilebilir. Spor tesislerinin aydınlatmasında Türkiye’de EN 12193 Işık ve Aydınlatma-Spor Aydınlatmasıstandartları kullanılmaktadır. Bu standartlar sporcular, hakemler, seyirciler ve TV iletimi için uygun görselkoşulları sağlamayı amaçlamaktadır. Çalışmada, spor tesislerindeki aydınlatma ve EN 12193 aydınlatmastandartları ile ilgili temel bilgiler verilmiştir. Ayrıca çalışmada sürdürülebilir ve ekonomik aydınlatma araçlarıolan LED’lerin spor tesislerindeki kullanımlarından bahsedilmiştir.

High Energy Efficient and LED Lighting Vehicles in Lighting of Sports Halls

Lighting of sports fields is a special category of lighting application. Different lighting levels are needed depending on the game type and level. In order to meet the visual needs of athletes and spectators, a high amount of energy is consumed in halls. For this reason, economic and sustainable methods are needed in the lighting of sports fields. In addition, providing suitable and healthy vision conditions in sports fields affects athletes both physiologically and psychologically. Providing favorable and healthy vision conditions can be achieved by using appropriate and favorable lighting tools and standards. In Turkey in the lighting sports fields EN 12193 Light and Lighting-Sports Lighting standards are used. These standards aimed to the provision of appropriate visual conditions for athletes, referees, spectators and TV transmission. In this study, basic information about lighting in sports fields and EN 12193 lighting standards are given. In addition, the use of LEDs, which are sustainable and economical lighting tools, in sports halls is also mentioned.

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[1] Prins R.G., Mohnen S.M., van Lenthe F.J., Brug J., Oenema A. 2012. Are Neighbourhood Social Capital and Availability of Sports Facilities Related to Sports Participation Among Dutch Adolescents? International Journal of Behavioral Nutrition and Physical Activity, 9 (1): 90.
[2] Fried G., Kastel M. 2020. Managing Sport Facilities. Human Kinetics Publishers, USA.
[3] Harger K., Humphreys B.R., Ross A. 2016. Do New Sports Facilities Attract New Businesses? Journal of Sports Economics, 17 (5): 483-500.
[4] Kozma G., Penzes J., Molnar E. 2016. Spatial Development of Sports Facilities in Hungarian Cities of County Rank. Bulletin of Geography Socio Economic Series, 31: 37-44.
[5] Milica I., Miomir V., Dragan K., Vuk M., Nikola C. 2014. Sports Facilities Sustainable Design. In Engineering: Integration of Science and Practice, Proceedings of the International Scientific Conference, 26-28 November, Moscow, Russia, pp: 96.
[6] Salis J.P., Suresh A., Shailesh K.R. 2019. Lighting Design of An Indoor Sports Facility-A Case Study. Second International Conference on Advanced Computational and Communication Paradigms (ICACCP), 25-28 February, India, pp: 1-5.
[7] Georgiou M., Polycarpou A. 2014. Comparison of HPS and LED Technology for Street Lighting Applications. 9th International Conference on Deregulated Electricity Market Issues in SouthEastern Europe (DEMSEE), 25-26 September, Cyprus, pp: 25-26.
[8] Parsons K.C. 2000. Environmental Ergonomics: A Review of Principles, Methods and Models. Applied Ergonomics, 31 (6): 581-594.
[9] Amorim R., Molina-Moreno V., Peña-García A. 2016. Proposal for Sustainable Dynamic Lighting in Sport Facilities to Decrease Violence Among Spectators. Sustainability, 8 (12): 1298.
[10] Tanaka T., Mukai K., Yamauchi M., Kochi M., Ikeda A., Kuzuhara H., Matsushita K., Hironobu G. 2015. A Study on Glare in A Sports Lighting Environment Using Led Lighting and Diffusion Plates. Journal Electrotechnica and Electronica, 50 (5-6): 30-35.
[11] Kayakuş M., Üncü İ.S. 2018. The Visual Display of Illuminance in Indoor Sport Halls with the Developed Software. International Conference on Multidisciplinary Sciences (ICOMUS), 15-16 December, İstanbul, pp: 731-737.
[12] Fantozzi F., Leccese F., Salvadori G., Rocca M., Garofalo M. 2016. LED Lighting for Indoor Sports Facilities: Can Its Use Be Considered as Sustainable Solution from a Techno-Economic Standpoint? Sustainability, 8 (7): 618.
[13] Wan Norshafizan W.M., Mohamad Y.M., Norfishah W., Noor Hafizah A.A., Rosmalini A.K. 2010. Energy Efficient Lighting System Design for Building. International Conference on Intelligent Systems, Modelling and Simulation, 27-29 January, Liverpool, England, pp: 282-286.
[14] Williams A.M., Janelle C.M., Davids K. 2004. Constraints on the Search for Visual Information in Sport. International Journal of Sport and Exercise Psychology, 2 (3): 301-318.
[15] Tähkämö L., Partonen T., Pesonen A.K. 2019. Systematic Review of Light Exposure Impact on Human Circadian Rhythm. Chronobiology International, 36 (2): 151-170.
[16] Selvi Y., Özdemir P.G., Özdemir O., Aydın A., Beşiroğlu L. 2010. Sağlık Çalışanlarında Vardiyalı Çalışma Sisteminin Sebep Olduğu Genel Ruhsal Belirtiler ve Yaşam Kalitesi Üzerine Etkisi. Düşünen Adam Psikiyatri ve Nörolojik Bilimler Dergisi, 23 (4): 238-243.
[17] Shanahan T.L., Czeisler C.A. 2000. Physiological Effects of Light on the Human Circadian Pacemaker. Seminars in Perinatology, 24 (4): 299-320.
[18] Vandewalle G., Schwartz S., Grandjean D., Wuillaume C., Balteau E., Degueldre C., Maquet P. 2010. Spectral Quality of Light Modulates Emotional Brain Responses in Humans. Proceedings of the National Academy of Sciences, 107 (45): 19549-19554.
[19] Chellappa S.L., Steiner R., Blattner P., Oelhafen P., Götz T., Cajochen C. 2011. Non-Visual Effects of Light on Melatonin, Alertness and Cognitive Performance: Can Blue-Enriched Light Keep Us Alert? Plos One, 6 (1): e16429.
[20] Lee H. 2019. Effects of Light-Emitting Diode (LED) Lighting Color on Human Emotion, Behavior, and Spatial Impression. Michigan State University, ABD.
[21] Stafford A., Alexander K., Fry D. 2013. Playing Through Pain: Children and Young People's Experiences of Physical Aggression and Violence in Sport. Child Abuse Review, 22 (4): 287- 299.
[22] Kimble N.B., Russo S.A., Bergman B.G., Galindo V.H. 2010. Revealing an Empirical Understanding of Aggression and Violent Behavior in Athletics. Aggression and Violent Behavior, 15 (6): 446-462.
[23] Suresh A., Salis J.P., Shailesh K.R. 2019. Lighting Optimization to Save Energy in an Indoor Sports Facility. https://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=8883019. (Erişim Tarihi: 18.06.2020).
[24] Fantozzi F., Leccese F., Salvadori G., Rocca M., Capranelli I. 2016. Opportunities for Energy Savings with Interventions on the Lighting Systems of Historical Buildings. 16th IEEE International Conference on Environment and Electrical Engineering, 6-8 June, Florence, Italy, pp: 1076-1081.
[25] Abas N., Khan N. 2015. Review of Fossil Fuels and Future Energy Technologies. Journal of Policy, Planning and Futures Studies, 69: 31-49.
[26] Gana C.K., Sapar A.F., Mun Y.C., Chong, K.E. 2013. Techno-Economic Analysis of LED Lighting: A Case Study in Utem's Faculty Building. Procedia Engineering, 53: 208-216.
[27] Polycarpou A., Yiannou I., Christofides N. 2016. Comparison of MH and LED Performance for Sport Lighting Application. Mediterranean Conference on Power Generation, Transmission, Distribution and Energy Conversion (MedPower 2016), 6-9 November, Belgrade, Serbia, pp: 21.
[28] Nakamura S. 2015. Nobel Lecture: Background Story of the Invention of Efficient Blue Ingan Light Emitting Diodes. Reviews of Modern Physics, 87 (4): 1139.
[29] Valentim A.A., Ferreira H.S., Coletto M.A. 2010. Led Lamps: Impact on Consumption and Power Factor. Revista Ciências do Ambiente On-Line, 6 (1): 29-33.
[30] Houser K.W., Royer M.P., Mistrick R.G. 2010. Light Loss Factors for Sports Lighting. Leukos, 6 (3): 183-201.
[31] Yavuz C., Yanıkoğlu E., Güler O. 2010. Determination of Real Energy Saving Potential of Daylight Responsive Systems: A Case Study from Turkey. Light and Engineering, 18 (2): 99- 105.
[32] Artuso P., Santiangeli A. 2008. Energy Solutions for Sports Facilities. International Journal of Hydrogen Energy, 33 (12): 3182-3187.
[33] Beusker E., Stoy C., Pollalis S.N. 2012. Estimation Model and Benchmarks for Heating Energy Consumption of Schools and Sport Facilities in Germany. Building and Environment, 49: 324- 335.
[34] Boussabaine A.H. 2001. A Comparative Approach for Modelling the Cost of Energy in Sport Facilities. Facilities, 19: 194-203.
[35] Houser K.W., Wei M., Royer M.P. 2011. Illuminance Uniformity of Outdoor Sports Lighting. Leukos, 7 (4): 221-235.
[36] European Committee for Standardization 2007. EN 12193: Light and Lighting, Sports Lighting. https://shop.bsigroup.com/en/ProductDetail/?pid=000000000030164245. (Erişim Tarihi: 18.06.2020).
[37] Boyce P., Raynham P. 2009. The SLL Lighting Handbook. Chartered Institution of Building Services Engineers, London.
[38] Sheard R. 2014. Sports Architecture. Taylor & Francis, London.
[39] Di Pede M., Leccese F., Salvadori G., Di Ciolo E., Piccini S. 2017. On the Vertical Illuminance in Indoor Sport Facilities: Innovative Measurement Procedure to Verify International Standard Requirements in Fencing Halls. IEEE International Conference on Environment and Electrical Engineering and IEEE Industrial and Commercial Power Systems Europe, 6-9 June, Milan, Italy, pp: 1-6.
[40] Fabio B., Chiara B., Ornella L.R., Laura B., Simonetta F. 2015. Non Visual Effects of Light: An Overview and an Italian Experience. Energy Procedia, 78: 723-728.
[41] Ferlazzo F., Piccardi L., Burattini C., Barbalace M., Giannini A.M., Bisegna F. 2014. Effects of New Light Sources on Task Switching and Mental Rotation Performance. Journal of Environmental Psychology, 39: 92-100.
[42] Leccese F., Salvadori G., Casini M., Bertozzi M. 2012. Lighting of Indoor Work Places: Risk Assessment Procedure. WIT Transactions on Information and Communication Technologies, 44: 89-101.