Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Solar control devices have a significant effect on providing indoor thermal comfort by minimizing annual energy costs in hot-dry climates. Within the scope of the study, the settlement pattern Şilbe 1st Stage Mass Housing settlement located in the city of Diyarbakır, which is located in the hot dry climate zone, was discussed. Horizontal-vertical solar control devices were placed on the transparent surfaces in east-west and northeast-southwest directions, which give optimum results due to the shadow effect, by means of the DesignBuilder Simulation Programme, and the effect of annual heating and cooling energy load expenses was examined.This study aimed to examine the effect of solar control devices on energy saving in hot dry climate regions.As a result of the study, solar control devices placed in both east and west directions provided a significant decrease in annual energy costs. In addition, the types of solar control devices (horizontal or vertical) used had an impact on annual energy costs. As a result of the analysis, it was determined that horizontal solar control devices should be preferred in hot-dry climate regions. This study will be a guide for the studies carried out within the scope of energy efficient structure design of solar control devices.
Czasopismo
Rocznik
Tom
Strony
112--123
Opis fizyczny
Bibliogr. 29 poz., rys., tab.
Twórcy
autor
- Department of Architecture, Faculty of Fine Arts, Harran University, Şanlıurfa, Turkey
autor
- Department of Architecture, Faculty of Architecture, Dicle University, Diyarbakır, Turkey
Bibliografia
- 1. Akalp, S. 2018. Toplu Konutlarda Farklı Yerleşim Düzenlerinin Enerji Etkinliğinin Karşılaştırılması: Diyarbakır Şilbe Örneği, Dicle Üniversitesi, FBE, Yüksek Lisans Tezi, Diyarbakır.
- 2. Alhuwayil, W.K., Mujeebu, M.A., Algarny, A.M.M. 2019. Impact of external shading strategy on energy performance of multi-story hotel building in hot-humid climate. Energy, 169, 1166–1174.
- 3. Bellia, L., Marino, C., Minichiello, F., Pedace, A. 2014. An overview on solar shading systems for buildings. Energy Procedia, 62(20140), 309–317.
- 4. Designbuilder V5
- 5. Esabegloo, A., Haghshenas, M., Borzoui, A. 2016. Comparing the results of thermal simulation of rasoulian house in Yazd by design builder software with experimental data. Iran University of Science & Technology, 26(2), 121–130.
- 6. Görgün, A.Ö. 2019. Shading device design and optimization via genetic algorithm by using surface temperature metric and electricity load, Yaşar Üniversitesi, Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, İzmir.
- 7. Grynning, S., Gustavsen, A., Time, B., Jelle, B.P. 2013. Windows in the buildings of tomorrow: Energy losers or energy gainers? Energy and buildings 61, 185–192.
- 8. Güneli, Z. 1998. Bölge içi Zorunlu Göçten Kaynaklanan Toplumsal Sorunların Diyarbakır Kenti Ölçeğinde Araştırılması TMMOB yayını, Ankara.
- 9. Jung, D. E., Lee, C., Do, S. L. 2020. Analysis of the window glazing heat transfer of installation of an external shading device. Korean Journal of Air Conditioning and Refrigeration Engineering, 32, 278–287.
- 10. Jung, D.E., Lee, C., Lee, K.H., Shin, M., Do, S.L. 2021. Evaluation of Building Energy Performance with Optimal Control of Movable Shading Device Integrated with PV System. Energies, 14(7), 1799.
- 11. Kim, Y.S., Park, B.C., Jeong, K.Y., Choi, A.S.L.J. 2007. A comparison of daylight distribution from different height of roller shade and venetian blind. ArchitInst Korea, 24, 1001–1004.
- 12. Kim, S.H., Shin, K.J., Choi, B.E., Jo, J.H., Cho, S., Cho, Y.H. 2015. A study on the variation of heating and cooling load according to the use of horizontal shading and venetian blinds in office buildings in Korea. Energies, 8(2), 1487–1504.
- 13. Kirimtat, A., Koyunbaba, B.K., Chatzikonstantinou, I., Sariyildiz, S. 2016. Review of simulation modeling for shading devices in buildings. Renewable and Sustainable Energy Reviews, 53, 23–49.
- 14. Koç, S.G., Kalfa, S.M. 2021. The effects of shading devices on office building energy performance in mediterranean climate regions. Journal of Building Engineering, 44, 102653.
- 15. Lechner, N. 2014. Heating, cooling, lighting: Sustainable design methods for architects. John Wiley & Sons, New York.
- 16. Li, L., Darkwa, J., ve Kokogiannakis, G. 2017. Heat transfer analysis of an integrated double skin façade and phase change material blind system. Building and Environment, 125, 111–121.
- 17. Map Gallery, 2021. http://www.maphill.com/turkey/diyarbakir/location-maps/graymap/
- 18. Moussa, R.R., Moawad, D.R.M. 2020. Investigating the efficiency of building energy simulation software on architectural design process. In: Proceedings of the 9th International Conference on Software and Information Engineering, ICSIE, 37–40.
- 19. Özyılmaz, H., Karakaş, S., Karaşin, A. 2008. Diyarbakır’da Yoğun Göçün Getirdiği Çarpık Kentleşme Sorunları. Afet Sempozyumu.
- 20. Pawar, B.S., Kanade, G.N. 2018. Energy optimization of building using design builder software. International Journal of New Technology and Research (IJNTR), 4(1), 69.
- 21. Priatman, J., Soegihardjo, O., Loekita, S. 2015. Towards energy efficient facade through solar-powered shading device. Procedia-Social And Behavioral Sciences, 179, 266–275.
- 22. Turkish State Meteorological Service, accessed on 8 March 2021.
- 23. Utpariya, A., Mishra, S.A. 2018. Passive Cooling by Shading Devices in High Rise Buildings in Tropical Climate.
- 24. Valladares-Rendón, L.G., Schmid, G., Lo, S.L. 2017. Review on energy savings by solar control techniques and optimal building orientation for the strategic placement of façade shading systems. Energy and Buildings, 140, 458–479.
- 25. Yassine, F. 2013. The effect of shading devices on the energy consumption of buildings: A study on an office building in Dubai.
- 26. Zhai, Z. 2006. Application of computational fluid dynamics in building design: aspects and trends, Indoor and Built Environment, 4(15), 305–313.
- 27. Zhang, L. 2014. Simulation analysis of built environment based on design builder software. In Applied Mechanics and Materials. Trans Tech Publications Ltd, 580, 3134–3137.
- 28. http://gunesenerjisi.uzerine.com/index.jsp?objid=705, accessed on 10 January 2020)
- 29. http://www.yegm.gov.tr/MyCalculator/, accessed on 25 February 2020.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b4896e09-95d8-49e4-834c-3560e86fc210