1995 DEPREMİ SONRASI DİNAR’DA KURULMUŞ OLAN AFET KONUTLARININ TS 825 BİNALARDA ISI YALITIM KURALLARI’NA UYGUNLUĞU AÇISINDAN İNCELENMESİ

Year 2010, Volume: 2 Issue: 2, 50 - 59, 01.06.2010

Neşe Dikmen

Abstract

Türkiye’de enerji tüketiminin büyük bir kısmı sanayi ve konutlarda gerçekleşmektedir. Konutlarda tüketilen enerjinin ise %27’si ısıtma amaçlı kullanılmaktadır. Bu çalışmada Dinar’ın köylerinde inşa edilmiş olan afet konutu projesi TS 825 Binalarda Isı Yalıtım Kuralları’na uygunluğu açısından incelenmiştir. İzoder TS 825 hesap programı kullanılarak yapılan bu araştırmada öncelikle projenin mevcut durumunun TS 825 standardına uygunluğu incelenmiş, daha sonra proje 3 farklı aşamada standarda uygun hale getirilmiştir. Sonuç olarak çatıda kullanılmış olan cam yünü 0,05 m.’den 0,12 m.’ye çıkarılmış; duvarlarda 0,08 m. expande polistren köpük ve toprağa outran döşemede 0,07 m. ekstrüde polistren köpük kullanılmıştır. Bu durumda binanın yıllık ısıtma enerjisinde (Q) 296,68 kWh/m², yapı elemanlarından iletim yoluyla gerçekleşen ısı kaybında (HT) 247,8 W/K ve birim hacim veya birim alan başına tüketilecek yakıt miktarında 4.137,08 kg. tasarruf sağlanmıştır.

Keywords

TS 825 Binalarda Isı Yalıtım Kuralları, Isı Yalıtımı, Izoder TS 825, Afet Konutları

AN EVALUATION OF THE POST-DISASTER HOUSES BUILT IN DINAR AFTER THE 1995 EARTHQUAKE IN TERMS OF THEIR CONFORMITY WITH THE TURKISH THERMAL INSULATION STANDARD (TS 825)

Abstract

Residential and industrial buildings in Turkey consume a great amount of energy, with 27% of the energy consumed in housing being for the purpose of heating. In this study, the post-disaster housing project conducted in villages of Dinar is examined in terms of its conformity with the Thermal Insulation Regulations contained within the TS 825 Thermal Insulation Standard in Buildings. The research is carried out using the Izoder TS 825 calculating programme, through which the current conformity of the project to the Thermal Insulation Standard in Buildings has been examined. As a result, the project has been updated to meet the standard in three separate steps: The glass wool ceiling insulation has been increased from 0.05 m to 0.12 m; 0.08 m expanded polystyrene foam has been used on the walls; and 0.07 m thick extruded polystyrene foam has been used on the “slab-on-grade” foundation. The saving in the annual heating energy requirement for the building (Q) was found to be 296.68 kWh/m², with dissipation occurring through the conductivity of the construction elements (HT) by 247.8 W/K; and the amount of fuel required per unit volume or unit area decreasing by 4,137.08 kg.

Keywords

Turkish Thermal Insulation Standard (TS 825), Thermal Insulation, Izoder TS 825, Post-Disaster Houses

References

• Association of Thermal Insulation, Waterproofing, Sound Insulation and Fireproofing Material Producers, Suppliers and Applicators, http://www.izoder.org.tr (accessed, March 2009).
• Yılmaz, Z. Turkey and Energy. Compilations upon Policies, Capacity, Production and Expenditures, available at http://anapod.anadolu.edu.tr/groups/mim423acabuk/wiki/welcome/attachments/52e35/ info_articles12.pdf (accessed, March 2009).
• Kılıç, A., Geçgel Solmaz, Ö. and Yılmaz, T. (2009). Energy Efficiency in Buildings and the Efficiency Concept of İgdaş, in: Proceedings of the 1st International Energy Efficiency Forum, pp. 14–19, İstanbul.
• Şişman, N. (2005). Determination of the optimum insulation thickness to the exterior walls of a building in different degree day regions, using an economical analysis method when different insulation and wall structure materials are used. The Graduate School of Natural and Applied Sciences of Osmangazi University, Master’s Thesis, 120 p., Eskişehir.
• Koçlar Oral, G. (2007). Energy Efficiency and Thermal Insulating for Healthy Buildings, in: Proceedings of the VIII National Sanitary Engineering Congress, pp. 253–263, İzmir.
• Koçlar Oral, G. (2006) Thermal Insulating and Energy Efficiency in Buildings, in: Proceedings of the 25th Energy Efficiency Conference, pp. 172-181, Ankara.
• Koçu, N. and Korkmaz, Z. (2003). Assessment of Thermal Insulating Applications in Buildings around Konya according to TS 825 (Thermal Insulation Standard), and its effects on environment pollution. Plant Engineering Journal, volume 74.
• Şenkal Sezer, F. (2005). The Development of Thermal Insulation In Turkey and External Wall Thermal Insulating Systems Used in Houses. Uludag University Engineering- Architecture Faculty Journal, 10 (2), pp. 79-85.
• “Official gazette”, volume 27019, 9 October 2008, available at http://www.rega.com.tr (accessed, March 2009).
• TS 825 Thermal Insulation Standard in Buildings (2008). 11. İzocam Production Catalogue. 12. Turkish Standards Institute, http://www.tse.org.tr (accessed March 2009).