Improving Indoor Thermal Comfort on a Slant-Roofed Building with Layered Materials

 
 
 
  • Abstract
  • Keywords
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  • Abstract


    Indonesia is geographically located along the equator with climatic characteristics of rainfall, relatively high humidity and sunlight intensity. Under these climatic conditions, we should consider to design suitable building with optimized thermal comfort. The room temperature—as the main variable for such comfort—is mainly caused by the heat from sunlight retained by the roof that in turn warm up the air underneath. The hot air must be removed to achieve comfortable room temperature. Using building mockups, this experiment researchs the effect of rooftop-covering materials layered as a good insulator against heat. The method used is to compare between the sloping roof building models using clay tile rooftop as reference models and building models using a slanted roof and a combination of layered aluminum foil and coir fiber rooftop. The application of layered roofing materials (aluminum foil and coir fiber) proved to be more effective in improving indoor comfort compared with a tile roof material commonly used in buildings in Indonesia..

     

     


  • Keywords


    indoor thermal comfort, slant-roofed, layered material, coir fiber, bioarchitecture

  • References


      [1] Karyono, T. (2001). Green Architecture: Pengantar Pemahaman Arsitektur Hijau Di Indonesia. Rajawali Press Jakarta

      [2] Rury. N. (‎2015). Pengaruh Material dan Bentuk Atap Rumah Tinggal Terhadap Suhu Di Dalam Ruang. Agora. Jurnal Arsitektur, Volume 15, Nomor 1

      [3] Snyder, James C. (1989). Pengantar arsitektur. Jakarta: Erlangga.

      [4] Suriadi, (2011). Analisis Pengaruh Penambahan Serat Coir fiber Aren Terhadap Sifat Mekanik Dan Sifat Fisis Gipsum Profil Dengan Perekat Lateks Akrilik Thesis. Program Pascasarjana Fakultas Matematika Dan Ilmu Pengetahuan Alam Universitas Sumatera Utara.

      [5] Olgyay, V. (1973) Design with climate, 4th edition. New Jersey Princeton: University Press


 

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Article ID: 26679
 
DOI: 10.14419/ijet.v8i1.9.26679




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