Afsoon Veshkini - M.A of Architecture and Energy, School of Architecture, College of Fine Arts, University of Tehran,Tehran, Iran,
Rima Fayaz - Associate Professor, Faculty of Architecture and Urbanism, University of Art, Tehran, Iran,

In order to improve sustainable conservation and management of energy resources in the construction industry, novel solutions should be considered. One of the most efficient energy optimization solutions can be achieved by using low carbon materials with the potential of energy storage in buildings. Straw bales as bio-based building materials with very low embodied carbon, have the potential of energy saving in most climatic regions; however, due to their low thermal inertia, overheating problems will occur in straw bale buildings during mild and warm seasons. In this paper, different bio-based Phase Change Materials (bio-PCMs) were examined to increase thermal inertia of straw buildings in various climates of Iran, and the energy consumption of the buildings were evaluated and compared. In this way, a conventional residential building was selected, and redesigned with exterior straw bale walls as the case study. Then four bio-PCM mats with ۲۱œC, ۲۳œC, ۲۵œC and ۲۹œC phase change temperature ranges were used inside and outside of the exterior envelopes separately, to increase thermal inertia of the straw bale buildings, and their energy performance in four cities representative of climate zones in Iran were simulated. The simulations were carried out using EnergyPlus software. The results showed that heating and cooling energy demand can be reduced up to ۱۳.۲۷% and ۲۲.۰۹% respectively. Applying PCM ۲۳œC outside of the exterior walls of the straw bale building in Mild-Humid climate (Rasht city) showed the best thermal performance.

thermal inertia, phase change materials, straw bale, low carbon materials, energy conservation