earticle

영어

Recent climate change has led to an increase in the frequency of large-scale wildfires, causing extensive damage and generating substantial quantities of wildfire-damaged wood. While there is growing interest in the efficient utilization of this wood, the majority is currently used as fuel for power generation, a process that shortens its lifecycle and accelerates carbon emissions. In response to this issue, alternative high-value applications for wildfire-damaged wood have been suggested, including the cultivation of medicinal mushrooms, the creation of handicrafts, and its use as timber for wooden structures. However, these approaches typically only employ the non-charred portions of the wood, with the charred sections being removed and discarded. Therefore, this study aims to evaluate the fundamental properties of the charred portions of wildfire-damaged wood and provide foundational data for the development of functional materials from these components.