Since 2018, Taiwan has implemented regulations on particulate pollutants, sulfur oxides, and nitrogen oxides emitted by boilers. Some of the industries that used waste wood-fired boiler were unable to meet the revised standard, so they were forced to switch to other fuels or closed their business. In recent years, the amount of waste that can be processed by the local large-scale incinerators has declined because they came to the rectification period. As a result, there is supply-demand mismatch in the treatment capacity of combustible waste. It could seriously affect the treatment capacity of the waste wood and lead to environmental problems. Most recycling industries are not willing to traet low quality waste wood, which will also cause removal difficulty and lead to environmental problems. However, the principle of waste management in Taiwan has changed from pollution prevention to reduction at source, and then to resource recycling. Therefore, besides ensuring the effective treatment of waste wood, we should keep pace with the times and think about how to promote the utilization of resources. To select appropriate and effective treating methods based on the quality and quantity of waste wood, the study tries to use both literature analysis and comparative analysis methods to investigate material flow and resource recycling of waste wood. Through analyzing flow situation and collecting the literatures related to waste wood fuelization, the study moves on analyze the potential and conditions to realize fuelization on waste wood in Taiwan. Finally, the study proposes some comprehensive strategies for promoting resource utilization of waste wood. The results shows that there are 436,000 metric tons of waste wood every year in Taiwan, and their current utilization situations face problems such as insufficient recycling incentives, difficulties on reuse management, and insufficient capacity of intermediate processing institutions. Recently, the world promote sustainable concepts such as” Circular Economy”, ”Net Zero Carbon Emission”, and many countries vigorously develop the “Waste to Energy (WtE)” technology. We can start from three major strategies to build up a waste wood fuelization system in Taiwan: developing waste wood grading standards, promoting solid recovered fuel (SRF) management, and guiding those which are disadvantageous for resource recycling to be recycled.