Prof. Shou-Heng LiuTaiwan
Department of Environmental Engineering, National Cheng Kung University, Tainan City 70101, Taiwan
| 2023 to present | | Distinguished Professor, Department of Environmental Engineering, National Cheng Kung University |
| 2020 - 2023 | | Professor, Department of Environmental Engineering, National Cheng Kung University |
| 2004 - 2008 | | Postdoctoral Researcher, Institute of Atomic and Molecular Sciences, Academia Sinica |
| 2001 - 2003 | | Visiting Researcher, Lawrence Berkeley National Laboratory, California, U.S.A. |
| 2018 | | Outstanding Professor Award, ASE Cultural & Educational Foundation |
| 2018 | | Outstanding Research Award, College of Engineering, NCKU, Taiwan |
| 2015 | | Ta-You Wu Memorial Award of Ministry of Science and Technology of Taiwan |
Sustainable resources and clean energy, CO2 capture and utilization, Environmental catalysis
Prof Liu received his Ph.D in Environmental Engineering from the National Cheng Kung University of Taiwan in 2004. He was a visiting research at Lawrence Berkeley National Laboratory, California, U.S.A. He is currently a Professor in the Department of Environmental Engineering at the National Cheng Kung University. His research focuses on clean energy and carbon-negative solutions to achieve sustainable environments. He has published over 120 SCI journal papers and 6 book chapters. He is recorded in the top 2% Scientists in the World (2020-2024) released by Stanford University. He also serves as Associate Editors and Editorial Board Members in different journals.
Resource circulation for Clean Energy and CO2 Neutrality Applications
TBA TBA
Circular Economy, Resource Circulation, and Carbon Reduciton/TBA
This talk examines the fundamental concepts of carbon neutrality and sustainable development within the broader context of global climate action. It begins by outlining the energy resource circulation and low-carbon technologies that contribute to carbon neutrality. Key approaches include waste-to-energy systems and emerging hydrogen-based energy circulation models, which aim to enhance resource efficiency and reduce dependence on fossil fuels. Finally, the talk explores carbon resource utilization and negative emission technologies. It analyzes the development of carbon capture, utilization, and storage (CCUS), the conversion of CO₂ into fuels, chemicals, and construction materials, and evaluates the potential and limitations of negative carbon technologies. Through an integrated perspective, this presentation underscores the importance of technological innovation and systemic transformation in achieving sustainable, long-term decarbonization.