WeonJae Kim | Carbon Capture Utilization and Storage | Best Researcher Award

Published on by Petroleum Engineering

Prof. Dr. WeonJae Kim | Carbon Capture Utilization and Storage | Best Researcher Award

Senior Research Fellow at Korea Institute of Civil Engineering and Building Technology | China

Prof. Dr. WeonJae Kim is a distinguished environmental engineer whose pioneering research has significantly advanced sustainable water and wastewater treatment technologies. His work focuses on the regeneration and recovery of environmental resources through innovative approaches such as crystallization, mineral carbonation, and advanced oxidation processes, aiming to create practical and scalable solutions that contribute to global carbon neutrality and climate change mitigation. A key highlight of his research is the development of “water-based CCUS” technology, an original concept utilizing water to safely, permanently, and eco-friendly dispose of carbon dioxide, offering a breakthrough approach to achieving large-scale carbon reduction. Over his extensive career, Dr. Kim has authored numerous influential publications in international and domestic journals, covering subjects like nutrient recovery, greywater treatment, biogas purification, and aquatic environment enhancement. His prolific patent portfolio demonstrates his strong commitment to transforming scientific knowledge into applied innovations that enhance sustainability and industrial efficiency. Through collaborative, interdisciplinary projects, he has developed novel methods for phosphorus and nitrogen recovery, non-powered water circulation systems, and next-generation environmental purification processes. A respected academic and research leader, Prof. Dr. WeonJae Kim has presented his work at major international conferences and contributed to advancing the discourse on environmental protection and resource recovery. His excellence has been recognized with multiple national and institutional awards honoring his achievements in technological innovation, environmental research, and academic mentorship. Guided by a vision of integrating engineering principles with ecological balance, Prof. Dr. WeonJae Kim continues to drive research that safeguards water systems, reduces greenhouse gas emissions, and supports a sustainable future. His lifelong dedication to environmental technology, combined with his leadership in bridging research and practical application, has positioned him as a leading figure in global environmental science and an enduring contributor to the pursuit of cleaner and more resilient ecosystems.

Profile: Scopus

Featured Publications

Akter, J., Kim, W., Kim, I., & Lee, J. (2023). Real-time organic compound monitoring in advanced oxidation process (AOP) of anaerobic digestion effluent: Introduction of UV-VIS spectrum representative index by discrete Fourier transform.

Maghfiroh, M., Park, N., Chang, H., Lim, H., & Kim, W.* (2023). Ammonium removal and recovery from greywater using the combination of ion exchange and air stripping: The utilization of NaOH for the regeneration of natural zeolites.

Maghfiroh, M., Park, N. R., Chang, H. Y., Jung, J. H., Ahn, K. H., Lim, H. M., & Kim, W. J.* (2023). Ammonium removal and recovery using natural zeolites and air stripping technique for greywater treatment.

Ji, S.*, Kim, W., Han, S., Jeong, S., & Park, T. (2023). Stability enhancement of reformate-fueled, low-temperature solid oxide fuel cell with nickel thin-film anode by water bubbling.

Kang, J.-H., Kim, J., Namgung, H.-K., Kim, W., Yun, S.-L., & Song, J.* (2023). Effects of electric potential and organic loading on the removal of hydrogen sulfide emitted from wastewater sediments using a submerged electrochemical oxidation system.

Xiaohui Ren | Environmental Pollutant Detection | Best Researcher Award

Published on by Petroleum Engineering

Dr. Xiaohui Ren | Environmental Pollutant Detection | Best Researcher Award

Instructor at Yancheng Institute of Technology | China

Dr. Xiaohui Ren is an accomplished Instructor at the Yancheng Institute of Technology, whose career reflects a strong dedication to advancing research in environmental sciences and applied chemistry. With a solid academic foundation and long-term engagement in cutting-edge methodologies, Ren has cultivated expertise across molecular imprinting technology, surface-enhanced Raman scattering (SERS), fluorescence technology, water pollution chemistry, and computational chemistry, achieving significant outcomes in pollutant detection and environmental monitoring. In addition to teaching and academic responsibilities, Ren has actively contributed to innovative research initiatives, including the development of pulp molding products derived from waste paper fibers, showcasing both scientific rigor and a commitment to sustainable solutions. Her scholarly output has been widely recognized, with more than 10 first-author papers published in high-impact international journals such as Biosensors and Bioelectronics, Microchimica Acta, and Applied Surface Science, reflecting her ability to generate impactful knowledge in the global scientific community. Ren’s research interests lie primarily in environmental pollutant detection and the application of advanced chemical and analytical techniques to address pressing ecological and industrial challenges. Beyond research, she is also an active member of the China Textile Engineering Association, where she engages with peers to exchange knowledge and foster innovation within the field. Her work is distinguished not only by technical depth but also by its translational potential in addressing sustainability and environmental health issues, aligning scientific inquiry with practical applications. Through consistent innovation, impactful publications, and a focus on bridging fundamental science with real-world environmental needs, Dr. Xiaohui Ren continues to strengthen her role as a dynamic researcher and educator. Her ongoing contributions exemplify dedication to both scientific advancement and societal benefit, positioning her as a promising leader in her field and a deserving candidate for recognition through prestigious awards.

Profile: ORCID

Featured Publications

Ma, W., Cai, H., Xiang, Z., & Ren, X. (2024). Iron and nitrogen co-doped carbon catalysts derived from ZIF-8 towards enhanced peroxymonosulfate activation and contaminants removal: The synergistic effects of FeN and α/γ-Fe species.

Song, X., Zhang, Y., Ren, X., Tang, D., Zhang, X., & Li, X. (2024). Self-cleaning SERS sensor based on flexible Ni₃S₂/MoS₂@Ag@PDMS composites for label-free multiplex volatile organic compounds detection.

Song, X., Zhang, Y., Ren, X., Zhang, X., Tang, D., Wu, J., & Li, X. (2023). Fabrication of flexible multidimensional CC/MoS₂@Ag@PDMS hybrids as stable and self-cleaning SERS substrate for sensitive and quantitative point-of-care testing.

Guo, H., Ren, X., Song, X., & Li, X. (2023). Preparation of SiO₂@Ag@molecular imprinted polymers hybrid for sensitive and selective detection of amoxicillin using surface-enhanced Raman scattering.

Song, X., You, X., Ren, X., Zhang, X., Tang, D., & Li, X. (2023). Vertically aligned Ag-decorated MoS₂ nanosheets supported on polyvinyl alcohol flexible substrate enable high-sensitivity and self-cleaning SERS devices.

Song, X., Ren, X., Tang, D., & Li, X. (2022). Specific iodide effect on surface-enhanced Raman scattering for ultra-sensitive detection of organic contaminants in water.

Ren, X., Feng, X., Li, X., & Li, X. (2021). Preparation of silver with an ultrathin molecular imprinted layer for detection of carbendazim by SERS.