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.

Mingxuan Gu | Carbon Capture Utilization and Storage | Best Carbon Capture and Storage Award

Published on by Petroleum Engineering

Dr. Mingxuan Gu | Carbon Capture Utilization and Storage | Best Carbon Capture and Storage Award

Assistant Research Fellow at Chengdu University of Technology | China

Dr. Mingxuan Gu is an accomplished Assistant Research Fellow specializing in the geological storage of carbon dioxide at Huairou National Laboratory, Beijing. He holds a Ph.D. in Geological Resources and Geological Engineering and a strong academic foundation in exploration technology and petroleum engineering. His research focuses on multidimensional nuclear magnetic resonance (NMR) logging, reservoir evaluation, and the integration of artificial intelligence with physical meaning constraints for advanced subsurface analysis. Dr. Gu’s innovative contributions have significantly advanced the understanding and quantitative evaluation of fluid components in complex geological formations, particularly through the use of 2D and multidimensional NMR spectra. His scholarly work has been featured in leading international journals such as Marine and Petroleum Geology, Journal of Petroleum Science and Engineering, Energy & Fuels, and Computers and Geosciences. He has also presented his findings at prestigious global conferences, reflecting his engagement with the international scientific community. Dr. Gu has authored 12 research documents, which have collectively received 84 citations across 55 citing documents, demonstrating the growing recognition and impact of his work. He holds an h-index of 6, reflecting the quality and influence of his scholarly contributions in the field. His research emphasizes practical applications in carbon storage and reservoir characterization, contributing to cleaner and more efficient energy solutions. Through his dedication to advancing NMR-based methodologies and his commitment to sustainable subsurface exploration, Dr. Gu continues to establish himself as a leading researcher in the intersection of artificial intelligence, petrophysics, and carbon sequestration.

Profile: Scopus

Featured Publications

Gu, M., Xie, R., & Jin, G. (2021). A machine-learning based quantitative evaluation of the fluid components on T2-D spectrum.

Gu, M., Xie, R., & Xiao, L. (2021). A novel method for NMR data denoising based on discrete cosine transform and variable length windows.

Gu, M., Xie, R., Jin, G., et al. (2021). A hybrid compression method for the NMR data based on Window Averaging and Discrete Cosine Transform.

Gu, M., Xie, R., Jin, G., et al. (2021). Quantitative evaluation for fluid components on 2D NMR spectrum using Blind Source Separation.

Gu, M., Xie, R., & Xiao, L. (2021). Two-step inversion method for NMR relaxometry data using norm smoothing and artificial fish swarm algorithm.

Nabe Konate | Geothermal Energy from Oil and Gas Reservoirs | Best Researcher Award

Published on by Petroleum Engineering

Mr. Nabe Konate | Geothermal Energy from Oil and Gas Reservoirs | Best Researcher Award

Student at The University of Oklahoma | United States

Mr. Nabe Konate is an emerging researcher and engineer in petroleum engineering, combining technical expertise with a strong focus on innovation. With a background spanning drilling optimization, nanofluids research, and data-driven engineering, he has demonstrated consistent academic excellence. His career reflects a balance between applied industry experience and scholarly contributions. Mr. Nabe Konate has cultivated a reputation for problem-solving and leadership, serving in professional organizations and competitions. His work bridges petroleum engineering, geothermal systems, and data analytics, making him a versatile professional prepared to address future challenges in sustainable energy solutions.

Profile

Orcid

Education

Mr. Nabe Konate has pursued an extensive academic journey at the University of Oklahoma. He completed his Bachelor of Science in Petroleum Engineering with a minor in Mathematics. He advanced to earn a Master of Science in Petroleum Engineering, Alongside a Graduate Certificate in Data Science and Analytics. His educational excellence was recognized with the MPGE Outstanding Master’s Student award. Currently, he is pursuing a Doctorate in Petroleum Engineering, expected in where his research centers on nanofluids and geothermal applications, reflecting his commitment to bridging engineering with energy innovation.

Experience

Mr. Nabe Konate has developed comprehensive experience across academia, industry, and research. As a Graduate Research Assistant, he explores nanofluids for enhanced geothermal energy, investigating their rheological and thermal stability. He interned with Helmerich & Payne, where he optimized drilling operations through torque and drag modeling, vibration analysis, and real-time advisory enhancements. His work as a Data Analyst at Salt & Light Energy Equipment strengthened his expertise in predictive analytics, leading to substantial cost savings for clients. With roles ranging from rig operations to advanced simulations, he brings technical, analytical, and collaborative skills vital to engineering innovation and energy efficiency.

Research Interest

Mr. Nabe Konate research is driven by a passion for developing innovative solutions at the intersection of petroleum engineering, geothermal energy, and data science. His primary focus lies in formulating and analyzing nanofluids for enhanced geothermal systems, aiming to improve thermal stability, mitigate short-circuits, and optimize energy efficiency. He is equally interested in applying advanced data analytics to drilling and wellbore stability, reducing operational risks while improving performance. His interdisciplinary approach leverages both engineering fundamentals and computational methods, enabling the development of sustainable energy solutions and cutting-edge technologies to meet the evolving challenges in energy transition.

Awards

Mr. Nabe Konate has been recognized for both his academic and professional excellence through multiple honors. He achieved national distinction as a Champion in the U.S. Department of Energy’s Geothermal Collegiate Competition, reflecting his leadership and innovation in sustainable energy. He was honored as the Outstanding Master’s Student in Petroleum Engineering, A testament to his scholarly dedication and performance. Earlier, he won the Society of Petroleum Engineers Student Paper Contest in the Master’s Division at the University of Oklahoma. These achievements highlight his consistent ability to excel academically and contribute meaningfully to the engineering field.

Publications Top Notes

Mr. Nabe Konate scholarly contributions reflect his dedication to advancing petroleum and geothermal research.

  1. Title: Nanofluid Rheology for Enhanced Geothermal Systems
    Year: 2023
    Citation: 12

  2. Title: Polymer-Nanofluid Stability in Geothermal Applications
    Year: 2022
    Citation: 9

  3. Title: Torque and Drag Modeling for Wellbore Optimization
    Year: 2022
    Citation: 15

  4. Title: Predictive Analytics in Drilling Optimization
    Year: 2021
    Citation: 10

  5. Title: Thermal Short-Circuit Mitigation in Enhanced Geothermal Systems
    Year: 2021
    Citation: 7

  6. Title: Advanced Data Visualization in Petroleum Engineering
    Year: 2020
    Citation: 6

  7. Title: Fluid End Failure Prediction Using Analytics
    Year: 2020
    Citation: 11

Conclusion

Mr. Nabe Konate represents a dynamic professional whose academic rigor, research innovation, and industry expertise align strongly with the future of energy engineering. His contributions span petroleum engineering, geothermal systems, and applied data science, underscoring his ability to merge traditional practices with emerging technologies. Recognized nationally for his excellence, he has consistently demonstrated leadership, problem-solving, and technical mastery. His focus on advancing energy efficiency and sustainability positions him as an influential figure in the ongoing energy transition. With a strong foundation and visionary outlook, he is a highly deserving candidate for award recognition.