China University of Geosciences, China.
Prof. Huirong Guo is a distinguished scholar and researcher in hydrogeology and environmental sciences. With expertise in hydrology, water resources, and geofluids, she has significantly contributed to the understanding of fluid dynamics and solubility under varying pressure and temperature conditions. Dr. Guo’s research is instrumental in addressing challenges in environmental management and resource sustainability.
Profile
Scopus
🎓 Education
Huirong Guo’s academic journey showcases a strong foundation in hydrogeology and water resources. She earned her Bachelor of Engineering (1991.9–1995.7) in Hydrogeology and Engineering Geology from the prestigious China University of Geosciences (Wuhan). Building on this, she pursued a Master of Engineering (1997.9–2000.7) and later a Doctorate (2003.9–2008.6) in Hydrology and Water Resources at the same institution, solidifying her expertise in the field.
🌍 Huirong also enriched her knowledge through international exposure as a Visiting Scholar at the University of California, Riverside (2007.1–2007.7), where she collaborated with experts on hydrological studies. Later, she further enhanced her research skills during her tenure at the United States Geological Survey (2010.11–2011.11). These global experiences significantly contributed to her proficiency in addressing complex hydrological challenges.
🏢 Work Experience
Geologist (1995.9–1997.8):
Huirong Guo began her career at the Hydrogeological Environmental Geological Survey Center, where she gained hands-on experience in geological research and environmental surveying. This role honed her practical skills in hydrogeology and laid a solid foundation for her academic and professional journey.
🎓 Faculty Member, China University of Geosciences (2000.7–Present):
Since 2000, Huirong has been a dedicated faculty member at the China University of Geosciences, contributing to both the School of Engineering and the School of Environment. Over the years, she has played a pivotal role in teaching, mentoring students, and advancing research in hydrology and environmental sciences, making significant contributions to the university's academic excellence.
🔬 Research Interests
🌍 Hydrogeology and Environmental Geology
Huirong Guo specializes in understanding groundwater systems, geological formations, and their interaction with the environment, focusing on sustainable management of water resources.
💧 High-Pressure Fluid Dynamics and Solubility
Her expertise includes studying the behavior of fluids under extreme pressures, particularly their solubility and phase changes, crucial for understanding subsurface processes.
🔬 Advanced Raman Spectroscopy Techniques
Huirong has extensively applied Raman spectroscopy to measure and analyze fluid properties with high precision, enhancing the accuracy of hydrological and geological models.
🌱 CO₂ Sequestration and Remediation Technologies
Her research in CO₂ capture and storage focuses on innovative methods for mitigating greenhouse gas emissions and developing effective remediation strategies for environmental pollutants.
♻️ Environmental Management and Sustainability
Huirong’s work emphasizes the integration of scientific research into practical solutions for environmental challenges, promoting sustainable development and ecological preservation.
🏆 Awards & Recognitions
Recognized for contributions to hydrology and environmental sciences.
Published in top journals like Journal of Hydrology, Industrial & Engineering Chemistry Research, and Fluid Phase Equilibria.
📚 Publications Top Notes
Enhanced mass transfer of residual NAPL by convection in stagnant zone (Journal of Hydrology, 2023). Link
Influence of distribution characteristics of residual DNAPL on mass transfer in porous media under ethanol co-solvent flushing (Journal of Hydrology, 2022). Link
Optimum concentration of fly ash nanoparticles to stabilize CO₂ foams for aquifer and soil remediation (Journal of Contaminant Hydrology, 2021). Link
Solubility of SO₂ in Water from 263.15 to 393.15 K and from 10 to 300 bar (Industrial & Engineering Chemistry Research, 2020). Link
Density and volumetric properties of binary mixtures of CO₂ + Hexadecane (Journal of Chemical & Engineering Data, 2019). Link