Aidi Huo | Water Conservation | Best Researcher Award

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Mr. Aidi Huo | Water Conservation | Best Researcher Award

Professor at Chang’an University, China

Dr. Aidi Huo is a Professor of Hydrology and Water Resources at Chang’an University, China. With a distinguished academic and research career, he specializes in hydrology, remote sensing, and ecological modeling. Dr. Huo has made impactful contributions to watershed modeling, groundwater-surface water interaction, and flood risk assessment. He has collaborated internationally, including as a visiting scholar at the University of Nebraska-Lincoln. An active member of the Sustainable Water and Environment Management Research Group (SWEM), he has published extensively in high-impact journals and plays a key role in advancing sustainable water management and environmental protection strategies. 🌍📚🔬

Publication Profile📚

Google Scholar

Academic Background🎓

Dr. Aidi Huo earned his Ph.D. in Environmental Science from Northwest A&F University (2008), with a thesis on aeolian desertification monitoring using MODIS data. He obtained his Master’s degree in Remote Sensing and GIS from Shaanxi Normal University in 2005, and his Bachelor’s degree in Soil and Water Conservation from Northwest A&F University in 1996. His interdisciplinary academic background bridges environment, technology, and hydrological sciences, equipping him with strong capabilities in applying geospatial technologies to environmental and water resource issues. 📘🛰️🌱

Professional Experience💼

Dr. Huo currently serves as Professor at the School of Water and Environment, Chang’an University (2018–present). Previously, he was Associate Professor (2011–2018) and Lecturer (2008–2011) in the Hydrology and Water Resources Department. He was also a visiting scholar at the University of Nebraska-Lincoln (2014–2015), where he focused on watershed hydrological modeling. Throughout his career, Dr. Huo has led numerous national and international projects related to hydrology, ecological modeling, and remote sensing applications. His extensive academic service and mentorship have significantly contributed to the advancement of water resource sciences in China and beyond. 🏫🌐📈

Awards and Honors🏅

Dr. Aidi Huo is a recognized member of the Sustainable Water and Environment Management Research Group (SWEM), actively collaborating on interdisciplinary environmental projects. While specific individual awards are not listed, his prolific publication record in top-tier journals and involvement in national research initiatives reflect his academic excellence and leadership. His roles in collaborative projects and editorial contributions further underscore his respected status within the hydrology and environmental science communities. 🏆🔗🌎

Research Focus🔍

Dr. Huo’s research spans hydrology, remote sensing, and environmental modeling. His core interests include river-groundwater interactions, watershed hydrological modeling, groundwater numerical simulation, and remote sensing for ecological assessments. He focuses on arid and semi-arid regions, addressing flood risks, water utilization, and habitat quality under climate change. His interdisciplinary approach combines GIS, remote sensing, and numerical models to develop sustainable solutions for water and ecosystem management. His work bridges theory and practice, providing scientific insights that inform policymaking and regional planning. 💧📊🌳

Publication Top Notes🔗

📘 Urban flood numerical simulation: Research, methods and future perspectives
📅 Year: 2022 | 📊 Cited by: 171

🌧️ Impact of temporal rainfall patterns on flash floods in Hue City, Vietnam
📅 Year: 2021 | 📊 Cited by: 117

⚠️ Heavy metals in water and surface sediments of the Fenghe River Basin, China: Assessment and source analysis
📅 Year: 2021 | 📊 Cited by: 107

🏙️ A bibliometric analysis of the research on Sponge City: Current situation and future development direction
📅 Year: 2021 | 📊 Cited by: 88

Conclusion

Professor Aidi Huo is an accomplished scholar and leading expert in hydrology, water resources, remote sensing, and environmental modeling, with a distinguished academic background including a Ph.D. in remote sensing and desertification monitoring. Currently a full professor at Chang’an University, he has demonstrated a consistent and impactful research trajectory, with over 40 high-quality publications in top-tier journals from 2019 to 2024. His work integrates advanced technologies such as AI, remote sensing, and hydrological modeling to address pressing environmental issues like flood risk, soil erosion, and ecosystem evolution. His international collaborations, applied research contributions, and innovative methodologies make him a highly deserving candidate for the Best Researcher Award.

 

Sobhan Abedi | Sustainable Building | Best Researcher Award

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Mr. Sobhan Abedi | Sustainable Building | Best Researcher Award

Researcher at Air Pollution Research Center, Iran University of Medical Sciences, Tehran, Iran

Sobhan Abedi is a dedicated Occupational Health and Safety (OHS) engineer at the Air Pollution Research Center, Iran University of Medical Sciences. With a strong academic and research foundation, he has contributed to projects involving air pollution modeling, indoor air quality, artificial intelligence, and biofiltration technologies. He is skilled in scientific writing, laboratory analysis, and Python programming. Sobhan is known for his interdisciplinary approach, combining engineering, environmental science, and data analytics to address complex challenges in public health and pollution control. His enthusiasm, collaborative mindset, and technical expertise position him as a rising expert in OHS and environmental health.

Publication Profile

Google Scholar

Orcid

Academic Background

Sobhan Abedi graduated from SAMPAD (Darab) with a diploma and pre-university degree in applied sciences. He earned his BSc in Occupational Health and Safety from Shiraz University of Medical Sciences (GPA: 16) and completed his MSc in the same field at Iran University of Medical Sciences with distinction (GPA: 18.5). His academic journey reflects a consistent focus on health engineering, environmental protection, and scientific excellence. Alongside formal education, he pursued practical and technical certifications, strengthening his competencies in air quality monitoring, data analysis, and applied research in health and environmental systems.

Professional Experience

Sobhan Abedi currently works as a Research Assistant and Air Pollution Lab Officer at Iran University of Medical Sciences. Since 2021, he has led and contributed to national and international projects involving indoor air quality, green wall systems, VOCs, and particulate matter. His professional background includes hands-on sampling, pollutant modeling, CFD simulations, and AI applications in exposure assessment. He has also served as a principal investigator, co-investigator, and project manager across research and innovation initiatives. With published work in high-impact journals, Sobhan’s expertise merges environmental engineering, health sciences, and technology-driven research.

Awards and Honors

Sobhan Abedi has received recognition for his contributions to environmental health innovation, particularly in air pollution control technologies. His patented design of a modular active green wall for phytoremediation stands out among his achievements. He was also a key contributor to several ethics-approved national projects supported by academic and governmental institutions. Throughout his academic and research career, Sobhan earned accolades for scientific writing, technological innovation, and project leadership. His active participation in high-impact publications and collaborations with top researchers reflects his ongoing commitment to academic and professional excellence.

Research Focus

Sobhan Abedi’s research centers on air pollution modeling, indoor air quality, biofiltration systems, and occupational exposure assessment. He applies AI and data science to improve predictive models and risk assessment in public health. His innovative work with botanical biofilters, green infrastructure, and CFD-based simulations seeks to enhance pollutant control in urban and industrial environments. He is particularly interested in formaldehyde exposure, BTEX compounds, and airborne particulates. Sobhan also investigates environmental impacts on cognitive health and integrates multidisciplinary tools—including Python, ANSYS, and lab analytics—to drive data-informed environmental health solutions.

Publication Top Notes

Conclusion

Sobhan Abedi is an outstanding early-career researcher in the field of Environmental and Occupational Health Engineering, with a strong track record of high-impact publications in leading Elsevier journals such as Building and Environment and Journal of Building Engineering. His innovative contributions—including patented technologies like modular botanical biofilters and green wall systems—demonstrate a blend of scientific rigor and practical impact. He has led or co-executed over 10 interdisciplinary research projects addressing critical issues like air pollution, COVID-19, and neurotoxicity. Proficient in advanced tools such as Python, ANSYS, KNIME, and SPSS, and actively collaborating with top-tier academic mentors, Abedi exemplifies a rare combination of technical depth, research innovation, and collaborative leadership—making him a highly deserving candidate for a Best Researcher Award.

 

Zhi Li | Green Technology | Best Researcher Award

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Mr. Zhi Li | Green Technology | Best Researcher Award

Mr. Zhi Li at ShanDong Energy Group CO.,LTD., China

Zhi Li is a senior engineer at the National Engineering Research Center of Coal Gasification and Coal-Based Advanced Materials, ShanDong Energy Group Co., Ltd. With deep expertise in energy engineering and advanced materials, he has significantly contributed to national research initiatives in China. His work bridges innovative research with industrial applications, particularly in coal gasification and clean energy technologies. Zhi Li is known for his dedication to developing sustainable and efficient energy solutions. His strong academic and professional background, paired with his involvement in major R&D programs, positions him as a key figure in the field of energy innovation.

Publication Profile

Orcid

Academic Background

Zhi Li holds a Doctorate from Xi’an Jiaotong University, a prestigious institution renowned for engineering and technology research in China. During his doctoral studies, he focused on advanced chemical and energy systems, acquiring a deep understanding of industrial processes and sustainable technologies. He earned his Master’s degree from Qingdao University of Science and Technology, where he built a solid foundation in chemical engineering. His academic training has equipped him with both theoretical knowledge and practical research skills, enabling him to tackle complex challenges in energy conversion and material innovation. His education has laid the groundwork for a successful research career.

Professional Background

Zhi Li currently serves as a senior engineer at the National Engineering Research Center of Coal Gasification and Coal-Based Advanced Materials under ShanDong Energy Group Co., Ltd. In this role, he leads and contributes to key national projects, including the National Key R&D Program of China. His professional journey includes extensive work in industrial research, system optimization, and clean energy development. Zhi Li’s experience spans a wide range of energy technologies, with hands-on involvement in pilot plants, process design, and performance evaluation. His engineering expertise and practical contributions make him a vital asset in energy sector innovation.

Awards and Honors

While specific awards and honors are not listed, Zhi Li’s role in major national programs like the National Key R&D Program of China highlights his recognized value in the scientific community. His senior engineering position and leadership at a national research center are in themselves acknowledgments of his expertise. It is likely that he has received commendations or internal accolades from institutional and industrial stakeholders for his contributions to energy research and development. His consistent involvement in high-impact research projects demonstrates the trust and recognition he has earned from both academic and professional peers.

Research Focus

Zhi Li’s research focuses on advanced and sustainable energy systems, particularly in the areas of Low Pressure OXO, Coal Gasification, Solid Oxide Fuel Cells (SOFC), and Solid Oxide Electrolysis Cells (SOEC). His work aims to improve the efficiency, safety, and environmental performance of industrial chemical and energy conversion processes. By integrating theoretical modeling with experimental validation, he contributes to both fundamental understanding and technological advancement. His focus on clean and renewable energy technologies aligns with global energy transition goals. Zhi Li’s innovative research supports China’s drive toward carbon neutrality and sustainable industrial development.

Publication Top Notes

📄 Stearic Acid Induced Hydrophobization of Pt/Al₂O₃ Catalysts to Boost the Stability of Preferential Oxidation of CO in Hydrogen
 Year: 2024

📄 A new pathway to integrate novel coal-to-methanol system with solid oxide fuel cell and electrolysis cell
 Year: 2024

📄 Enhancing the cycling stability of MgH₂ using nitrogen modified titanate
 Year: 2023

Conclusion

Based on his exceptional academic background, professional role, and impactful research, Zhi Li is a highly suitable candidate for the Best Researcher Award, especially in fields emphasizing applied industrial innovation. With a PhD from Xi’an Jiaotong University and a Master’s from Qingdao University of Science and Technology, he possesses a robust technical foundation. As a Senior Engineer at the National Engineering Research Center under ShanDong Energy Group CO., LTD., he plays a pivotal role in national-level R&D, notably contributing to China’s Key R&D Program. His research in coal gasification, Low Pressure OXO, and SOFC/SOEC technologies aligns with critical national and global energy goals, showcasing both scientific excellence and real-world impact.