Shaohua Wu | Water and Wastewater Treatment | Research Excellence Award

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Assoc. Prof. Dr. Shaohua Wu | Water and Wastewater Treatment | Research Excellence Award

Associate Professor | Guangdong University of Petrochemical Technology | China

Shaohua Wu is an Associate Professor at Guangdong University of Petrochemical Technology, China, specializing in environmental science and engineering with a focus on wastewater treatment and advanced oxidation processes. He serves as a Master’s Supervisor, Deputy Director of an engineering research center for organic pollution control, and holds academic leadership roles advancing interdisciplinary environmental research. His research addresses sustainable water treatment technologies, environmental functional materials, and pollution risk assessment, with influential publications in leading journals including Nature, Science of the Total Environment, Environmental Pollution, and Ecological Indicators. He has led multiple competitive research projects, contributed to national technical standards, authored an academic monograph, and holds invention patents. His professional recognition includes major provincial and national science awards, editorial and peer-review service for high-impact journals, and active engagement in international scientific communities. His research impact includes 6,205 citations, 71 publications, and an h-index of 43.

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Koorosh Goudarzi | Water Resources Engineering | Best Researcher Award

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Assoc. Prof. Dr. Koorosh Goudarzi | Water Resources Engineering | Best Researcher Award

Mechanical Engineering at Yasouj University, Iran

Kourosh Goudarzi is currently serving as an Associate Professor in the Department of Mechanical Engineering at Yasouj University. He has cultivated a distinguished academic and research career focused on mechanical engineering, particularly in the areas of energy conversion and heat transfer systems. His teaching and research efforts have significantly contributed to advancements in thermal energy utilization and computational fluid dynamics. Through his numerous publications and active involvement in educational development, he has established himself as a respected figure in Iran’s engineering academia.

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EDUCATION:

Dr. Goudarzi holds a Bachelor’s degree in Mechanical Engineering with a focus on Heat and Fluids from Persian Gulf University, awarded in 2001. His undergraduate project explored the aerodynamics of vehicles and their effect on fuel consumption. He earned his Master’s degree in 2003 in Mechanical Engineering with a specialization in Energy Conversion from Iran University of Science and Technology, where he worked on numerical simulations of flow in spark-ignition internal combustion engines. In 2008, he completed his Ph.D. in Mechanical Engineering at the same university, with a dissertation centered on experimental and analytical studies of contact heat transfer in internal combustion engines.

EXPERIENCE:

Dr. Goudarzi has extensive teaching experience across various institutions, including Iran University of Science and Technology, Arak University of Technology, and Yasouj University. He has taught a wide range of undergraduate and graduate courses such as Applied Thermodynamics, Heat Transfer, Internal Combustion Engines, Turbo-machinery, Thermal Systems, and Computational Fluid Dynamics. Beyond classroom teaching, he has actively supervised over 120 undergraduate projects, more than 35 master’s theses, and has contributed as an advisor and co-advisor on doctoral dissertations. He has also conducted numerous workshops on software tools and energy management for academic and industrial audiences.

RESEARCH INTERESTS:

Dr. Goudarzi’s research is rooted in thermal sciences, with primary interests in thermal energy systems, heat transfer (including thermal radiation), and energy efficiency in industrial systems. He has a strong focus on the recovery of waste heat and optimization of energy consumption, reflecting both theoretical and applied approaches. His recent work also delves into computational fluid dynamics (CFD) and its application to energy systems and internal combustion engine performance. Additionally, he has contributed to solar thermal energy research, especially in enhancing the efficiency of heat transfer in evacuated tube collectors using magnetic nanofluids.

AWARDS:

Dr. Goudarzi’s achievements have garnered institutional recognition, particularly for his role in supervising award-winning theses and advancing energy-related research projects. He was nominated for institutional honors at Yasouj University for excellence in research and mentoring, as well as for his contributions to the field of thermal energy systems. His academic service and impactful scientific work have placed him in nomination for the Award Nomination Application Form under the category of “Best Researcher in Mechanical Engineering.”

PUBLICATIONS:

Dr. Goudarzi has authored and co-authored several peer-reviewed journal articles that reflect his expertise in energy and thermal sciences. Notable recent publications include:

  1. “Potential of condensate as a water source from air conditioning systems: A thermodynamic analysis,” published in the Journal of Applied Research in Water and Wastewater (JARWW), 2024 — cited by 5 articles.

  2. “Numerical investigation of the performance improvement of instantaneous gas water heater by introducing new geometries for the heat exchanger,” in the Journal of Building Engineering, Volume 89, 2024 — cited by 7 articles.

  3. “Experimental analysis of contact heat transfer in IC engines using different cylinder materials,” Journal of Mechanical Science and Technology, 2022 — cited by 11 articles.

  4. “CFD simulation of radiative heat transfer in solar thermal systems,” Applied Thermal Engineering, 2021 — cited by 14 articles.

  5. “Energy optimization of industrial systems through waste heat recovery,” Energy Reports, 2020 — cited by 10 articles.

  6. “Use of magnetic nanofluids in thermal collectors: a case study,” Renewable Energy, 2019 — cited by 9 articles.

  7. “Thermal radiation modeling in high-temperature gas heaters,” Heat and Mass Transfer, 2018 — cited by 13 articles.

CONCLUSION:

Dr. Kourosh Goudarzi embodies the ideal candidate for the Best Researcher Award, demonstrating a robust academic foundation, diverse teaching portfolio, extensive research contributions, and dedicated service to scientific advancement. His work in energy systems optimization and applied thermodynamics significantly contributes to both academic knowledge and practical industry solutions, validating his suitability for this prestigious recognition.

 

Lanfeng Li | Industrial Wastewater Treatment | Best Researcher Award

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Dr. lanfeng Li | Industrial Wastewater Treatment | Best Researcher Award

PhD student, School of Environment Studies, China University of Geosciences (Wuhan), China

Li Lanfeng, born in October 1994, is a doctoral candidate specializing in industrial wastewater treatment and resource recovery technologies. His research focuses on the degradation of dissolved organic matter, recovery of valuable components in industrial wastewater, and the resource utilization of municipal sludge. Li has been involved in significant research projects, such as the recovery and purification of hazardous waste liquids in the integrated circuit industry and the sustainable use of lithium-rich ores. He has published over 20 papers, including 16 SCI papers, and holds more than 10 patents. His work has contributed to the application of critical technologies in industries like photovoltaic and agriculture. Li’s academic background includes a PhD in Environmental Science and Engineering from China University of Geosciences (Wuhan). He has received numerous awards and honors, further solidifying his impact in the environmental engineering field.

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Education

Li Lanfeng completed his undergraduate studies in Hydrology and Water Resources Engineering at Changjiang University in 2017. He pursued a Master’s degree in Environmental Engineering at China University of Geosciences (Wuhan) from 2017 to 2020. During his master’s, Li focused on water pollution control and resource recovery. He is currently a PhD candidate in Environmental Science and Engineering at the same university, where his research primarily concentrates on industrial wastewater treatment, organic matter degradation mechanisms, and resource recovery technologies. His academic journey reflects his deep commitment to advancing environmental sustainability, with a particular focus on addressing complex industrial wastewater challenges. His education, combined with practical experience in large-scale engineering projects, has equipped him with the skills necessary to drive innovation and contribute significantly to global environmental solutions.

Experience

Li Lanfeng has gained extensive research experience through his involvement in numerous significant projects. He actively contributes to the National Key R&D Program focusing on hazardous waste liquid recovery and purification technologies in the integrated circuit industry. Additionally, he participates in the Chinese Academy of Sciences’ strategic technology initiatives, such as the resource utilization of lithium ores. His expertise extends to key areas, including the recovery of fluoride from industrial wastewater and sludge dewatering for municipal waste management. Notably, Li’s contributions to the development and application of fluoride wastewater recovery technologies have successfully been implemented in Zhejiang’s photovoltaic industry, leading to the completion of two 10,000-ton projects. He is also part of collaborative efforts to improve agricultural sustainability through low-carbon livestock farming and integrated agricultural ecosystems in the middle Yangtze River region. His contributions to both research and practical application continue to shape the future of environmental engineering.

Awards and Honors

Li Lanfeng’s academic excellence and innovation have been recognized with numerous prestigious awards. In 2023, he was awarded the Hubei Provincial Science and Technology Progress Award (Second Prize) as a key contributor to his research. He was also honored with the China Education Ministry’s National Graduate Scholarship in 2019, recognizing his outstanding achievements during his graduate studies. In addition, he received the “Outstanding Master’s Thesis” award from the China University of Geosciences (Wuhan) in 2020. Li’s dedication to his academic work is further demonstrated by his receipt of the university’s prestigious Doctoral Academic First-Class Scholarship for the 2022-2024 period. These awards highlight Li’s commitment to advancing environmental science and engineering, particularly in the areas of wastewater treatment, resource recovery, and sustainability.

Research Focus

Li Lanfeng’s research primarily focuses on industrial wastewater treatment, resource recovery, and sludge utilization. His work delves into the mechanisms of organic matter degradation during wastewater treatment processes, with an emphasis on industrial wastewater containing valuable components. One of his key areas of research is the recovery of fluoride from wastewater in industries such as photovoltaic manufacturing, where he has successfully developed and applied resource recovery technologies. Li is also dedicated to the utilization of municipal sludge, focusing on its dewatering, conditioning, and conversion into valuable by-products. His research extends to sustainable agricultural development, particularly in low-carbon farming practices in the middle Yangtze River region. Through his multidisciplinary approach, Li seeks to advance environmental sustainability while developing practical solutions to the pressing challenges of industrial pollution and resource management.

Publication Top Notes

  1. Lanfeng Li, Niannian Sun, Siwei Peng, et al. (2024). Molecular insights into the degradation of organic matter from secondary swine wastewater effluent: A comparative study of advanced oxidation processes. Chemical Engineering Journal, 500: 156761.
  2. Lanfeng Li, Jing Ai, Hang He, et al. (2024). Molecular-level insights into the transformation and degradation pathways of dissolved organic matter during full-scale swine wastewater treatment. Science of the Total Environment, 909, 168604.
  3. Lanfeng Li, Jing Ai, Weijun Zhang, et al. (2020). Relationship between the physicochemical properties of sludge-based carbons and the adsorption capacity of dissolved organic matter in advanced wastewater treatment: effects of chemical conditioning. Chemosphere, 243, 125333.
  4. Lanfeng Li, XingminFu, Jing Ai, et al. (2019). Process parameters study and organic evolution of old landfill leachate treatment using photo-Fenton-like systems: Cu2+ vs Fe2+ as catalysts. Separation and Purification Technology, 211, 972-982.
  5. Peng Su, Lanfeng Li*, Hao Zhou, et al. (2024). Environmental and economic sustainability of the novel photovoltaic industrial wastewater treatment systems from life cycle perspective. Environmental Research, in revision.