Meng Duan | Engineering and Technology | Best Researcher Award

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Dr. Meng Duan | Engineering and Technology | Best Researcher Award

Engineer, Water Resources Research Institute of Inner Mongolia Autonomous Region, China

Meng Duan is a dedicated engineer and researcher in the field of agricultural water resource management, currently working at the Water Resources Research Institute of Inner Mongolia Autonomous Region. He earned his Ph.D. in Water Conservancy Engineering from China Agricultural University and has since made significant contributions to the study of evapotranspiration, water-carbon flux, and crop growth modeling. His research efforts have directly influenced water-saving irrigation strategies and sustainable agriculture in arid regions of China. With funding from the National Natural Science Foundation of China (NSFC) and collaborations with top institutions, Duan’s work bridges scientific innovation and field application. He has published widely in SCI-indexed journals, authored a highly regarded monograph, and holds a national patent related to crop canopy structure modeling. Recognized as an NSFC Excellent Young Scholar, Meng Duan continues to advance integrated water and agricultural solutions for regional and national impact.

Profile

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Education

Meng Duan received his doctoral degree (Ph.D.) in Water Conservancy Engineering from China Agricultural University, one of China’s premier agricultural and environmental research institutions. His doctoral studies focused on integrated water resource management and crop modeling, particularly in arid and semi-arid regions. During his academic journey, he conducted extensive research in the Heihe River Basin—a critical area for understanding water transformation and oasis agriculture. His thesis emphasized multi-process coupling mechanisms within soil-plant-atmosphere systems. He complemented his formal education with practical research experiences in national labs and collaborated with experts from the National Key Laboratory of Watershed Water Cycle Simulation. His strong academic foundation laid the groundwork for his future roles in applied water resource engineering, interdisciplinary modeling, and sustainable irrigation systems. With robust training in both theoretical frameworks and computational modeling techniques, Duan emerged from his education well-prepared to tackle complex hydrological and agricultural challenges.

Professional Experience 

Meng Duan currently serves as an Engineer at the Water Resources Research Institute of Inner Mongolia Autonomous Region. In this capacity, he has designed and implemented advanced models for evapotranspiration estimation, crop growth behavior, and water-carbon flux quantification. His professional track record includes leadership in several prestigious national-level research projects funded by the NSFC and the National Key Laboratory. Between 2015 and 2025, Duan contributed to over six major multi-year research programs, including work on scalable evapotranspiration models and the development of efficient irrigation systems tailored to China’s arid agricultural zones. Beyond research, he has played a crucial role in policy consultation for water use regulation and agronomic strategy optimization in Inner Mongolia. His technical contributions span data simulation, system integration, and predictive analytics for agricultural productivity. Through collaboration with cross-disciplinary teams and institutions, Duan has gained a reputation as a practical and visionary water resource engineer.

Research Focus 

Meng Duan’s research is centered on sustainable agricultural water management in arid and semi-arid regions. He specializes in evapotranspiration modeling, water-carbon flux analysis, and crop growth simulation. His work bridges the theoretical and practical realms by developing tools and methods that improve irrigation efficiency and crop productivity. A major focus of his research is understanding the dynamic interactions between soil, mulch, plant, and atmospheric systems, especially under water-stressed conditions. He has developed innovative models to link canopy structure with radiation efficiency, significantly boosting maize yields and optimizing water use. With NSFC-funded support, Duan’s research has resulted in tangible irrigation strategies that reduce water usage by up to 25% in Inner Mongolia. He continues to explore how remote sensing, environmental physics, and data-driven modeling can synergize to support food security and ecological resilience in vulnerable agricultural zones.

Publication Top Notes

  1. Meng Duan, Baozhong Zhang. (2025).
    Title: Modeling the Impact of Canopy Structure on Crop Water Use Efficiency in Arid Zones
    Journal: Agronomy
    Indexing: SCI, IF = 3.7, CAS II
    Summary: This study explores how variations in canopy structure affect evapotranspiration and crop yield, providing a model for improving irrigation practices in drylands.

Conclusion:

 Meng Duan stands out as a highly competent and impactful early-career researcher, especially in the specialized field of agricultural water resources engineering. His research contributes significantly to sustainable water   management, food security, and agro-ecological modeling in arid regions of China.

Alia Al-Ghosoun | Engineering and Technology | Best Researcher Award

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Dr Alia Al-Ghosoun | Engineering and Technology | Best Researcher Award

Assistant professor, Philadephia University, Jordan

Dr. Alia Radwan Al-Ghosoun is an Assistant Professor in the Mechatronics Engineering Department at Philadelphia University, Jordan. With a deep passion for advanced engineering research, she holds a DPhil in Engineering from Durham University, UK, where her work focused on shallow water dynamics and adaptive control methods for hydrodynamic systems. Dr. Al-Ghosoun’s research spans fluid mechanics, computational modeling, and the application of artificial intelligence in engineering problems. She has worked as a post-doctoral researcher at Durham University and has held multiple academic positions at the University of Jordan, where she contributed to the development of energy-efficient systems and intelligent control techniques. Dr. Al-Ghosoun’s commitment to advancing knowledge in hydrodynamics and environmental modeling has resulted in impactful publications and contributions to numerical simulation and uncertainty quantification. She is passionate about improving the practical application of engineering solutions for environmental challenges.

Profile

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Strengths for the Award

  1. Advanced Academic Background:
    • Dr. Al-Ghosoun holds a Doctor of Philosophy in Engineering from Durham University, UK, where her research focused on shallow water flow dynamics and adaptive control techniques to improve the accuracy of these systems. This is a highly specialized field with significant implications in environmental modeling, water systems, and engineering, marking her as an expert in computational engineering and fluid dynamics.
    • Her post-doctoral research at Durham University further solidifies her expertise, particularly in understanding and quantifying uncertainty in numerical modeling of hydrodynamics, which is crucial for predicting real-world environmental phenomena.
  2. Impactful and Diverse Research Contributions:
    • Dr. Al-Ghosoun has published several peer-reviewed papers in high-impact journals such as Environmental Modelling and Software, Communications in Computational Physics, and International Journal of Computational Methods. These works cover areas such as uncertainty quantification, morphodynamics, and numerical simulation of shallow water flows and hydrosediment processes.
    • Her conference papers and book chapters demonstrate a commitment to advancing computational methods in hydrodynamics and environmental modeling, particularly addressing the challenges of bed topography deformation, fluid-structure interactions, and stress analysis in hydro-sediment systems.
  3. Interdisciplinary Research:
    • Dr. Al-Ghosoun’s research stands at the intersection of mechatronics, engineering, and environmental sciences, with a focus on adaptive control techniques and artificial intelligence. This interdisciplinary approach is essential in addressing complex real-world problems related to fluid dynamics and energy systems.
    • The integration of AI techniques (such as genetic algorithms) in energy consumption optimization and shallow water flow models highlights her innovative approach to solving large-scale engineering problems.
  4. Global Collaboration and Recognition:
    • With international experience as a Post-Doctoral Researcher at Durham University and several collaborative research efforts with Jordanian and UK-based academic institutions, Dr. Al-Ghosoun has developed a robust international network. Her involvement in global research platforms, such as ResearchGate, attests to her active engagement in the academic community and dissemination of her work.
  5. Teaching and Mentoring Experience:
    • Dr. Al-Ghosoun has demonstrated a strong commitment to education as an Assistant Professor at Philadelphia University, where she contributes to the development of young engineers in Mechatronics Engineering. Her role as a Teaching Assistant and Research Assistant at various institutions indicates her foundational experience in nurturing future engineers and scientists.
  6. Recognition of Research Excellence:
    • Dr. Al-Ghosoun’s papers, particularly her works on uncertainty quantification and modeling techniques for shallow water systems, have gained traction in the academic community. For instance, her work published in Environmental Modelling and Software (2021) has already accumulated 10 citations, signaling its importance in the field.

Areas for Improvement

  1. Broader Citation Impact:
    • While Dr. Al-Ghosoun’s work is highly specialized and impactful, the citation counts for some of her research papers remain low (e.g., her paper on stress analysis has 0 citations). Increasing visibility in wider journals and collaborating with researchers in complementary fields could enhance the reach and impact of her publications.
  2. Increased Public Engagement:
    • Engaging in public outreach or community-based projects that demonstrate the application of her research (e.g., how adaptive control methods improve water management or energy efficiency in real-world scenarios) could enhance the broader social impact of her work.
  3. Further Collaborative Interdisciplinary Projects:
    • Although her work spans several fields, further involvement in cross-disciplinary projects—especially those integrating sustainable engineering and climate resilience—could increase the relevance of her research to pressing global challenges, like climate change adaptation and sustainable resource management.

Education

Dr. Alia Radwan Al-Ghosoun earned her Doctor of Philosophy (DPhil) in Engineering from Durham University, UK in January 2021. Her doctoral research focused on understanding the effects of bathymetric movement on shallow water flows and their interaction with the seabed, leading to the development of adaptive control methods for improved accuracy in hydrodynamic simulations. Prior to this, she completed a Post-Doctorate at Durham University in 2022, where she explored the application of uncertainty quantification in complex engineering models. Dr. Al-Ghosoun holds a Master’s Degree in Mechanical Engineering from the University of Jordan, where she developed AI-based predictive models for fuel consumption in Jordan and optimized energy efficiency through genetic algorithms. She also earned her Bachelor’s degree in Mechatronics Engineering from the University of Jordan. Dr. Al-Ghosoun’s academic background equips her with interdisciplinary expertise in engineering and environmental science.

Experience

Dr. Alia Radwan Al-Ghosoun is currently an Assistant Professor at Philadelphia University in the Mechatronics Engineering Department since October 2022, where she teaches and conducts research in engineering systems and adaptive control techniques. Prior to this, she was a Post-Doctoral Researcher at Durham University, UK (2021-2022), focusing on uncertainty quantification in shallow water systems. Dr. Al-Ghosoun completed her DPhil at Durham University (2016-2021), where her research involved modeling shallow water flows and the interaction of bed topography. She has also held roles as a Research Assistant at the University of Jordan’s Water, Energy, and Environment Center (2012-2016) and the King Abdullah Design and Development Bureau (KADDB) (2012). Earlier in her career, she worked as a Teaching Assistant in both Mechatronics and Mechanical Engineering departments at the University of Jordan. Dr. Al-Ghosoun’s interdisciplinary experience blends academia with applied engineering solutions.

Awards and Honors

Dr. Alia Radwan Al-Ghosoun has been recognized for her research excellence and commitment to advancing knowledge in hydrodynamics and adaptive control systems. Her academic achievements are highlighted by her work at Durham University, where she earned a prestigious Doctoral Fellowship for her research on shallow water dynamics and bed interaction. She has also received recognition for her post-doctoral research contributions in uncertainty quantification and numerical simulations. Dr. Al-Ghosoun’s work has been presented at major academic conferences, and she has contributed to a variety of high-impact journal publications. In addition to her research accomplishments, she has been awarded teaching grants to support her role as an educator at Philadelphia University, where she mentors the next generation of Mechatronics engineers. Her consistent efforts to bridge the gap between theoretical research and practical engineering applications have earned her widespread recognition within her academic and professional communities.

Research Focus

Dr. Alia Radwan Al-Ghosoun specializes in hydrodynamic modeling, shallow water flows, and the application of adaptive control systems to improve the accuracy of complex environmental simulations. Her research interests focus on uncertainty quantification and the development of computational models for the numerical simulation of fluid dynamics, particularly in the context of stochastic bed topography and morphodynamics. She has worked extensively on shallow water waves, bathymetric effects, and water-bed interaction. One of her core research goals is to enhance the predictive accuracy of models used for environmental management and engineering systems by incorporating artificial intelligence techniques, such as genetic algorithms and surrogate models. Dr. Al-Ghosoun is passionate about integrating AI-based solutions into environmental and energy systems to address challenges like resource optimization, pollution reduction, and sustainable energy. Her work in hydro-sediment-morphodynamics provides valuable insights into climate change adaptation and water resource management.

Publication Top Notes

  1. Uncertainty quantification for stochastic morphodynamics 🌊🧑‍🔬, AIP Conference Proceedings, 2024.
  2. A Novel Computational Approach for Wind-Driven Flows over Deformable Topography 💨🌍, Lecture Notes in Computer Science, 2024.
  3. A Nonintrusive Reduced-Order Model for Uncertainty Quantification in Numerical Solution of One-Dimensional Free-Surface Water Flows Over Stochastic Beds 📊💧, International Journal of Computational Methods, 2022.
  4. Efficient Computational Algorithm for Stress Analysis in Hydro-Sediment-Morphodynamic Models 💻⚙️, Lecture Notes in Computer Science, 2022.
  5. A surrogate model for efficient quantification of uncertainties in multilayer shallow water flows 🌊🔬, Environmental Modelling and Software, 2021.
  6. A computational model for simulation of shallow water waves by elastic deformations in the topography 🌊⚡, Communications in Computational Physics, 2021.
  7. Uncertainty Quantification of Bathymetric Effects in a Two-Layer Shallow Water Model: Case of the Gibraltar Strait 🏝️🌊, Springer Water, 2020.
  8. A hybrid finite volume/finite element method for shallow water waves by static deformation on seabeds 🌊🧮, Engineering Computations, 2020.
  9. A new numerical treatment of moving wet/dry fronts in dam-break flows 💧🚨, Journal of Applied Mathematics and Computing, 2019.

Conclusion

Dr. Alia Radwan Al-Ghosoun is an exceptional candidate for the Best Researcher Award. Her contributions to the fields of hydrodynamics, uncertainty quantification, and adaptive control systems are not only advancing the understanding of complex environmental processes but are also pioneering new computational techniques that can improve the accuracy and efficiency of engineering systems. Her ability to merge artificial intelligence with environmental modeling positions her as a leader in the field. Her ongoing efforts in teaching, mentoring, and global academic collaborations further highlight her potential to shape the future of engineering and environmental sciences. With a few strategic steps to broaden her citation impact and public visibility, Dr. Al-Ghosoun could solidify her place as a thought leader in her field.

Azadeh Dogani | Technology | Best Researcher Award

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Dr. Azadeh Dogani | Technology | Best Researcher Award

 

Dr Azadeh Dogani, Ferdowsi university of Mashhad, Iran

Azadeh Dogani is a passionate researcher specializing in Water Resources and Resilience 🌊. With a Ph.D. in Agricultural Economics from Ferdowsi University of Mashhad 🎓, she focuses on modeling systems dynamics and multi-objective programming. As Vice Chairman at Radzist Toos Waste Management Co. and Vice-president at Futuristic Modern City Technical and Engineering Consulting Company, she excels in marketing research and feasibility studies 📊. Azadeh’s research contributions, published in prestigious journals like Processes and Water Resources Management, demonstrate her expertise in systems modeling and optimization algorithms 📈. Skilled in Vensim, SPSS, GAMS, Stata, and R, she is committed to advancing sustainable practices in water management 💧.

Publication Profile

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Education

Azadeh Dogani holds a Ph.D. in Agricultural Economics 🌾 from Ferdowsi University of Mashhad, Iran, graduating in 2023. Her doctoral thesis focused on modeling the resilience of Mashhad Plain to the reduction of underground water resources using System Dynamic and Multi-Objective Programming 📊. She completed her M.Sc. in Agricultural Economics at Azad University of Marvdasht in 2011, investigating factors influencing investment in agriculture 🌱. Azadeh began her academic journey with a B.Sc. in Agricultural Economics from Azad University of Mashhad in 2008, laying the foundation for her expertise in agricultural economics and sustainability practices 🎓.

Experience

Since 2019, Azadeh Dogani has served as Vice Chairman of the Board at Radzist Toos Waste Management Co. 🌍 Her role involves conducting marketing research across diverse fields, preparing justification plans, and assessing feasibility for projects focused on used catalyst and carbon management. Concurrently, from 2021 to 2023, Azadeh led a research project at Khorasan Razavi Regional Water Company in Mashhad, Iran 🚰. She currently holds the position of Vice-president at Futuristic Modern City Technical and Engineering Consulting Company, beginning in 2022. Azadeh’s leadership spans environmental sustainability and technical consulting, emphasizing her commitment to innovative solutions in waste management and urban development 🏙️.

Research Focus

Azadeh Dogani’s research focuses on advancing fault warning systems in industrial settings 🛠️. Her work integrates cutting-edge algorithms like Coati Optimization and Bidirectional Long Short-Term Memory Networks (Bi-LSTM) to enhance predictive capabilities and mitigate operational risks. In collaboration with international researchers, she has contributed significantly to the development of innovative algorithms such as LightGBM for industrial fault detection, emphasizing efficiency and accuracy in complex systems 📈. Azadeh’s publications in esteemed journals underscore her expertise in optimizing algorithms for industrial applications, aiming to improve system reliability and performance amidst technological advancements and operational challenges 🌐.

Publication Top Notes