GUILHERME MARQUES | Environmental Science | Best Researcher Award

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Prof. Guilherme Marques | Environmental Science | Best Researcher Award

Professor | Federal University of Rio Grande do Sul | Brazil

Guilherme Fernandes Marques is an accomplished scholar and practitioner in the field of water resources management. He currently serves as an Associate Professor at the Instituto de Pesquisas Hidráulicas (IPH), Universidade Federal do Rio Grande do Sul (UFRGS), Brazil, With a career spanning over two decades, he has established himself as a leading expert in hydro-economics, water governance, climate adaptation, and integrated water resources planning. Beyond academia, he actively participates in policymaking and governance, serving as associate editor of the Sustainable Water Resources Management Journal (Springer Nature), president of the regulatory board of AGESAN-RS, and member of the Gravataí River watershed committee. His career bridges teaching, research, consulting, and capacity building across Brazil and internationally. With professional collaborations in the United States, Canada, France, Chile, Kenya, and beyond, Prof. Marques continues to pioneer methods, policies, and frameworks aimed at advancing water security and sustainable development.

Professional Profile

Scopus

ORCID

Education

Prof. Marques holds a Ph.D. in Civil and Environmental Engineering from the University of California, Davis, where his research focused on the economic representation of agricultural activities in water resources systems engineering, funded by a CNPq fellowship. He also earned an M.Sc. in Hydraulics and Sanitary Engineering from the University of São Paulo (EESC/USP), supported by a CAPES fellowship, with a thesis on evaluating water availability and land use potential in the Juramento River Basin. His foundational academic training was completed at the Federal University of Minas Gerais (UFMG), where he obtained his B.Sc. in Civil Engineering. Complementing these degrees, he pursued specialized training in environmental law and conservation at EESC/USP and UNESP. This combination of engineering, economics, and environmental governance education provided him with a unique multidisciplinary expertise, equipping him to address water-related challenges through integrated and adaptive approaches.

Experience

Prof. Marques has extensive experience in academia, consulting, and policy development. At UFRGS/IPH, he teaches undergraduate and graduate courses on water management, systems analysis, and water economics while leading the Water Planning Research Group (WARP). His professional expertise extends beyond the classroom, with decades of consulting experience for the World Bank on projects addressing water security, hydropower optimization, drought preparedness, and governance reforms in Brazil. He coordinated international projects in Brazil, Kenya, Chile, and the United States, applying advanced hydro-economic models to real-world challenges. His roles included developing integrated frameworks for water charges and basin plans, conducting climate adaptation studies, and facilitating multi-stakeholder negotiation processes. Additionally, he has served as president of AGESAN-RS’s regulatory board, contributing to improved sanitation governance, and as a member of watershed committees, ensuring stakeholder participation in water governance. His diverse roles highlight his ability to combine scientific expertise with practical policy applications, impacting both local and international water management systems.

Research Interests

Prof. Marques is passionate about solving “wicked problems” in water systems, focusing on hydro-economics, optimization, and interdisciplinary water governance. His research interests include water economics, valuation of environmental assets, conjunctive use of surface and groundwater, hydropower optimization, reservoir operations, and environmental flows. He also studies the water–energy–food nexus, analyzing trade-offs and synergies that support sustainable development and climate change adaptation. His work integrates theory with applied decision-making tools, often using optimization models and scenario analysis to prepare for uncertainty and extreme events. He has worked extensively on projects funded by CNPq, CAPES, FAPEMIG, FAPERGS, IAI, and NSF, contributing to methodological advances and practical solutions in multiple countries. Through his leadership at the WARP research group, he has built interdisciplinary collaborations that bridge academia, public agencies, and international organizations, generating insights that influence both scientific research and governance practices in water resources and climate resilience.

Awards & Recognitions

Throughout his career, Prof. Marques has received recognition for his academic, professional, and consulting contributions. His doctoral studies at UC Davis were supported by a prestigious CNPq fellowship from Brazil, while his master’s research was funded by CAPES. He has successfully led and secured competitive funding from Brazilian and international agencies, including CNPq, CAPES, FAPEMIG, FAPERGS, the Inter-American Institute for Global Change Research (IAI), and the U.S. National Science Foundation (NSF). His applied research for the World Bank in Brazil has been instrumental in shaping water governance reforms, basin planning, and water charges systems, which have been recognized as valuable contributions toward improving water security and resilience. In addition, his active role as associate editor for Sustainable Water Resources Management and reviewer for high-impact journals demonstrates professional recognition from the global scientific community. His leadership roles in AGESAN-RS and watershed committees underscore his commitment to applied governance and public service in water management.

Publications

Prof. Marques has published extensively in high-impact journals, contributing to the advancement of water governance, hydro-economics, and environmental sustainability. Selected recent publications include:

Nhampossa, J.A.; Marques, G.F.; et al. Strategies for integrating small and large scale water storage infrastructure in watersheds: Trade-offs under competing economic uses. Journal of Water Resources Planning and Management.
Cited by 32 articles.

Dalcin, A.P.; Marques, G.F.; et al. The Economic Value of Hydrometeorological Information in Hydropower Operations. Journal of Water Resources Planning and Management.
Cited by 29 articles.

Riediger, P.I.; Marques, G.F.; et al. Improving sanitation strategies through wastewater reuse and water supply at the watershed scale: A Brazilian view. Water Policy.
Cited by 36 articles.

Marques, G.F.; Formiga-Johnsson, R.M.; et al. Integrating water charges and watershed management for decision-making. Sustainable Water Resources Management.
Cited by 41 articles.

Conclusion

Prof. Guilherme Fernandes Marques is highly suitable for the Research for Best Researcher Award. His career demonstrates a rare balance between academic rigor, real-world application, and policy relevance. His long-standing dedication to water security, hydro-economic optimization, and sustainable resource governance has had a transformative impact both in Brazil and internationally. With further expansion of international collaborations and interdisciplinary outreach, he has the potential to become a leading global authority in water resources research. Overall, his profile strongly merits recognition with this award.

Mehdi Azimi | Energy | Best Researcher Award

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Mr. Mehdi Azimi | Energy | Best Researcher Award 

First member, at Department of Architecture Faculty of Art and Architecture Tarbiat Modares University, Tehran, Iran.

Mehdi Azimi is an Iranian research-oriented architect born in November 1992. He is a professional architectural engineer with an interdisciplinary approach to energy, technology, and design. After completing his military service, he began his career as an independent consultant and architect. He believes that research should be practical, sustainable, and serve to improve the quality of urban life. He is involved in various projects from interior design to project management and energy analysis, and works with tools such as Rhino, Revit, AutoCAD, Grasshopper, and plugins such as Ladybug and EnergyPlus. Mehdi has experience in collaborating with Tarbiat Modares University and research institutions, and has an active presence in conferences and publishing scientific research articles.
📬 For contact: azimi.mehdi186@gmail.com / 09364680711

Professional Profile

Scopus

ORCID

🎓 Education

Mehdi began his academic studies with a bachelor’s degree in architectural engineering at the Hamedan Non-Profit University of Civil Engineering and Development (2014–2017). During this period, Bacharizi learned the basics of architectural design, structures, and building technology, and gained experience in writing and advancing a thesis with an energy approach in smart facades.
Then, to continue his studies, he entered the master’s degree program in architecture at Tarbiat Modares University in 2022 (2022–2024). During this period, he conducted interdisciplinary research based on energy technologies, advanced simulation (Envi-met, EnergyPlus, Ladybug), and data-driven design. His thesis, titled “Investigation of Smart Moving Facades and Interaction with HVAC,” has been published in a structured format. His education has provided a strong combination of theory, data analysis, and application in real-world design.

💼 Professional Experience

After completing his military service, Mehdi started his career as an independent architect and technical consultant. His areas of expertise include architectural design of first and second phase projects, interior design, and project management. He specializes in projects that combine technology and energy. His skills include mastering Rhino, Grasshopper, Envi-met, EnergyPlus, and Ladybug, which he uses in native designs, climate analysis, and energy optimization.
He has also been a consultant on urban design projects and has prepared data-driven reports to improve thermal conditions and building performance. He was active as an organizer and mentor in workshops at Tarbiat Modares University, which led to the transfer of experience and training of others.

🔬 Research Interests

Mehdi’s main interest in the field of climate architecture is urban sustainability and architectural technological solutions. His focus is on analyzing urban climate conditions and designing facades that are responsive to environmental changes using IoT and EMS technologies. His approach is based on advanced simulation using tools such as Envi-met, EnergyPlus and Ladybug to provide solutions for minimal energy consumption and thermal comfort in buildings.
Another focus of his research is optimizing the use of PCM (phase change material) in passive buildings to increase energy efficiency and long-term sustainability. In addition, he has developed interactive algal bioreactor systems in facades to exploit natural light and heat transfer.

🏆 Awards & Recognition

✔️ Effective participation and cooperation in the “27th National Conference on Urban Planning, Architecture, Civil Engineering and Environment” with two poster articles and a speech:

  • An article about “smart moving views” with an emphasis on improving energy efficiency and daylight management.

  • Another paper examined the “Effect of Surrounding Buildings on the Roof of Argo Factory”, which proposed a composite facade performance analysis.
    📚 In addition to national conferences, he has published a book titled “Smart Moving Facades: Energy Management Systems and Performance Analysis in Modern Buildings” under Taha Science and Culture Publishing. This book is the result of in-depth studies of his master’s thesis and presents scientific evidence in analyzing the relationship between facades and HVAC.
    His educational activities in academia and industry, as a mentor and workshop organizer, have also been noted.

📑 Top Noted Publications

  • “Smart Animated Views: Energy Management Systems and Performance Analysis in Modern Buildings” (Book, Taha Science and Culture Publications, 1404)

  • Poster & Presentation at the 27th National Conference on Urban Planning, Architecture, Civil and Environmental Engineering:

    • Review of smart facades to improve energy efficiency

    • Investigating the impact of surrounding buildings on the formation of the Argo factory roof

Subcycle of articles under review:

  • Energy Conversion and Management:

    • “Analysis of urban block conditions…”, “A comprehensive data-driven approach for urban configuration…”

  • Case Studies in Thermal Engineering:

    • “Real-Time Adaptive Algae Bioreactor Facades…”

  • Solar Energy:

    • “High-performance Office Building: A Novel… HVAC System Details”

  • Results in Engineering:

    • “A Synergistic Approach: Automating PCM and Passive Strategies…”

  • Intelligent Animated Views… Modern Buildings (Book, 1404): Published by Taha Science and Culture Publications; For more information and to receive a short program or chapter, please contact us via email.

  • Critique of smart facades… Energy efficiency (27th conference): presented and published, still lacking the “cited by” index.

  • Analysis of the impact of surrounding buildings… Argo Factory Roof (27th Conference): Presented, no formal citations yet.
    ● The articles under review have not yet been formally published, so they do not have formal external citations and citations — when published, links to journals and the number of citations will be provided.

Conclusion 

Mehdi Azimi demonstrates a highly promising and impactful research trajectory, with:

A strong academic and technical foundation.

A clear commitment to sustainability and innovation in architecture.

A balanced mix of theoretical, experimental, and applied research.

Lei Zhan | Automotive Part Lightweight Research | Best Researcher Award

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Prof. Dr. Lei Zhan | Automotive Part Lightweight Research | Best Researcher Award

Professor at Jilin Communications Polytechnic, China.

Prof. Dr. Lei Zhan is a distinguished material science and vehicle engineering expert with over two decades of experience in both academia and industry. His work focuses on the development and application of lightweight and composite materials in automotive manufacturing. Recognized for his innovation, he has earned numerous national awards and holds a robust portfolio of patents. Currently a professor at Jilin Communications Polytechnic, he continues to advance sustainable and high-performance automotive solutions through collaborative research and technology development.

Professional Profile

Scopus 

Orcid

🎓 Education 

  • Ph.D. in Material Processing Engineering, Jilin University, China (2005–2010)

  • B.Sc. in Vehicle Engineering, Lanzhou Jiaotong University, China (1997–2001)

💼 Experience 

Prof. Dr. Lei Zhan is currently a Professor at Jilin Communications Polytechnic (since January 2024), where he leads research on lightweight technologies for automotive components. From 2010 to 2023, he served as Product Director at Faway Company, contributing to product strategy, technological innovation, and advanced research on automotive components. Earlier in his career (2001–2005), he worked at CRCC as a Product Engineer, focusing on the design and development of subway vehicles.

🔬 Research Interests

  • Lightweight alloy materials for automotive applications: synthesis, microstructure control, and mechanical properties

  • Development of novel ceramic materials, intermetallics, and cermets

  • Combustion synthesis and phase evolution mechanisms in ceramic/metal composites

  • Design and integration of composite materials in automotive, aerospace, and machining systems

🏆 Honors and Recognitions

Prof. Dr. Lei Zhan’s contributions to the field have been recognized through various awards and honors:

  • First Prize, China National Innovation Method Competition (2019)

  • First Prize, Jilin Province Division of the National Innovation Method Competition (2021)

  • Second Prize, Outstanding Innovation Achievements of Employees in the Fourth Changchun City (2023)

  • May-First Labor Medal, Changchun City (2018)

  • Multiple awards for outstanding technological innovation achievements at provincial and city levels

Author Metrics

  • Publications: 21 peer-reviewed international papers

  • Intellectual Property: 80 applied patents, 69 granted

  • Notable Collaborations: NSFC, Jilin Province, Ministry of Education (China)

Top Noted Publications:

The mechanism of combustion synthesis of (TiCₓNᵧ–TiB₂)/Ni from a Ni–Ti–C–BN system

👨‍🔬 Authors:

  • Lei Zhan

  • Ping Shen

  • Qichuan Jiang

📚 Journal:

Powder Technology, 2011

📊 Citations:

17 citations (as per current database info)

🧪 Abstract (summary of study):

This study investigates the combustion synthesis mechanism for producing ceramic–metal composites of (TiCₓNᵧ–TiB₂)/Ni using a Ni–Ti–C–BN powder system. The research focuses on the reaction pathway, microstructure evolution, and phase formation. It helps clarify how the combustion reaction propagates and forms complex hard phases useful for high-performance materials, particularly for automotive and cutting tool applications.

Conclusion:

Prof. Dr. Lei Zhan is a highly qualified candidate for the Best Researcher Award in Automotive Part Lightweight Research. His sustained contributions across academia and industry, combined with innovation-driven recognition, position him as a leading force in developing sustainable automotive technologies.

With minor enhancements in international collaboration and publication strategy, his already-strong profile could evolve into global leadership in this critical research domain. His nomination is strongly recommended for the award.

Niima Es-sakali | Energy | Women Researcher Award

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Dr. Niima Es-sakali | Energy | Women Researcher Award 

Doctorate, at Green Energy Park (UM6P-IRESEN), Morocco.

Dr. ES-SAKALI Niima is a distinguished researcher specializing in energy efficiency, thermal sciences, and AI applications in building technologies. Currently, she serves as a Post-Doctoral Fellow at Green Energy Park (UM6P – IRESEN) and as an Adjunct Professor at the School of Architecture and Planning, UM6P, starting September 2024. Her academic journey culminated in a Ph.D. focusing on sustainable building technologies, with significant contributions to modeling, simulation, and AI-based optimization. Dr. Niima has held guest lecturer roles internationally and is a Guest Editor for the peer-reviewed journal Environments (MDPI). Her research bridges academic rigor and real-world applications, leading national projects, collaborating globally, and mentoring early-career researchers. She has advanced Morocco’s research capacity in smart energy systems and contributed to open-access knowledge on climate-smart architecture.

Professional Profile

Scopus

ORCID

Google Scholar

🎓 Education 

Dr. Niima completed her Ph.D. in Energy Efficiency, Thermal Sciences, and Building AI Applications, focusing on sustainable building technologies. Her doctoral research emphasized modeling, simulation, and AI-based optimization techniques to enhance energy efficiency in building systems. She has since contributed significantly to the field, with over 20 peer-reviewed publications in high-impact journals such as Applied Energy, Sustainable Cities and Society, and Renewable and Sustainable Energy Reviews. Her academic background provides a strong foundation for her current roles at Green Energy Park and UM6P, where she continues to advance research in energy-efficient building systems and AI applications. Dr. Niima’s educational journey reflects a commitment to addressing global challenges in building energy systems and sustainability.

💼 Experience 

Dr. Niima’s professional experience spans academia, research, and industry. At Green Energy Park (UM6P – IRESEN), she leads research initiatives focusing on energy efficiency and AI applications in building technologies. Her role as an Adjunct Professor at the School of Architecture and Planning, UM6P, starting September 2024, underscores her commitment to education and mentorship. Dr. Niima has been involved in international collaborations, including a completed project with Offenburg University-Germany, financed by the DAAD, focusing on rural school buildings. She is also engaged in ongoing research projects related to smart control strategies for HVAC systems and energy-efficient urban planning for net-zero energy buildings. Her consultancy experience includes a project centered on building certification (LEED), demonstrating her ability to bridge research and practical applications in the field of sustainable building technologies.

🔬 Research Interests 

Dr. Niima’s research interests encompass building energy systems, HVAC optimization, AI applications in building technologies, passive design strategies, digital twins, thermal comfort, energy modeling, and the development of net-zero energy buildings. She has developed innovative, AI-enhanced methods for optimizing HVAC systems and building energy use, contributing to climate-responsive design in semi-arid regions. Her work bridges academic rigor and real-world applications, leading national projects, collaborating globally, and mentoring early-career researchers. Dr. Niima’s contributions have advanced Morocco’s research capacity in smart energy systems, focusing on achieving net-zero energy buildings using passive and AI-optimized strategies tailored for climate responsiveness. A notable contribution is a multi-objective optimization framework for rural Moroccan schools, improving energy efficiency by up to 35.6% and thermal comfort across six climatic zones, contributing to affordable and sustainable school designs.

🏆 Awards 

Dr. Niima’s exemplary contributions to sustainable building technologies have been recognized through various awards and honors. Her innovative research in energy-efficient building systems and AI applications has garnered attention in both academic and professional circles. Notably, she has been nominated for the Women Research Award, acknowledging her significant impact in the field. Her work has also led to national projects and international collaborations, further cementing her reputation as a leader in sustainable building technologies. Dr. Niima’s commitment to advancing research capacity in Morocco and her contributions to open-access knowledge on climate-smart architecture underscore her dedication to addressing global challenges in building energy systems and sustainability.

📚 Top Noted Publications 

Dr. Niima has authored over 20 peer-reviewed publications in high-impact journals, including Applied Energy (Impact Factor: 10.1), Sustainable Cities and Society (Impact Factor: 10.5), and Renewable and Sustainable Energy Reviews (Impact Factor: 16.3). Her research covers topics such as HVAC optimization, energy modeling, passive design strategies, and net-zero energy buildings. One of her significant contributions is a multi-objective optimization framework for rural Moroccan schools, which improved energy efficiency by up to 35.6% and thermal comfort across six climatic zones. This work has been cited in various articles, highlighting its impact on the field. Dr. Niima’s publications reflect her commitment to advancing knowledge in sustainable building technologies and her dedication to addressing climate-responsive design challenges.

1. Review of Predictive Maintenance Algorithms Applied to HVAC Systems

2. Implementing a Digital Twin-Based Fault Detection and Diagnosis Approach for Optimal Operation and Maintenance of Urban Distributed Solar Photovoltaics

  • Authors: S.I. Kaitouni, I. Ait Abdelmoula, Niima Es-Sakali, Mohamed Oualid Mghazli, H. Er-retby, et al.

  • Journal: Renewable Energy Focus, Article 100530

  • DOI: 10.1016/j.ref.2024.100530

  • Year: 2024

  • Summary: This paper presents a digital twin-based approach for fault detection and diagnosis in urban distributed solar photovoltaic systems, aiming to optimize their operation and maintenance.

3. Recent Progress, Limitations, and Future Directions of Macro-Encapsulated Phase Change Materials for Building Applications

  • Authors: I. Ait Laasri, Niima Es-Sakali, Moha Cherkaoui, Mohamed Oualid Mghazli, A. Outzourhit

  • Journal: Renewable and Sustainable Energy Reviews, Article 114481

  • DOI: 10.1016/j.rser.2024.114481

  • Year: 2024

  • Summary: This review discusses the advancements, challenges, and future prospects of macro-encapsulated phase change materials in building applications, focusing on their thermal performance and integration into building systems.

4. Energy Efficiency and Hygrothermal Performance of Hemp Clay Walls for Moroccan Residential Buildings: An Integrated Lab-Scale, In-Situ, and Simulation-Based Assessment

5. Static and Dynamic Glazing Integration for Enhanced Building Efficiency and Indoor Comfort with Thermochromic and Electrochromic Windows

  • Authors: Niima Es-Sakali, Samir Idrissi Kaitouni, Imad Ait Laasri, Mohamed Oualid Mghazli, Moha Cherkaoui

  • Journal: Thermal Science and Engineering Progress, Volume 52, Article 102681

  • DOI: 10.1016/j.tsep.2024.102681

  • Year: 2024

  • Summary: This paper investigates the integration of static and dynamic glazing, including thermochromic and electrochromic windows, to enhance building energy efficiency and indoor comfort. The study demonstrates energy savings and improved thermal and visual comfort. ScienceDirect

6. Evidence-Based Numerical Building Model Enhancement and Building Energy Efficiency Evaluation in the Case of Morocco

  • Authors: Niima Es-Sakali, Samir Idrissi Kaitouni, Imad Ait Laasri, Mohamed Oualid Mghazli, Moha Cherkaoui, M. Bühler

  • Journal: Case Studies in Thermal Engineering, Article 103606

  • DOI: 10.1016/j.csite.2023.103606

  • Year: 2023

  • Summary: This study enhances numerical building models with empirical data to evaluate building energy efficiency in Morocco, providing insights into energy-saving strategies tailored to local conditions.

7. Advanced Predictive Maintenance and Fault Diagnosis Strategy for Enhanced HVAC Efficiency in Buildings

  • Authors: Niima Es-Sakali, Zakaria Zoubir, Samir Idrissi Kaitouni, Mohamed Oualid Mghazli, Moha Cherkaoui, Jens Pfafferott

  • Journal: Applied Thermal Engineering, Article 123910

  • DOI: 10.1016/j.applthermaleng.2024.123910

  • Year: 2024

Conclusion

Dr. Niima Es-Sakali demonstrates a robust blend of academic rigor, innovative research, leadership, and global collaboration, especially in the field of sustainable and AI-driven energy systems. Her contributions align strongly with the ethos of the Women Researcher Award, particularly in terms of gender representation, climate impact, and emerging technologies. With minor enhancements in professional affiliations and broader outreach, she has the potential to serve as a role model for women in engineering and sustainability fields.

Misbah Khan | Power engineering | Best Researcher Award

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Dr. Misbah Khan | Power engineering | Best Researcher Award

Doctorate, at China university of mining and technology, Xuzhou, China.

Misbah Khan, Ph.D., is an accomplished researcher and academic based at China University of Mining and Technology, Xuzhou, China. She specializes in thermophysical properties, condensation, and molecular dynamics simulations, with a focus on refrigerants. Misbah completed her M.Sc. and M. Phil. in Physics from Government College University, Faisalabad, Pakistan, before pursuing a Ph.D. at Xi’an Jiaotong University, China, where her dissertation explored the condensation behavior of HFO refrigerants using molecular dynamics simulations. She now contributes her expertise as a postdoctoral researcher, continuously advancing the field with innovative insights into fluid dynamics and thermophysics. 🌍

Professional Profile

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ORCID

Education 🎓

Misbah Khan’s academic journey began with a Bachelor of Science in Physics from Government College University, Faisalabad, Pakistan. She continued her studies with a Master’s in Physics (M.Sc.), followed by an M.Phil. in Physics at the same institution. Seeking advanced specialization, Misbah joined Xi’an Jiaotong University in China, where she earned a Ph.D. in Power Engineering and Thermophysics (Energy & Power). Her dissertation focused on the thermophysical properties and condensation patterns of R450A refrigerants, based on molecular dynamics simulations. This work helped establish her as an emerging expert in computational physics and fluid dynamics. 📚

Experience 💼

Misbah Khan brings a blend of academic and practical experience in both teaching and research. She has worked as a lecturer of Physics at Superior College Jhang and Bright Eaglets Qurtuba College in Pakistan. In addition to teaching, Misbah has honed her technical skills through diplomas in Hardware Engineering and Information Technology. Her research expertise lies in molecular dynamics simulations, computational physics, and numerical simulations, particularly within the fields of refrigeration and thermodynamics. Since her postdoctoral appointment at China University of Mining and Technology, she has contributed extensively to international projects and research papers. 💡

Research Interests 🔬

Misbah’s research interests encompass several key areas within physics and thermodynamics. She focuses on the study of refrigerants as working fluids, investigating their condensation behaviors and thermophysical properties through molecular dynamics simulations. Her research also delves into the applications of computational physics, numerical simulations, and machine learning, aiming to enhance the performance of refrigerants and energy systems. Misbah is particularly interested in exploring the interplay between thermodynamics and molecular behavior, using cutting-edge computational techniques to solve real-world problems in energy efficiency and heat transfer. ⚙️

Awards 🏆

Misbah Khan’s academic achievements have been recognized through several prestigious awards. She received the Academic Research Award for the 2022-2023 academic year from Xi’an Jiaotong University, alongside an Excellent Student Award in 2020. Her remarkable performance also earned her the First Prize in the 2021 Fire Safety Knowledge Competition for International Students at Xi’an Jiaotong University. Misbah’s contributions to the field of thermodynamics were further supported by the China Government Scholarship for her Ph.D. studies. These accolades reflect her dedication to research and excellence in her field. 🌟

Top Noted Publications 📚

Misbah Khan has made significant contributions to the field of thermophysics and molecular dynamics through a series of impactful publications. Below is a list of her key articles:

Conclusion

Misbah Khan is highly deserving of the Research for Best Researcher Award due to her remarkable academic achievements, the originality and impact of her research, and her dedication to advancing thermophysical research. Her work is not only scientifically rigorous but also carries potential for significant advancements in the refrigeration and energy industries. With her proven track record of publications, awards, and academic recognition, Misbah stands out as a leading researcher in her field. Further broadening her research scope and industry involvement would enhance her already impressive profile.