Ravi Ranjan | Microgrid Control | Research Excellence Award

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Dr. Ravi Ranjan | Microgrid Control | Research Excellence Award

Dr. Ravi Ranjan | Microgrid Control | Assistant Professor at Meerut Institute of Engineering and Technology | India

Dr. Ravi Ranjan is an emerging researcher in DC microgrid control whose work focuses on decentralized and distributed strategies for power sharing, voltage regulation, and renewable-integrated microgrid optimization. Dr. Ravi Ranjan completed his academic training in electrical engineering and is currently pursuing advanced research as a Research Scholar at NIT Silchar, where he has contributed significantly to PV-battery systems, hybrid renewable energy control, and DC microgrid stability. His professional experience includes developing innovative control schemes for PV-BES systems, wind-battery coordination, and robust LQR-based hybrid microgrid regulation, reflected through multiple IEEE conference papers and journal publications. Dr. Ravi Ranjan’s research interests include DC microgrid primary and secondary control, power electronics, renewable energy integration, and smart grid technologies, supported by strong skills in MATLAB/Simulink modelling, converter design, decentralized algorithms, and real-time control analysis. He has earned increasing scholarly recognition, accumulating citations and contributing impactful works such as decentralized PV-battery control and coordinated battery SoC signaling strategies, along with receiving appreciation for his academic excellence and research outputs. With a growing research footprint and commitment to advancing clean energy systems, Dr. Ravi Ranjan continues to contribute meaningful innovations to the future of smart and sustainable microgrid technologies.

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Feng Guo | Engineering | Best Researcher Award

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Dr. Feng Guo | Engineering | Best Researcher Award

Dr. Feng Guo | Engineering | Lecturer at Jimei University | China

Dr. Feng Guo is a leading researcher in the field of aerospace propulsion and hybrid energy systems, with extensive experience in turbine engines, advanced flight propulsion control, and multi-fuel energy technologies. With a background in integrated aircraft and propulsion system analysis, Dr. Guo has established a strong reputation for bridging theoretical innovation with practical aerospace engineering solutions. His multidisciplinary approach combines aerodynamics, energy conversion, and propulsion system design to address current and future challenges in aviation and sustainable energy systems. A prolific academic with an active presence in international research forums, Dr. Guo’s contributions are well recognized for their depth, relevance, and potential global impact.

Academic Profile:

ORCID

Education:

Dr. Guo earned his doctoral degree in Aerospace Propulsion from a distinguished academic institution known for its excellence in engineering and scientific research. His academic journey was driven by a deep interest in propulsion integration, leading to his specialization in turbine-based combined cycle systems and their performance under real-world operational conditions. During his graduate and postgraduate studies, Dr. Guo developed expertise in propulsion control, hybrid engine systems, and dynamic inlet/engine coupling. His doctoral research laid the foundation for his future work in advanced propulsion optimization and sustainable fuel integration.

Experience:

Dr. Guo has held key research and academic positions at renowned aerospace and engineering organizations, where he has led and participated in numerous high-impact research initiatives. His work focuses on propulsion system optimization, energy-efficient turbine technologies, and hybrid electric engine configurations. He has collaborated on international projects involving hydrogen and ammonia fuel systems, and contributed to experimental and simulation-based studies on turbine film cooling and ramjet performance. In addition to his research, Dr. Guo has actively reviewed publications for top-tier journals and contributed to academic conferences, sharing his insights on innovative propulsion solutions and flight control mechanisms. His experience also includes mentoring students and coordinating interdisciplinary research teams in propulsion and aerodynamics.

Research Interest:

Dr. Guo’s research interests lie in the development and optimization of advanced propulsion systems, including turbine-based combined cycle (TBCC) engines, hybrid electric propulsion, and sustainable fuel technologies such as hydrogen and ammonia. He is particularly focused on the aerodynamic-propulsion integration of aircraft, thrust-matching techniques, and control law design for variable-geometry engines. Another core area of his research involves performance evaluation through simulation and experimental methods, targeting both atmospheric and near-space flight vehicles. Dr. Guo continues to explore solutions that reduce environmental impact while enhancing propulsion efficiency and operational flexibility, positioning his work at the intersection of aerospace innovation and sustainable engineering.

Award:

Dr. Guo has been recognized for his contributions to the aerospace and energy engineering sectors through nominations and acknowledgments in academic and professional circles. His research excellence, collaborative approach, and commitment to addressing complex engineering problems have earned him distinction among peers. He has been an invited reviewer for international scientific journals and is actively involved in engineering societies that promote advanced propulsion technologies and sustainable energy research. Dr. Guo’s achievements reflect not only technical skill but also leadership in driving interdisciplinary research and mentoring future engineers.

Selected Publications:

  • Optimization Methodology of Wide-Speed Scramjet Engine Based on Aerodynamic/Control Coupling, Applied Thermal Engineering, published 2025, 23 citations

  • Thrust-Matching and Optimization Design of Turbine-Based Combined Cycle Engine with Trajectory Optimization, International Journal of Turbo and Jet Engines, published 2024, 18 citations

  • Flight Analysis and Optimization Design of Vectored Thrust eVTOL Based on Cooperative Flight/Propulsion Control, Aerospace Science and Technology, published 2024, 31 citations

  • Analysis and Suppression of Thrust Trap for Turbo-Ramjet Mode Transition with the Integrated Optimal Control Method, Aerospace, published 2023, 27 citations

Conclusion:

Dr. Feng Guo has made substantial contributions to the advancement of propulsion and hybrid aerospace systems through a combination of rigorous research, innovative thinking, and collaborative efforts. His work addresses critical challenges in modern aviation, including fuel efficiency, system integration, and the development of environmentally responsible propulsion technologies. With a strong record of high-impact publications, international collaborations, and academic leadership, Dr. Guo continues to influence the direction of aerospace engineering and energy systems research. He remains committed to pursuing transformative solutions that align with the future of sustainable and high-performance aerospace applications.

 

 

Hania Batarni | Environmental Engineering | Best Researcher Award

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Dr. Hania Batarni | Environmental Engineering | Best Researcher Award

Dr. Hania Batarni | Environmental Engineering – Research Assistant at Qatar University, Qatar

Dr. Hania AlBatrni is a rising researcher in the field of environmental engineering, with a strong focus on water treatment technologies. She currently contributes her expertise as a researcher at Qatar University. Her scholarly work integrates sustainable practices with practical applications, especially in developing novel adsorbents from natural materials for pollution control. With over 370 citations, she is increasingly recognized for her impactful contributions in environmental remediation.

Academic Profile:

Scopus

Google Scholar

🎓Education:

Dr. AlBatrni holds advanced academic qualifications in chemical or environmental engineering. Her education provided a foundation in adsorption science, membrane technology, and sustainable material development, enabling her to build a research career focused on green and efficient water treatment solutions.

💼Experience:

As a faculty researcher at Qatar University, Dr. AlBatrni has been actively involved in academic research, student mentorship, and collaborative projects across water process engineering, environmental sustainability, and materials science. Her experience includes working with interdisciplinary teams and contributing to the development of eco-friendly adsorbents and pollution-control technologies.

🔬Research Interest:

Her primary research interests include:

  • Adsorption technology for pollutant removal

  • Mercury and oil removal from water

  • Sustainable and low-cost adsorbents from biomass (e.g., walnut shells)

  • Comparative studies of adsorption vs. membrane technologies

  • Green synthesis routes and environmental impact mitigation
    These interests reflect her commitment to sustainability, public health, and innovative environmental engineering.

🏅Awards:

While formal international awards are not explicitly documented, Dr. AlBatrni’s research impact is evident through her citation record (372 total citations), h-index of 5, and frequent referencing of her work in environmental and chemical engineering literature. These metrics underscore the influence and quality of her research contributions.

📚Selected Publications:

  1. 🌰 “Walnut shell based adsorbents: A review study on preparation, mechanism, and application”
    • Journal of Water Process Engineering, 2022Cited by 131
  2. 💧 “Comparative study between adsorption and membrane technologies for the removal of mercury”
    • Separation and Purification Technology, 2021Cited by 127
  3. 🧪 “Polymeric adsorbents for oil removal from water”
    • Chemosphere, 2019Cited by 89
  4. 🌿 “A green route to the synthesis of highly porous activated carbon from walnut shells for mercury removal”
    • Journal of Water Process Engineering, 2024Cited by 13
  5. 💥 “Evaluation of Sodium Thiosulfate Activated Carbon for High-Performance Mercury Removal from Aqueous Solutions”
    • Environmental Technology & Innovation, 2024Cited by 5
  6. 🧴 “Novel Adsorbents for the Removal of Oil from Produced Water”
    • Unspecified Journal, 2019Cited by 2
  7. 🌡️ “Utilization of Mixtures as Working Fluids in Organic Rankine Cycle”
    • Qatar Foundation Annual Research Forum, 2011 – Early career contribution

Conclusion:

Dr. Hania AlBatrni is a dynamic and innovative researcher whose work in sustainable environmental engineering is both timely and impactful. Her research on walnut shell-based adsorbents, mercury removal, and eco-friendly materials contributes meaningfully to solving real-world water contamination issues. With a solid citation record and growing academic influence, she represents an ideal candidate for the Best Researcher Award. Continued diversification in research and international visibility will further amplify her already notable contributions to science and society.

 

 

Dr. Mariam Darestani | Environmental Engineering | Best Researcher Award

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Dr. Mariam Darestani | Environmental Engineering | Best Researcher Award

Dr. Mariam Darestani | Environmental Engineering – Western Sydney University, Kingswood, Australia

Dr. Mariam Darestani is a highly accomplished academic and researcher with a diverse and impactful career in the field of engineering. With a PhD in Engineering from the University of Sydney, Dr. Darestani has made significant contributions to the development of innovative materials and sustainable technologies, particularly in the areas of water purification, sustainable agriculture, and polymer engineering. She is currently serving as a Senior Lecturer at Western Sydney University (WSU), where she is also an Academic Program Advisor for various undergraduate engineering programs. As a Fellow of the Higher Education Academy (FHEA), she has a strong commitment to enhancing the academic experience for students through innovative curriculum development and research.

Her academic journey is marked by numerous awards, including the prestigious Amelia Earhart Fellowship from Zonta International and several Excellence in Research Awards from the University of Sydney. With a background in Polymer Engineering, Dr. Darestani has worked across various sectors, applying her research to practical solutions in industry. In addition to her teaching and research roles, she has held leadership positions in various academic and industry-related initiatives, further cementing her reputation as a trailblazer in her field.

Profile Verified:

Google Scholar

Education:

Dr. Darestani’s academic foundation is robust, beginning with a Bachelor’s degree in Polymer Engineering (Honours) from Tehran Polytechnic University. She pursued her Master’s in Engineering (Polymer) from the Iran Polymer and Petrochemical Institute before embarking on doctoral studies at the University of Sydney, where she earned her PhD in Engineering. To further enhance her expertise in academic practice, she completed the Graduate Certificate in Academic Practice at Queensland University of Technology (QUT), which underpins her dedication to improving teaching methodologies. Her academic qualifications are complemented by ongoing professional development, including various courses aimed at enhancing her supervisory and leadership skills in academia.

Experience:

Dr. Darestani’s career has spanned multiple research and academic positions, which have contributed to her expertise in sustainable engineering solutions. She has been a Senior Lecturer at Western Sydney University since 2019, where she has also been involved in several leadership roles, such as Academic Program Advisor for the Undergraduate Advanced Manufacturing, Materials, Mechanical, and Robotic & Mechatronic Engineering programs. Her previous roles include serving as an Advance Queensland Research Fellow at Queensland University of Technology, where she focused on the development of novel materials and technologies for sustainable living. Her postdoctoral work at the University of Technology Sydney (UTS) and the University of Sydney has further enriched her ability to collaborate across academic and industrial sectors, providing valuable insights into the intersection of research, teaching, and practical engineering applications.

Research Interests:

Dr. Darestani’s research interests are primarily focused on developing innovative products and materials aimed at sustainable living. Her work is centered on the application of nanotechnology, sustainable water treatment, and the creation of advanced materials for agricultural and environmental purposes. She has a particular interest in water resource management, exploring the potential of zeolite-based products and other novel materials for addressing environmental challenges. Her research is interdisciplinary, drawing from fields such as polymer engineering, environmental sustainability, and nanotechnology to create practical solutions that benefit both industries and communities.

Awards:

Dr. Darestani has received numerous accolades and awards for her outstanding contributions to research and innovation. Some of her notable achievements include winning the EDBE Research Impact Award in 2024 and 2023 at Western Sydney University, as well as being named the Researcher of the Year through Industry Partnership in 2023. Her dedication to sustainability has earned her recognition in prestigious awards such as the Queensland Women in STEM Prize and the AMP Tomorrow Maker Award. Additionally, she was shortlisted for the Green Globe Award by the NSW government in 2019 and has received several industry fellowship awards, highlighting her ability to bridge the gap between academia and industry.

Publications:

Dr. Darestani has authored and co-authored several peer-reviewed journal articles and conference papers that have had a significant impact on the field. Some of her recent publications include:

  1. Javan, K., & Darestani, M. (2024). Evaluating the environmental sustainability of a key crop in a crucial area: Analyzing the effects of climate change on agriculture, Heliyon. 🌱 (Cited by: 10+)
  2. Javan, K., & Darestani, M. (2024). Assessing environmental sustainability of a vital crop in a critical region using the SWAT model, Heliyon 10(3). 🌍 (Cited by: 8)
  3. Amari, S., Darestani, M., & Millar, G. (2024). Engineering and Life Cycle Assessment of Sustainable Zeolite-Based Geopolymer Incorporating Blast Furnace Slag, Sustainability 16(1), 440. ♻️ (Cited by: 12)
  4. Javan, K., Altaee, A., BaniHashemi, S., & Darestani, M. (2023). A review of interconnected challenges in the water-energy-food nexus: Urban pollution perspective towards sustainable development, Science of The Total Environment. 🌿 (Cited by: 20)
  5. Javan, K., Mirabi, M., & Darestani, M. (2023). Enhancing environmental sustainability in a critical region: Climate change impacts on agriculture and tourism, Civil Engineering Journal. 🌎 (Cited by: 15)

Conclusion:

Dr. Mariam Darestani is an exemplary figure in the field of engineering, blending academic rigor with practical, sustainable solutions. Her commitment to innovation in water resource management, sustainable materials, and engineering education has earned her a prominent place in both academic and industrial circles. With a proven track record of securing substantial research funding and delivering impactful projects, Dr. Darestani continues to make significant strides in advancing sustainable engineering practices. Through her work, she not only contributes to the academic community but also to the development of technologies that have a lasting, positive impact on the environment and society. Her contributions, both in research and teaching, make her a deserving candidate for recognition in any award nomination.