Israa Dheyaa Khalaf Al-Rubaye | Engineering | Best Researcher Award

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Ms. Israa Dheyaa Khalaf Al-Rubaye | Engineering | Best Researcher Award

Ms. Israa Dheyaa Khalaf Al-Rubaye, University of Pisa, Italy

🎓 Ms. Israa Dheyaa Khalaf Al-Rubaye is a PhD candidate in Smart Industry at the University of Pisa, Italy (2022–2024), specializing in Electrical Discharge Machining (EDM) and green energy technologies. She has expertise in innovative electrode design, cryogenic treatment, and biodiesel-based dielectric fluids to optimize machining processes for precision, energy efficiency, and sustainability. With a Master’s in Industrial-Mechanical Engineering from the University of Technology, Baghdad, she collaborates with leading institutions like CNR and NANESA. 🛠️ Her published research focuses on green EDM, advanced materials, and process optimization. Ms. Al-Rubaye is fluent in Arabic and English. 🌍

 

Publication Profile

Orcid

🎓 Education Qualifications

Ms. Israa Dheyaa Khalaf Al-Rubaye is currently a PhD candidate in the Smart Industry program at the University of Pisa, Italy, where she has been specializing in advanced manufacturing and sustainable technologies since 2022. Her doctoral research focuses on Electrical Discharge Machining (EDM) and green energy applications, demonstrating her commitment to innovation and environmental impact reduction. 🌍 Prior to this, she earned her Master’s degree in Industrial-Mechanical Engineering from the University of Technology, Baghdad, Iraq (2012–2016), gaining a strong foundation in mechanical systems and industrial process optimization. 🛠️

 

💼 Work Experience and Profession

Ms. Israa Dheyaa Khalaf Al-Rubaye has extensive experience in both academic and industrial settings. Since January 2022, she has been a Ph.D. candidate in the Smart Industry Department at the University of Pisa, Italy, where she conducts cutting-edge research in Electrical Discharge Machining (EDM) and green energy technologies. 🌱 She has collaborated with CNR and NANESA institutions, contributed to the development of green dielectric fluids, and designed innovative EDM electrodes. Prior to her Ph.D., she worked as a Planning and Follow-up Engineer at the Company for Land Transportation, Iraq, where she supported strategic planning and project coordination. 🚗

 

🔬 Research Focus

Ms. Israa Dheyaa Khalaf Al-Rubaye’s research primarily focuses on Electrical Discharge Machining (EDM), with an emphasis on optimizing die-sinking EDM processes and improving machining performance through innovative electrode designs, such as her work on U-shaped electrodes. Her research also explores green energy technologies, specifically the use of eco-friendly dielectric fluids to reduce environmental impact in industrial processes. 🌱 She investigates cutting-edge materials, including the integration of graphene coatings and biodiesel-based dielectric fluids, to enhance energy efficiency and machining precision. Her work contributes to advancing sustainable manufacturing practices and innovative machining technologies. ⚙️

 

📚 Publications

  • “Effect of manufacturing new U-shaped electrode on die sinking EDM process performance” – Machining Science and Technology, Nov 2024. DOI: 10.1080/10910344.2024.2414263 ⚙️
  • “Toward green electrical discharge machining (EDM): state of art and outlook” – Machining Science and Technology, Jan 2023. DOI: 10.1080/10910344.2023.2194961 🌱

 

 

Mahadev Prabhu | Mechanical Engineering | Best Researcher Award

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Dr. Mahadev Prabhu | Mechanical Engineering | Best Researcher Award

Dr. Mahadev Prabhu, Amrita Vishwa Vidyapeetham, India

Dr. Mahadev J. Prabhu is a Post-Doctoral Fellow specializing in Fluid Mechanics at Amrita Vishwa Vidyapeetham, Kerala, India. He holds a Ph.D. in Mechanical Engineering, focusing on vortex suppression in liquid draining tanks. Dr. Prabhu has extensive expertise in turbo machines, gas dynamics, aerodynamics, and renewable energy. His research contributions include 12 journal publications, with several indexed in Scopus and WoS. He has received notable accolades such as the Amrita Innovation & Research Award and has been a reviewer for the International Journal of Occupational Safety and Health. Additionally, he has delivered invited talks on fluid dynamics, enriching the academic community with his findings. 🌊💨🚀

 

Publication Profile

Google Scholar

Education

Dr. Mahadev Prabhu completed his Ph.D. in Mechanical Engineering (2017-2023) at Amrita Vishwa Vidyapeetham, Kollam. Prior to this, he earned an MTech in Thermal and Fluids, where he was a Silver Medalist with a CGPA of 9.34 (2013-2015) from the same institution. Dr. Prabhu also completed a PG Diploma in Wind Resource Assessment (2012-2013) with a CGPA of 8.28. He holds a BTech in Aerospace Engineering (2008-2012) from Amrita Vishwa Vidyapeetham, Coimbatore. His early education includes high school at Durga Higher Secondary School, Kanhangad, where he excelled with an 89% in XII and 85% in X. 🎓✨

 

Teaching and Research Experience 📚🔧

Dr. Mahadev Prabhu currently serves as a Post-Doctoral Fellow at Amrita Vishwa Vidyapeetham (June 2023–Present), where he plays a key role in NBA accreditation tasks, including preparing course and program articulation matrices. He also handles various graduate and undergraduate courses in Mechanical Engineering and guides students in their research activities. Prior to this, Dr. Prabhu was an Assistant Professor at Ilahia College of Engineering and Technology (Jan 2017–June 2017) and Dhirajlal Gandhi College of Technology (Dec 2015–Jan 2017), delivering lectures in Fluid Mechanics, Thermal Engineering, Gas Dynamics, and Jet Propulsion, while also preparing course material and guiding students. 🏫🛠️

 

Awards and Recognitions 🏆

Dr. Mahadev Prabhu has received notable accolades throughout his academic journey. He was a University-level Silver Medalist in the MTech program in Thermal and Fluids (2013-2015) at Amrita Vishwa Vidyapeetham. His contributions to research were recognized when he was honored with the Amrita Innovation & Research Awards (AIRA) in the category of Journals/Book Chapters. Additionally, Dr. Prabhu has served as a reviewer for the prestigious International Journal of Occupational Safety and Health, further demonstrating his expertise and commitment to the academic community. 🏅📚

 

Certifications 🎓

Dr. Mahadev Prabhu has earned several prestigious certifications that highlight his expertise in Fluid Mechanics and related fields. He received an NPTEL certification in Fluid Machines with ELITE, scoring 81%. He further advanced his knowledge with another NPTEL certification in Advanced Concepts in Fluid Mechanics, achieving ELITE + Silver with 77%. In addition, Dr. Prabhu earned a certification in Ideal Fluid Flows Using Complex Analysis with ELITE + Gold, attaining an impressive 92%. These certifications reflect his dedication to continuous learning and excellence in mechanical engineering. 🏅🔧

 

Research Focus

Dr. Mahadev Prabhu’s research focuses primarily on fluid dynamics, specifically vortex formation during liquid draining processes from cylindrical and conical tanks. His work investigates the suppression and control of Rankine vortices, the effects of drain port geometry, surface roughness, and the influence of various tank designs on vortex behavior. His studies contribute to the optimization of fluid draining systems in aerospace and mechanical engineering applications. With a focus on numerical simulations and experimental investigations, his research enhances the understanding of fluid mechanics in real-world applications. 🚰🔬🌀✈️

 

Publication Top Notes  

  • Vortex formation during draining from cylindrical tanks: effect of drain port eccentricityJournal of Aerospace EngineeringCited by 272017 🌀🚀
  • Rankine vortex formation during draining: a new twin port suppression strategyJournal of Applied Fluid MechanicsCited by 172020 🌀💡
  • Rankine Vortex Suppression in Tanks with Conical Base: A Numerical InvestigationJournal of Spacecraft and RocketsCited by 152021 🛸🔬
  • Liquid Draining Through Polygonal Ports: An Investigation on Gas Entraining VorticesJournal of Spacecraft and RocketsCited by 122019 🌀🔧
  • Liquid draining through multiple ports: an investigation on air core vortex formationFluid DynamicsCited by 82021 💧🌀
  • Rankine vortex formation in cylindrical tanks with curved base: an experimental investigationJournal of Spacecraft and RocketsCited by 62022 🌀📊
  • Air core vortexing in liquid draining tanks: Influence of surface roughnessProceedings of the Institution of Mechanical EngineersCited by 52023 🌀🌊
  • New parameter to characterize rankine vortex formation in liquid draining tanksJournal of Spacecraft and RocketsCited by 32023 🔬🌀
  • Effect of roughness on air core vortexing phenomenon during draining of liquids from cylindrical tanks: An experimental investigationMaterials Today: ProceedingsCited by 22023 🧪🌐
  • Vortex Formation in Liquid Columns During Draining: Influence of Drain Port GeometryAdvances in Fluid and Thermal EngineeringCited by 22021 📏🌀

qinghua Gui | Engineering | Best Researcher Award

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qinghua Gui | Engineering | Best Researcher Award

Mr qinghua Gui, University of Science and Technology of China, China

Based on the provided details, it seems that Qinghua Gui is a suitable candidate for a “Best Researcher Award,” particularly within the field of engineering, specifically sodium-ion battery condition monitoring. However, the articles listed under Paola Imperatore do not align with Qinghua Gui’s research focus, as they are concentrated in sociopolitical and environmental mobilization topics.

Publication profile

Orcid

Education

A Doctor of Engineering (D.E.) is an advanced professional degree that focuses on applying engineering principles to real-world problems. This degree typically emphasizes research, innovation, and practical solutions in various fields such as civil, mechanical, electrical, and industrial engineering. D.E. graduates often lead in academia, industry, or government, contributing to technological advancements, infrastructure development, and cutting-edge engineering projects. The program combines rigorous coursework with applied research, equipping professionals with the skills to solve complex engineering challenges and drive progress in their respective fields. 🌍🔧💡

Towards an Ecological Transition from Below

This article explores worker mobilization within the automotive sector, analyzing how grassroots efforts contribute to ecological transitions. It provides insights into the intersection between labor and environmental activism, which is a timely and significant contribution to understanding social movements.

Le trasformazioni del movimento ambientalista in Italia

This study addresses the transformation of Italy’s environmental movement, particularly the balance between institutionalization and conflict. The focus is on the evolution of environmental activism, offering valuable historical and political context for the environmental discourse in Italy.

A Working-Class Environmentalism: The GKN Case Study

This article examines class-based environmentalism, particularly within the GKN case. It highlights the intersection of labor and environmental struggles, emphasizing the role of the working class in advocating for environmental justice. This is an important perspective in sociological and labor studies.

Territories and Protest: Mobilization Opportunities

In this paper, Imperatore explores the relationship between political opportunities and protest mobilization, focusing on cases such as the No TAP and No Grandi Navi movements. This study provides a theoretical framework for understanding how political and discursive factors influence environmental protests.

The Case of the Excavation in the Apuan Alps

This article discusses the environmental and social impact of excavation in the Apuan Alps. It focuses on environmental degradation and the local protests that have emerged in response. This case study underscores the complex interaction between industry, environment, and local activism.

Research focus

Qinghua Gui’s research focuses on energy materials, specifically in the field of sodium-ion batteries and solar energy systems. His work explores the behavior of cathode materials like NaNi₁/₃Fe₁/₃Mn₁/₃O₂ and Na₄Fe₃(PO₄)₂(P₂O₇) under thermal runaway conditions, contributing to battery safety and performance. Additionally, he has worked on improving solar energy efficiency through the design of compound parabolic concentrators to minimize light loss in vacuum tubes. His expertise spans energy storage, photo-thermal conversion, and renewable energy technology development. 🔋☀️⚡

Conclusion

While Paola Imperatore’s research is diverse and covers vital topics in environmental activism, labor studies, and political sociology, it does not match Qinghua Gui’s field of expertise in sodium-ion battery condition monitoring. For the “Best Researcher Award” within an engineering or technological research context, Qinghua Gui would be a stronger candidate. Conversely, Paola Imperatore would be an excellent candidate for awards focused on environmental sociology or labor activism research.

Publication top notes

Comparison of NaNi<sub>1/3</sub>Fe<sub>1/3</sub>Mn<sub>1/3</sub>O<sub>2</sub> and Na<sub>4</sub>Fe<sub>3</sub>(PO<sub>4</sub>)<sub>2</sub>(P<sub>2</sub>O<sub>7</sub>) cathode sodium-ion battery behavior under overcharging induced thermal runaway

Capacity degradation study of NaNi1/3Fe1/3Mn1/3O2 cathode sodium-ion batteries induced by overcharge

Preliminary study on photo-thermal conversion investigation of compound parabolic concentrator for eliminate light escape in vacuum tube interlayer