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

Posted on by ScienceFather

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 🌱

 

 

Muhammad Haider Saleem | Material Science | Excellence in Innovation

Posted on by ScienceFather

Mr. Muhammad Haider Saleem | Material Science | Excellence in Innovation

Ghani Glass Limited, Pakistan

Muhammad Haider Saleem is a Pakistani chemist and researcher with expertise in the synthesis, characterization, and computational modeling of nanomaterials. Born and raised in Sheikhupura, Pakistan, he has focused his academic and professional career on materials science, particularly the innovative applications of f-block and d-block elements. His work spans diverse fields including optoelectronics, biomedical applications, and energy storage solutions. Saleem holds a Master of Philosophy in Chemistry from Government College University, Lahore, and has gained substantial experience as a Senior Chemist in Research & Development at Ghani Glass Limited. His research has been published in several peer-reviewed journals, highlighting his contributions to enhancing material properties for industrial and technological applications. With hands-on experience in leading-edge laboratory techniques and a passion for innovation, Saleem continues to contribute to advancements in materials science and nanotechnology.

Publication profile

Google Scholar

Educational Background

Muhammad Haider Saleem completed his Master of Philosophy (MPhil) in Chemistry from Government College University, Lahore, in 2022. His thesis, titled “Decolorization of Green Tint of High Iron Soda Lime Glass using Rare Earth Metal Nanoparticles,” explored innovative ways to modify glass for improved optical and physical properties. He earned a Bachelor’s degree in Chemistry from the University of the Punjab, Lahore, in 2017, which provided him with a strong foundation in natural sciences and materials science. In addition to his core education, Saleem has broadened his skill set through certifications such as a Diploma in Data Science from Al-Khawarizmi Institute of Computer Science (UET Lahore) and certification in SEO from Digiskills. His academic journey has been marked by his focus on nanomaterials and their applications in real-world industrial contexts, including optoelectronics, energy storage, and biomedical technologies.

Work Experience

Muhammad Haider Saleem has significant professional experience as a Senior Chemist in the Research & Development (R&D) department at Ghani Glass Limited, where he has worked since 2017. His role involves the analysis and improvement of glass materials, particularly focusing on the development of new float glass colors and optoelectronic applications using lanthanides. He has a deep understanding of advanced laboratory instruments such as ED-XRF, SEM, and XRD, and has contributed to maintaining the company’s ISO-9001 and EMS-14001 standards. Prior to this, Saleem worked as QC Shift Incharge at Rupali Polyester Limited, where he was responsible for maintaining polymer quality through raw material analysis and polymer stoichiometry. His industrial experience complements his academic knowledge, allowing him to apply research insights directly to manufacturing and quality control processes. His work in both roles has centered on advancing innovative materials for practical and commercial use.

Research Focus

Muhammad Haider Saleem’s research focuses on the synthesis, characterization, and computational modeling of nanomaterials, particularly those based on f-block and d-block elements. His work aims to enhance the optical, electronic, and physical properties of materials for applications in optoelectronics, energy storage, and biomedical technologies. Saleem is especially interested in modified glasses for optoelectronics and biomedical uses, multifunctional ceramics, and the development of nanomaterials for optical fiber and laser applications. His research also extends to bio-imaging and nano-thermometry, where stable upconversion nanoparticles (UCNPs) are used for advanced imaging techniques. Another significant aspect of his work involves the development of supercapacitors with enhanced charge storage capacities through the modification of electrode materials. Additionally, Saleem has been researching ways to improve the efficiency of perovskite solar cells, contributing to the ongoing global effort to enhance sustainable energy solutions.

Skills:

Muhammad Haider Saleem possesses a diverse set of technical skills that span advanced laboratory techniques, computational modeling, and data analysis. He is proficient in the operation of key scientific instruments such as ED-XRF (CG-NEX I, Rigaku), XRD (ARL EQUINOX 5000), and SEM (FEI INSPECT S50), which are essential for material characterization and analysis. His expertise extends to spectroscopic techniques, including UV/Vis spectroscopy, fluorescence spectroscopy, and FTIR, used in assessing optical and chemical properties. Saleem is also skilled in electrochemical techniques, utilizing potentiostats for charge storage and corrosion testing.

Conclusion

Given his advanced research, relevant work experience, peer-reviewed publications, and proficiency with high-level scientific tools, Muhammad Haider Saleem seems well-suited for a recognition or award in “Excellence in Innovation.” His work in developing innovative nanomaterials for optoelectronics, biomedical applications, and energy storage reflects significant contributions to his field.

Publication Top Notes

Title: An innovative approach towards Decolorization of tint and Enhancing the Optical & Physical Properties of High iron Na₂O-CaO-SiO₂ glass by co-doping with Ce⁴⁺/Nd³⁺
Authors: MH Saleem, S Ali, S Ali
Journal: Optical Materials
Citation: 116160
Year: 2024

Title: An Innovative Approach of Decolorization of Tint and Enhancing the Optical & Physical Properties of High Iron Na₂O-CaO-SiO₂ Glass by Doping with Ce⁴⁺/Nd³⁺: An Experimental and …
Authors: MH Saleem, S Ali, S Ali
Citation: Available at SSRN 4379211
Year: 2024

Title: Optical & Physical Properties of High Iron Na₂O-CaO-SiO₂ Glasses on Decolorization of Tint by Doping with Rare Earth Metals (CeO₂/Nd₂O₃): An Experimental and Comparative Study
Authors: MH Saleem, S Ali, S Ali
Citation: Available at SSRN 4347488
Year: 2024

 

Mohamad Zarei Binabaj | Engineering | Best Researcher Award

Posted on by ScienceFather

Dr. Mohamad Zarei Binabaj | Engineering | Best Researcher Award

Researcher at Shahid Beheshti University, Iran

Dr. Mohamad Zarei Binabaj, born in 1983 in Mashad, Iran, is an accomplished researcher in nuclear engineering with a Ph.D. from Shahid Beheshti University in Tehran. His research focuses on advanced nuclear reactor modeling and control, particularly under challenging conditions such as xenon oscillations. He has a strong publication record with over 24 peer-reviewed articles in leading journals and serves as a topic editor for Frontiers in Energy Research: Nuclear Energy. Known for his expertise in multi-physics kinetics modeling, detector physics, and nonlinear control systems, he is proficient in MATLAB, Simulink, and nuclear engineering software. Fluent in English and French, Dr. Zarei actively contributes to the academic community as a reviewer for several respected journals and has experience teaching and supervising students. His contributions make him a well-regarded figure in the field of nuclear reactor engineering.

Publication profile

Google Scholar

Educational Background

Mohamad Zarei Binabaj holds an impressive educational background in engineering, with a Ph.D. in Nuclear Reactor Engineering from Shahid Beheshti University in Tehran, Iran, obtained in 2017. His doctoral research focused on the robust nonlinear control of nuclear reactor load following operations amidst Xenon oscillations. Prior to his Ph.D., he completed a Master’s degree in Nuclear Reactor Engineering at the same institution in 2012, where he explored the inherent safety features of next-generation IV lead-cooled fast reactors. His academic journey began with a Bachelor’s degree in Electrical Engineering from Tehran University in 2006, laying a solid foundation for his expertise in nuclear engineering and control systems.

Teaching and Research Experience

Mohamad Zarei Binabaj has a solid foundation in both teaching and research within the field of nuclear engineering. As a consulting instructor at Shahid Beheshti University, he guides students in their thesis projects, focusing on nuclear reactor dynamics and analysis. He has also served as a teaching assistant for various courses, including reactor physics, numerical methods, and linear control systems, showcasing his ability to communicate complex concepts effectively. In terms of research, Zarei has an extensive publication record with over 24 articles in esteemed journals, covering topics such as nonlinear control, reactor dynamics, and safety features in advanced reactors. His active participation in reviewing manuscripts for leading journals further highlights his commitment to advancing the field and contributing to the academic community. Overall, his teaching and research experiences underscore his expertise and dedication to nuclear engineering education and innovation.

Publication Top Notes

  • A physically based PID controller for the power maneuvering of nuclear reactors
    • Authors: M. Zarei
    • Year: 2020
    • Citations: 22
  • A multi-point kinetics based MIMO-PI control of power in PWR reactors
    • Authors: M. Zarei
    • Year: 2018
    • Citations: 22
  • Robust PID control of power in lead cooled fast reactors: A direct synthesis framework
    • Authors: M. Zarei, R. Ghaderi, N. Kojuri, A. Minuchehr
    • Year: 2017
    • Citations: 19
  • Space independent xenon oscillations control in VVER reactor: A bifurcation analysis approach
    • Authors: M. Zarei, R. Ghaderi, A. Minuchehr
    • Year: 2016
    • Citations: 12
  • Nonlinear dynamics and control in molten salt reactors
    • Authors: M. Zarei
    • Year: 2018
    • Citations: 10

Conclusion

Dr. Zarei’s qualifications in nuclear engineering, demonstrated expertise, and active engagement in academia make him a strong candidate for the Best Researcher Award. With his current trajectory and potential expansions in research breadth, he embodies excellence in his field.

Harish Selvam | Engineering | Best Researcher Award

Posted on by ScienceFather

Dr. Harish Selvam | Engineering | Best Researcher Award

Post-doctoral researcher, Institute of Hydraulic Engineering and Water Resources Management, RWTH Aachen University, Germany

Harish Selvam is a Scientific Staff member at the Institute of Hydraulic Engineering and Water Resources Management (IWW) at RWTH Aachen University, Germany. With over 8 years of expertise in Hydraulics and Coastal Engineering, Harish’s research focuses on physical and numerical modeling, particularly in violent tsunami-structure interactions. His dual MS and PhD in Ocean Engineering were awarded with distinction from RWTH Aachen University and Indian Institute of Technology Madras. 🌊🏛️

Publication Profile

Strengths for the Award:

  1. Academic Excellence: Harish Selvam’s educational background is impressive, with a dual degree (MS & PhD) in Ocean Engineering from RWTH Aachen University and IIT Madras, completed with distinction. His B.E. in Civil Engineering also showcases strong academic performance.
  2. Research Contributions: His PhD thesis on violent tsunami-structure interaction is a significant contribution to the field of Hydraulics and Coastal Engineering. He has published numerous papers in high-impact journals such as Coastal Engineering, Water, Applied Ocean Research, and Ocean Engineering, indicating a strong research output.
  3. Awards and Recognitions: Harish has received prestigious awards, including the Prof. Vallam Sundar best PhD thesis in Ocean Engineering from IIT Madras and the ISH best PhD thesis award in Hydraulics, water resources, and coastal engineering.
  4. Professional Experience: With eight years of experience in Hydraulics and Coastal Engineering, Harish has held significant positions, including Junior Research Group Coastal Engineering Leader and Scientific Staff at RWTH Aachen University. His involvement in major projects and contributions to CFD software development demonstrate his applied research skills.
  5. Technical Skills: Proficiency in programming languages (MATLAB, C++, FORTRAN) and technical software (AutoCAD, Stadd Pro, FreeCAD, OpenFOAM, DualSPHysics, Ansys) highlights his capability in numerical and physical modeling.
  6. Supervision and Mentorship: Harish has supervised multiple Master’s and Bachelor’s theses, indicating his leadership and mentorship abilities. His guidance on projects related to tsunami-like wave impacts and hydraulic engineering showcases his expertise in guiding young researchers.
  7. International Exposure: Harish’s involvement in international projects and conferences, along with scholarships from DAAD and UGC, underscores his global perspective and collaboration.

Areas for Improvement:

  1. Language Proficiency: While Harish has basic proficiency in German (A2.1 level), improving his language skills could enhance his integration and communication within the international research community in Germany and beyond.
  2. Expanded Research Impact: While his research is strong, broadening the impact through more interdisciplinary collaborations and applications beyond tsunami-structure interaction could enhance his profile further.
  3. Industry Collaboration: Increasing collaborations with industry partners could translate his research findings into practical solutions and innovations, thereby enhancing the societal impact of his work.

Conclusion:

Harish Selvam is a highly suitable candidate for the Best Researcher Award. His robust academic background, significant research contributions, professional experience, and technical skills make him a standout researcher in the field of Hydraulics and Coastal Engineering. While there are areas for improvement, such as language proficiency and expanding the impact of his research, his overall profile is highly commendable and deserving of recognition.

 

Education

Harish completed his dual degree MS & PhD in Ocean Engineering from RWTH Aachen University and Indian Institute of Technology Madras in July 2023, graduating with a summa cum laude distinction and a 9.74 CGPA. He holds a B.E. in Civil Engineering from Rajalakshmi Engineering College, Chennai, with an 8.74 CGPA. He also achieved top grades in his Higher Secondary and Matriculation courses. 🎓📚

Experience

Currently, Harish serves as a Junior Research Group Coastal Engineering Leader at IWW, RWTH Aachen University. His previous roles include Scientific Staff at IWW since October 2021 and Project Associate at IIT Madras. He has worked extensively with OpenFOAM and other CFD software, and has been involved in notable projects like the “Impact of waterborne debris on near shore structures” and “Flood-induced building damages after 2021 German floods.” 🏗️🌍

Research Focus

Harish’s research primarily investigates tsunami-like flow interactions with coastal structures. His PhD thesis delves into tsunami-induced forces on shorefront structures, leveraging both physical experiments and numerical simulations to enhance understanding and design improvements in coastal engineering. His current work includes numerical simulations of tsunami impacts and flow interactions with various structural models. 🌪️🔬

Awards

Prof. Vallam Sundar Best PhD Thesis Award (2023), Indian Society of Hydraulics (ISH) Best PhD Thesis Award (2023), GATE Qualification (2016), University Rank Holder in B.E. among colleges affiliated with Anna University, Chennai. 🏆🎖️

Publications

  1. Harish, S., Sriram, V., Schüttrumpf, H., & Sannasiraj, S. A. (2021). Tsunami-like flow induced force on the structure: Prediction formulae for the horizontal force in quasi-steady flow phase. Coastal Engineering, 168, 103938.
  2. Harish, S., Sriram, V., Schüttrumpf, H., & Sannasiraj, S. A. (2022). Tsunami-like flow induced forces on the structure: Dependence of the hydrodynamic force coefficients on Froude number and flow channel width. Coastal Engineering, 172, 104078.
  3. Harish, S., Sriram, V., Schüttrumpf, H., & Sannasiraj, S. A. (2022). Tsunami-like Flow-Induced Forces on the Landward Structure behind a Vertical Seawall with and without Recurve Using OpenFOAM. Water, 14(13), 1986.
  4. Harish, S., Sriram, V., Schüttrumpf, H., & Sannasiraj, S. A. (2022). Flow-structure interference effects with the surrounding structure in the choked quasi-steady condition of tsunami: Comparison with traditional obstruction approach. Applied Ocean Research, 126, 103255.
  5. Harish, S., Sriram, V., Schüttrumpf, H., & Sannasiraj, S. A. (2024). Tsunami-like flow induced forces on the building with openings and orientation in the quasi-steady flow phase. Ocean Engineering, 301, 117337.