Zainab Mahdi Saleh | Engineering | Women Researcher Award

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Mrs. Zainab Mahdi Saleh | Engineering | Women Researcher Award

An engineer at the Iraqi Ministry of Health at University of Babylon, Iraq

Mrs. Zainab Mahdi Saleh is an accomplished mechanical engineer specializing in thermodynamics, currently pursuing a Ph.D. at the University of Babylon. She holds a Master’s degree from the University of Wasit and has conducted significant research on energy-efficient cooling systems, publishing multiple papers on desiccant wheel performance and heat transfer enhancement. With extensive experience in mechanical systems, she has held various leadership roles in hospital infrastructure management, overseeing central cooling, generators, and medical oxygen systems. Proficient in ANSYS and other engineering software, she combines theoretical expertise with practical applications. A dedicated educator, she serves as an Assistant Lecturer and is an active member of the Iraqi Engineers Union. Her strong English proficiency and technical skills make her a valuable contributor to the field. To further enhance her impact, she aims to expand her research internationally, secure funding, and mentor young engineers, particularly women in STEM.

Professional Profile

Education

Mrs. Zainab Mahdi Saleh has a strong academic background in mechanical engineering, specializing in thermodynamics. She earned her Bachelor’s degree in Mechanical Engineering from the University of Thi Qar in 2008 and later pursued a Master’s degree in Mechanical Engineering at the University of Wasit, which she completed in 2020. Currently, she is a Ph.D. candidate at the University of Babylon, focusing on advanced research in thermodynamics. Her academic journey reflects a commitment to scientific excellence and continuous learning. Throughout her studies, she has developed expertise in energy-efficient cooling systems and heat transfer enhancement, contributing to innovative research in her field. She has also undertaken specialized courses in mechanical engineering, ANSYS software, and teaching methodologies, further strengthening her technical and instructional capabilities. Her dedication to education and research positions her as a leading figure in engineering, striving to make meaningful contributions to both academia and industry.

Professional Experience

Mrs. Zainab Mahdi Saleh has extensive professional experience in mechanical engineering, specializing in thermodynamics and energy systems. She has held various leadership positions in healthcare infrastructure management, overseeing critical mechanical systems such as central cooling, generators, and medical oxygen units. Her career began as a Maintenance Unit Supervisor at Al-Hay Health Sector in 2009, followed by roles at Al-Karama Teaching Hospital and Badra Model Health Center, where she managed mechanical and generator maintenance. She later advanced to Assistant Head of the Mechanical Division at Al-Zahraa Teaching Hospital, eventually becoming the Supervisor of both the Central Cooling and Medical Oxygen Units. In addition to her technical expertise, she serves as an Assistant Lecturer, contributing to academic research and mentoring students in mechanical engineering. Her combined experience in practical engineering applications and academia positions her as a leader in the field, bridging the gap between research and real-world industrial challenges.

Research Interest

Mrs. Zainab Mahdi Saleh’s research interests lie in the fields of thermodynamics, heat transfer enhancement, and energy-efficient cooling systems. She focuses on optimizing the performance of desiccant wheel technology to reduce latent heat loads in air conditioning systems, contributing to improved energy efficiency and sustainability. Her work also explores innovative heat transfer techniques in double-pipe heat exchangers, utilizing advanced methods such as wavy edge twisted tapes with varying twist ratios and perforated diameters to enhance thermal performance. With a strong background in both theoretical and experimental studies, she aims to develop practical solutions for industrial and environmental applications. Additionally, her expertise in mechanical systems, including medical oxygen and central cooling units, allows her to bridge the gap between research and real-world engineering challenges. By expanding her studies to include renewable energy integration, she seeks to further advance sustainable thermal management technologies for future applications.

Award and Honor

Mrs. Zainab Mahdi Saleh has earned recognition for her contributions to mechanical engineering, particularly in the field of thermodynamics and energy-efficient cooling systems. As an accomplished researcher, she has published multiple scientific papers in reputable university journals, showcasing her expertise in heat transfer enhancement and desiccant wheel technology. Her dedication to academia and research has positioned her as a respected scholar in her field. In addition to her academic achievements, she has held leadership roles in various healthcare institutions, demonstrating her ability to apply engineering principles to critical infrastructure management. Her commitment to education is evident in her role as an Assistant Lecturer, where she mentors and guides students in mechanical engineering. As a member of the Iraqi Engineers Union, she actively contributes to the engineering community. While she continues to advance her research, further recognition through national and international awards would strengthen her impact and professional standing.

Research Skill

Mrs. Zainab Mahdi Saleh possesses strong research skills in thermodynamics, heat transfer, and energy-efficient cooling systems. She excels in both theoretical and experimental research, demonstrated by her studies on desiccant wheel performance and heat exchangers. Her expertise includes conducting experimental setups, data analysis, and computational simulations using ANSYS software, enhancing the accuracy and efficiency of her findings. She is skilled in designing and optimizing mechanical systems to improve energy performance, particularly in HVAC and industrial cooling applications. Her ability to integrate engineering principles with real-world applications is evident in her research on moisture adsorption materials and innovative heat transfer techniques. Additionally, she is proficient in academic writing and has successfully published her work in university journals. Her analytical approach, problem-solving abilities, and technical expertise make her a valuable contributor to the field. As she advances in her Ph.D. research, her skills continue to evolve, driving innovation in mechanical engineering.

Conclusion

Zainab Mahdi Saleh is a strong candidate for the Women Researcher Award, given her academic achievements, research contributions, technical expertise, and leadership in the field of mechanical engineering. Her work on energy-efficient cooling and heat transfer enhancement is highly relevant to sustainability and industrial advancements.

To further enhance her candidacy, she could focus on expanding her research to international platforms, securing research funding, and mentoring the next generation of engineers, particularly women in STEM. Overall, her profile reflects dedication, technical excellence, and leadership, making her a deserving contender for this prestigious award.

Publications Top Noted

  • Title: “Theoretical Performance of Silica Gel Desiccant Wheel”

    • Authors: ZM Salih, ADM Hassan, AM Al-Dabagh
    • Journal: Wasit Journal of Engineering Sciences, Volume 7, Issue 3, Pages 66-74
    • Year: 2019
    • Citations: 1

  • Title: “The Experimentally Studying of Solid Desiccant Wheel Performance Combined with the System of Air Conditioning”

    • Authors: ZM Salih, ADM Hassen, AM Al-Dabagh
    • Journal: Journal of University of Babylon for Engineering Sciences, Pages 50-59
    • Year: 2019
    • Citations: 1

 

 

Tao Yu | Engineering | Best Researcher Award

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🌟Dr. Tao Yu, Engineering, Best Researcher Award🏆

  • Doctorate at McGill, Canada

Tao Yu is a dedicated Postdoctoral Researcher specializing in combustion diagnostics at McGill University’s Alternative Fuels Laboratory. With a Ph.D. in Mechanical Engineering from Shanghai Jiao Tong University, he has garnered expertise in advanced optical diagnostics for studying fundamental combustion phenomena. Tao’s research is motivated by the urgent need to develop sustainable fuels and mitigate carbon emissions, addressing critical challenges posed by climate change and energy scarcity.

Author Metrics:

Tao Yu has established a strong academic presence with over 640 citations to his journal publications. His contributions to the field of combustion diagnostics have been recognized internationally through presentations at prestigious conferences and invitations to review articles for leading journals in optics, combustion, and engineering.

Scopus Profile

Google Scholar Profile

Tao Yu. Based on the provided details, Tao Yu has an h-index of 17 and has been cited 623 times across 381 documents. This suggests significant impact and influence within their field of research. Tao Yu’s affiliation is with King Abdullah University of Science and Technology in Thuwal, Saudi Arabia.

Education:

Tao completed his Ph.D. in Mechanical Engineering from Shanghai Jiao Tong University, where he investigated flame emission tomography and tomographic absorption spectroscopy. He also pursued doctoral joint training at Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany, focusing on 4D primary particle size evaluation. Prior to his doctoral studies, he obtained a Bachelor’s degree in Automobile Application Engineering from Jilin University.

Research Focus:

Tao’s research centers on the development and application of advanced optical diagnostics for understanding combustion phenomena of recyclable and sustainable fuels. His expertise encompasses techniques such as emission spectroscopy, Raman spectroscopy, and tomography (including 4D tomography). He aims to bridge the gap between fundamental combustion science and practical applications to address pressing environmental and energy challenges.

Professional Journey:

Tao’s professional journey spans research positions at esteemed institutions including McGill University and the Clean Combustion Research Center of KAUST. He has led projects on optical diagnostics for aluminum dust flames and hydrogen production from aluminum-water reactions. His contributions have been instrumental in advancing the understanding of combustion processes and facilitating the development of cleaner energy technologies.

Honors & Awards:

Tao has received several prestigious honors and awards, including nominations for Excellent PhD Dissertation from IC Engine Society and Shanghai Jiao Tong University. He has also been recognized with scholarships such as the Postdoctoral Development Scholarship and the Ruth Mulan Chu Chao Scholarship for his outstanding academic achievements.

Publications Noted & Contributions:

Tao’s publications encompass a wide range of topics in combustion diagnostics, tomographic imaging, and spectroscopic techniques. His notable contributions include papers in renowned journals such as Optics Express, Optics Letters, and Review of Scientific Instruments, providing valuable insights into combustion processes and advancing the field of sustainable energy.

Three-dimensional particle size determination in a laminar diffusion flame by tomographic laser-induced incandescence

  • Authors: FJ Bauer, T Yu, W Cai, FJT Huber, S Will
  • Published in Applied Physics B in 2021
  • This paper presents a method for determining three-dimensional particle sizes in a laminar diffusion flame using tomographic laser-induced incandescence.

Experimental characterization of flame/flow dynamics during transition between stable and thermo-acoustically unstable conditions in a gas turbine model combustor

  • Authors: C Ruan, F Chen, T Yu, W Cai, X Li, X Lu
  • Published in Aerospace Science and Technology in 2020
  • The study investigates the flame and flow dynamics during the transition from stable to thermo-acoustically unstable conditions in a gas turbine model combustor.

Temperature dependent Raman spectra of ammonia ranging from 3150 cm−1 to 3810 cm−1 for combustion applications

  • Authors: C Yang, D Ezendeeva, T Yu, G Magnotti
  • Published in Optics Express in 2021
  • This paper presents temperature-dependent Raman spectra of ammonia for combustion applications over a range of wavelengths.

Fiber-bundle-based 2D Raman and Rayleigh imaging for major species and temperature measurement in laminar flames

  • Authors: T Yu, C Yang, P Sharma, AS AlRamadan, G Magnotti
  • Published in Optics Letters in 2022
  • The paper introduces a fiber-bundle-based 2D Raman and Rayleigh imaging system for measuring major species and temperature in laminar flames.

High-Speed 2-D Raman and Rayleigh Imaging of a Hydrogen Jet Issued from a Hollow-Cone Piezo Injector

  • Authors: B Wu, P Sharma, T Yu, L Palombi, H Wu, MB Houidi, N Panthi, W Roberts, …
  • Published in an SAE Technical Paper in 2023
  • This paper describes high-speed 2D Raman and Rayleigh imaging of a hydrogen jet issued from a hollow-cone piezo injector.

Research Timeline:

Tao’s research journey began with his Ph.D. studies at Shanghai Jiao Tong University, where he conducted groundbreaking research on flame emission tomography and tomographic absorption spectroscopy. He then pursued postdoctoral positions at McGill University and KAUST, leading projects on optical diagnostics for various combustion processes. His research timeline reflects a continuous commitment to advancing knowledge in combustion science and addressing global energy challenges.

Collaborations and Projects:

Throughout his career, Tao has collaborated with leading researchers and contributed to impactful projects in combustion science. Notable collaborations include his work at McGill University, where he led projects on aluminum dust flames and hydrogen production. His multidisciplinary collaborations have enabled him to tackle complex research questions and develop innovative solutions for sustainable energy production and carbon emission reduction.

Rocco Mozzillo | Engineering | Best Researcher Award

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🌟Assoc Prof Dr. Rocco Mozzillo, Engineering, Best Researcher Award🏆

  •  Associate Professor at Università degli Studi della Basilicata, Italy

Rocco Mozzillo is an Italian engineer with extensive experience in academia and industry. He holds a Ph.D. in Engineering of Mechanical Systems from the University of Naples Federico II. His expertise lies in mechanical design, digital manufacturing, remote handling, maintenance manuals, and virtual reality. Mozzillo has a strong background in industrial engineering, particularly in yacht production and shipbuilding. He has also worked as a consultant for various companies, providing expertise in areas such as human modeling, CAD design, and FEM analysis. Mozzillo’s artistic pursuits include music, with qualifications in music theory and piano. Fluent in both Italian and English, he is also certified in various software tools and holds driving licenses for categories A and B.

Author Metrics:

Author metrics, such as citation counts, h-index, and impact factor of journals, are not provided in the given information. However, as an academic researcher and Assistant Professor, Rocco Mozzillo may have a track record of publications in peer-reviewed journals and conferences. These publications, along with any associated metrics, would reflect his impact and influence within the engineering community.

Scopus Profile

Google Scholar Profile

 Mozzillo’s research contributions can be further explored and attributed. His work has garnered 1,019 citations across 60 documents, highlighting the impact and relevance of his research. Moreover, he has achieved an h-index of 17, indicating that 17 of his papers have each been cited at least 17 times. This metric provides insight into the quality and significance of Mozzillo’s scholarly output.

Education:

Rocco Mozzillo earned his Ph.D. in Engineering of Mechanical Systems from the Industrial Engineering Department of the University of Naples Federico II. Prior to this, he completed a University Master’s degree in Industrial Engineering at the same institution. He also holds a Scientific High School diploma from the Scientific High School of Aversa “E. Fermi.” His academic journey has equipped him with skills in mathematical analysis, structural mechanics, thermodynamics, mechanics of machines, industrial production management, computer-aided design, and more.

Research Focus:

Mozzillo’s research interests span various fields within engineering, including mechanical design, digital manufacturing, virtual reality, and remote handling. He has been involved in projects focusing on smart factories, ergonomic improvements, safety enhancements, and innovative certification methods. His work in the SMART FACTORIES project emphasized the use of virtual reality to enhance ergonomics and safety in manufacturing environments. Additionally, his contributions to the CERVIA project involved innovative certification and verification methods. Mozzillo’s research reflects a commitment to advancing engineering practices and technologies for real-world applications.

Professional Journey:

Rocco Mozzillo has held several positions throughout his professional journey, combining academic roles with consultancy and industry experience. He started as an industrial engineer, working on production control and engineering for luxury yacht manufacturing at APREAMARE – ITAMA Spa, part of the Ferretti Group. Subsequently, he transitioned into academia, serving as a Post-Doctoral Research Fellow at the University of Naples Federico II. During this time, he contributed to various projects related to fusion reactors, remote handling tools, and mechanical design. Mozzillo also worked as a consultant for companies like Protom Group Spa and PROMEC SRL, providing expertise in mechanical design, CAD tools, and remote maintenance.

Honors & Awards:

Rocco Mozzillo’s contributions to the field of engineering have been recognized through various honors and awards. While specific awards are not mentioned in the provided information, his extensive work in academia, industry, and consultancy suggests a high level of expertise and dedication. His involvement in research projects and his role as an Assistant Professor indicate a level of recognition and achievement within his field.

Publications Noted & Contributions:

While specific publications and contributions are not listed in the provided information, Rocco Mozzillo’s research activities and professional engagements suggest a significant body of work. As an Assistant Professor and Post-Doctoral Research Fellow, he likely has contributed to academic publications, conference papers, and project reports. His work in areas such as mechanical design, virtual reality, and smart factories may have resulted in contributions to advancements in engineering practices and technologies.

“Human-Robot Collaboration: An Augmented Reality Toolkit for Bi-Directional Interaction”
Authors: G Carriero, N Calzone, M Sileo, F Pierri, F Caccavale, R Mozzillo
Published in Applied Sciences, Volume 13, Issue 20, Pages 11295
Year: 2023

“Design and integration of the WCLL Tritium Extraction and Removal System into the European DEMO tokamak Reactor”
Authors: M Utili, C Alberghi, R Bonifetto, L Candido, A Collaku, B Garcinuño, …
Published in Energies, Volume 16, Issue 13, Pages 5231
Year: 2023

“Mixed reality platform supporting human-robot interaction”
Authors: N Calzone, M Sileo, R Mozzillo, F Pierri, F Caccavale
Presented at the International Joint Conference on Mechanics, Design Engineering & Advanced …
Year: 2022

“Design and integration of automation systems with manual operation: small and medium enterprises issues”
Authors: R Salvato, G Marra, P Scardamaglia, G Di Gironimo, D Marzullo, …
Published in the Proceedings of Design Tools and Methods in Industrial Engineering II
Year: 2022

“Requirements engineering in complex systems design”
Authors: D Marzullo, G Di Gironimo, A Lanzotti, R Mozzillo, A Tarallo
Presented at the International Conference on Design, Simulation, Manufacturing: The …
Year: 2021

“The DTT device: Advances in conceptual design of vacuum vessel and cryostat structures”
Authors: G Di Gironimo, D Marzullo, R Mozzillo, A Tarallo, S Grazioso
Published in Fusion Engineering and Design, Volume 146, Pages 2483-2488
Year: 2019

These publications showcase Rocco Mozzillo’s contributions to various fields such as human-robot interaction, design and integration of complex systems, and conceptual design in fusion engineering.

Research Timeline:

Rocco Mozzillo’s research timeline spans from his doctoral studies to his current position as an Assistant Professor. His research journey includes involvement in various projects focused on smart factories, fusion reactors, remote handling tools, and mechanical design. Starting from his doctoral research, Mozzillo has continuously expanded his expertise and made significant contributions to advancing engineering knowledge and technologies.

Collaborations and Projects:

Throughout his career, Rocco Mozzillo has collaborated with various institutions, consortia, and companies on research projects and consultancy assignments. These collaborations have involved universities such as the University of Naples Federico II and Basilicata University, as well as industry consortia like CREATE Consortium and companies like Protom Group Spa and PROMEC SRL. His projects have covered a wide range of areas, including smart factories, fusion reactors, remote handling tools, and mechanical design, showcasing his versatility and interdisciplinary approach to engineering challenges.