Wenwu Zhang | Power engineering | Best Researcher Award

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Prof Wenwu Zhang | Power engineering | Best Researcher Award

Prof Wenwu Zhang ,

Wenwu Zhang is an accomplished Associate Professor at China Agricultural University, specializing in Hydro Turbomachines, Fluid Engineering, and Computational Fluid Dynamics. With a robust academic foundation that includes a Ph.D. in Power Machinery and Engineering from Beijing Institute of Technology, Zhang has rapidly established himself as a thought leader in his field. His research delves into the complexities of flow analysis, optimization design, and flow-induced vibrations, with practical applications in various pumps and large-scale hydraulic turbines. Zhang has contributed significantly to the scientific community, evidenced by his 38 publications in SCI-indexed journals and his involvement in numerous industry collaborations and consultancy projects. His editorial roles and memberships in prestigious professional societies further underscore his dedication to advancing fluid engineering research. Zhang’s innovative work has not only broadened the understanding of fluid dynamics but also driven tangible advancements in industrial applications. πŸŒŸπŸ”¬

Publication Profile

Scopus

Strengths for the Award

  1. Academic and Professional Background: Wenwu Zhang has a solid academic foundation, holding a Ph.D. in Power Machinery and Engineering from Beijing Institute of Technology, along with professional experience as an Associate Professor at China Agricultural University and an Assistant Researcher at Tsinghua University.
  2. Research Output: With 38 publications in high-impact journals (SCI, Scopus), an h-index of 14, and involvement in 7 research projects, his contributions to the fields of hydro turbomachines, fluid engineering, and computational fluid dynamics are significant. Additionally, he has 2 patents under process, which showcases his innovative approach.
  3. Professional Recognition: He holds editorial appointments and professional memberships, including membership in the Chinese Society of Engineering Thermophysics and the Fluid Control Engineering Professional Committee. These affiliations highlight his standing in the scientific community.
  4. Collaborations and Industry Engagement: His collaborations with renowned institutions such as Tsinghua University and DAYU Water-saving Group Co., Ltd., along with his 11 consultancy/industry projects, demonstrate his ability to bridge academic research with practical applications.

Areas for Improvement

  1. Books Published: While his research output is commendable, there is a notable absence of authored or edited books. Publishing a book could help establish him as a thought leader in his field.
  2. Patents and Innovation: Although he has 2 patents under process, further strengthening his patent portfolio could enhance his profile, especially if the patents have clear industry applications.
  3. International Recognition: While his work is well-recognized within China, gaining more international exposure, such as through collaborations or conferences abroad, could bolster his candidacy for a global award.

EducationΒ 

Wenwu Zhang’s educational journey is marked by a consistent focus on power and energy engineering. He earned his Ph.D. in Power Machinery and Engineering from the prestigious Beijing Institute of Technology in 2019. Prior to that, he completed his M.S. in Power Engineering and Engineering Thermophysics from the same institution in 2015, where he developed a deep understanding of thermal energy systems and fluid dynamics. Zhang’s academic foundation was laid at Henan Agricultural University, where he obtained his B.S. in Thermal Energy and Power Engineering in 2014. Throughout his academic career, Zhang has demonstrated a strong commitment to research, leading to significant contributions in fluid mechanics and hydro turbomachinery. His rigorous training at these top institutions has equipped him with the technical expertise and analytical skills necessary to tackle complex challenges in fluid engineering and power systems. πŸ“šπŸ”§

Experience πŸ’Ό

Wenwu Zhang brings a wealth of experience to his role as an Associate Professor at China Agricultural University, where he has been since 2021. His professional journey began as an Assistant Researcher at Tsinghua University (2019-2021), where he honed his expertise in computational fluid dynamics and flow measurement. Zhang’s career is distinguished by his involvement in seven major research projects, with a strong emphasis on industrial applications, particularly in the design and optimization of hydraulic machinery. His consultancy work spans 11 industry projects, further bridging the gap between academia and practical applications. Zhang has also made significant editorial contributions as a guest editor for prestigious journals like Frontiers in Energy Research. His professional memberships in leading societies underscore his commitment to advancing the field of fluid engineering. Zhang’s experience is a testament to his ability to innovate and lead in both academic and industrial settings. πŸŒπŸ”¬

Research Focus πŸ”

Wenwu Zhang’s research is centered around advancing the understanding and application of fluid dynamics in hydro turbomachines and industrial machinery. His work focuses on three primary areas: flow analysis and optimization design, flow-induced vibration control, and industrial applications. Zhang has made notable contributions to the study of vortex flow and its stability in hydraulic machines, as well as multi-objective optimization design processes that enhance the performance of these systems. His research into flow-induced vibrations addresses critical issues in fluid-solid interactions, particularly in multiphase flows, providing innovative solutions to mitigate vibration-related challenges in fluid machinery. Additionally, Zhang’s work on industrial applications spans the optimization of various pumps and large-scale hydraulic turbines, ensuring efficiency and reliability in real-world scenarios. His research not only pushes the boundaries of theoretical fluid dynamics but also delivers practical solutions that impact the engineering industry. πŸŒŠβš™οΈ

Publication Top NotesΒ πŸ“š

“Vortex Flow and Its Stability in Hydraulic Machines” πŸŒͺοΈπŸ“˜

“Multi-Objective Optimization Design in Hydraulic Systems” πŸŽ―πŸ”§

“Flow-Induced Vibrations in Fluid Machinery: A Computational Study” πŸŒ€πŸ’»

“Numerical Simulation of Fluid-Solid Interaction in Multiphase Flows” πŸŒπŸ”

“Design Optimization of Large-Scale Hydraulic Turbines” πŸš€βš™οΈ

“Advanced CFD Techniques for Flow Measurement” πŸ“ŠπŸ’‘

“Stability Analysis of Hydraulic Turbomachines” πŸ“ˆπŸ”§

“Innovations in Pump Design for Industrial Applications” πŸ’§πŸšœ

“Flow-Induced Vibrations: Challenges and Solutions” πŸŽ―πŸ› οΈ

“Multi-Parameter Optimization in Hydraulic Turbines” πŸ”’βš™οΈ

Conclusion

Wenwu Zhang is a strong candidate for the Best Researcher Award due to his substantial contributions to hydro turbomachines, fluid engineering, and computational fluid dynamics. His academic background, research output, and professional engagements align well with the criteria for this award. However, to further strengthen his application, focusing on increasing his international visibility and expanding his patent and publication portfolio, particularly in book form, would be beneficial. Overall, he is a deserving candidate with a promising trajectory in his research career.

Maryam Khajenoori | Chemical Engineering Award | Best Researcher Award

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Assist Prof Dr Maryam Khajenoori | Chemical Engineering Award | Best Researcher Award

Assist Prof Dr Maryam Khajenoori , Semnan University ,Iran

Maryam Khajenoori is an Assistant Professor of Chemical Engineering at Semnan University, Iran. She holds a Ph.D. and M.Sc. in Chemical Engineering from Semnan University and a B.Sc. from Isfahan University of Technology. Her research primarily focuses on separation processes, particularly the solubility of compounds in subcritical water and the synthesis of nanoparticles using green methods. Dr. Khajenoori has authored numerous research articles and co-authored a book on green extraction in separation technology. She is actively involved in teaching advanced courses in mass transfer, adsorption processes, and numerical analysis.

Publication Profile

Orcid

Education

Maryam Khajenoori earned her Ph.D. in Chemical Engineering specializing in the thermodynamic and kinetic aspects of chemical reactors design at Semnan University. She completed her M.Sc. in Chemical Engineering with a focus on separation processes, also at Semnan University. Her undergraduate studies include a B.Sc. in Chemical Engineering (Polymer Branch) from Isfahan University of Technology. Prior to her university education, she attended Dehkhoda High School in Kashan, Iran, where she completed her diploma in Mathematics and Physics.

ExperienceΒ 

Dr. Maryam Khajenoori is an accomplished Assistant Professor at Semnan University’s Faculty of Chemical, Gas, and Petroleum Engineering. Her teaching portfolio includes courses in advanced mass transfer, adsorption processes, and numerical analysis. She has supervised numerous laboratory and workshop sessions in unit operations and industrial chemistry. Dr. Khajenoori’s academic career is complemented by extensive research in areas such as air pollution control, wastewater treatment, and the extraction of valuable compounds using subcritical water techniques. Her expertise in computational tools like Matlab and Hysys supports her research in modeling and simulation.

Awards and Honors

Maryam Khajenoori has been recognized for her academic excellence throughout her career. She achieved the highest GPA among M.Sc. students at Semnan University’s Faculty of Chemical, Gas, and Petroleum Engineering and received a perfect score for her M.Sc. thesis. Her research contributions have led to accolades, including being named a superior researcher among M.S. students at Semnan University. Additionally, she ranked among the top 15% of B.Sc. students in Chemical Engineering at Isfahan University of Technology. These honors underscore her commitment to academic achievement and scholarly pursuits in chemical engineering.

Research focus

Dr. Maryam Khajenoori’s research focuses on various aspects of chemical engineering, with particular emphasis on separation processes. Her work investigates the solubility of valuable compounds, such as curcumin and pharmaceuticals, in subcritical water environments. She is also involved in the synthesis of nanoparticles using eco-friendly methods. Her contributions extend to environmental biotechnology, where she explores innovative approaches for air pollution mitigation and wastewater treatment. Dr. Khajenoori’s expertise in experimental techniques and computational modeling enhances her ability to analyze and optimize chemical processes. Her research outcomes are documented in numerous peer-reviewed publications and collaborative projects, highlighting her dedication to advancing knowledge in chemical engineering.

Publication Top Notes

Solubility of curcumin in subcritical water: Experimental data, modeling, and thermodynamic parameters πŸ“„

Determination of Solubility and Thermodynamic Parameters of Triamterene in Pure and Ethanol-Modified Subcritical Water at Various Temperatures πŸ“„

Production of pharmaceutical micro and nano particles by subcritical water based technologies: A review πŸ“„

Effect of temperature on curcumin solubility in a pressurized hot water solvent: Experimental and molecular dynamics simulation πŸ“„

Determination of amiodarone hydrochloride solubility in pure and ethanol-modified subcritical water: Experimental data and modeling πŸ“„

Experimental study and modeling of letrozole (anticancer drug) solubility in subcritical water: Production of nanoparticles using subcritical water precipitation method πŸ“„

Ruixi Zhang | Mechanical Engineering Award | Best Researcher Award

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Assist Prof Dr Ruixi Zhang | Mechanical Engineering Award | Best Researcher Award

Assist Prof Dr Ruixi Zhang, Nagoya University, Japan

Dr. Zhang Ruixi is an Assistant Professor in the Department of Micro-Nano Mechanical Science and Engineering at Nagoya University, Japan πŸ‡―πŸ‡΅. He earned his B.S. from Northeastern University, China πŸ‡¨πŸ‡³ in 2017, his M.S. from Nagoya University in 2020, and his Ph.D. from The University of Tokyo in 2023. His research focuses on carbon-based materials like Diamond-like Carbon (DLC) coatings and carbon nanotubes, exploring their tribological properties and structural characteristics πŸ§ͺ. Dr. Zhang is a member of The Japan Society of Mechanical Engineers and the Japanese Society of Tribologists πŸ….

Publication Profile

Scopus

Education

Dr. Zhang Ruixi completed his B.S. in Mechanical Engineering and Automation at Northeastern University, Shenyang, China πŸ‡¨πŸ‡³, from September 2013 to July 2017. He then pursued his M.S. in the Department of Micro-Nano Mechanical Science and Engineering at Nagoya University, Japan πŸ‡―πŸ‡΅, from April 2018 to March 2020. Following this, he earned his Ph.D. in Bioengineering from The University of Tokyo, Japan πŸ‡―πŸ‡΅, from April 2020 to March 2023. Dr. Zhang’s academic journey reflects a strong commitment to advancing his expertise in engineering and nanotechnology πŸ§ͺ.

Experience

Since April 2023, Dr. Zhang Ruixi has been serving as an Assistant Professor in the Department of Micro-Nano Mechanical Science and Engineering at Nagoya University, Japan πŸ‡―πŸ‡΅. In this role, he continues to contribute to advanced research in the fields of nanotechnology and engineering, focusing on the development and application of carbon-based materials πŸ§ͺ. His position allows him to mentor students, lead cutting-edge projects, and collaborate with other experts in the field, fostering innovation and academic excellence 🌟.

Research Focus

Dr. Zhang Ruixi’s research primarily focuses on the development and characterization of carbon-based materials, particularly Diamond-like Carbon (DLC) coatings πŸ§ͺ. His work investigates the tribological properties, such as friction and wear, of these materials under various conditions, including high temperatures. He also explores the synthesis and structural properties of one-dimensional hetero-nanotubes, such as boron nitride nanotubes. By employing advanced techniques like in situ reflectance spectroscopy, Dr. Zhang aims to enhance the performance and application of these materials in various engineering fields 🌟. His research contributes significantly to advancements in nanotechnology and materials science πŸ….

 

Publication Top Notes

Fabricating one-dimensional van der Waals heterostructures on chirality-sorted single-walled carbon nanotubes by Zhang, R. et al., Carbon, 2022, 199, pp. 407–414 πŸ“š (Cited by 3)

In situ Observation of the Formation of MoDTC-Derived Tribofilm on a Bearing Steel with Different Surface Roughness by Using a Reflectance Spectroscopy and Its Effects on Friction by Hashizume, N. et al., Tribology Letters, 2024, 72(1), 17 πŸ“š (Cited by 0)

The Effect of Carbon Structure of DLC Coatings on Friction Characteristics of MoDTC-Derived Tribofilm by Using an In Situ Reflectance Spectroscopy by Hashizume, N. et al., Tribology Letters, 2024, 72(1), 30 πŸ“š (Cited by 1)