Ms. Cláudia Ferreira | Energy Harvest | Best Researcher Award

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Ms. Cláudia Ferreira | Energy Harvest | Best Researcher Award

Ms. Cláudia Ferreira | Tyndall National Institute | Ireland

🌟 Ana Cláudia Ferreira is a PhD candidate at University College Cork, specializing in biomedical engineering and developing a smart bolus system for multi-parameter monitoring of bovine ruminal fluid 🐄. Her PhD project is a collaboration between Tyndall National Institute and VistaMilk SFI Research Centre 🌐. Ana has a Master’s in Biomedical Engineering from the University of Minho, with a specialization in Medical Electronics 🧑‍🔬. She has participated in several international conferences, presenting her innovative work on electrochemical devices and health monitoring technologies 💡. Ana is passionate about advancing healthcare solutions and sustainable technologies 🌱.

Professional Profile:

ORCID

Suitability for Best Researcher award

Ana Cláudia Ferreira is an outstanding candidate for the Best Researcher award due to her exceptional contributions to the field of biomedical engineering. As a PhD candidate at University College Cork, her research on developing a smart bolus system for multi-parameter monitoring of bovine ruminal fluid showcases her innovative approach to integrating health monitoring technology into animal care. This collaboration with Tyndall National Institute and VistaMilk SFI Research Centre strengthens her position as a forward-thinking researcher in both biomedical and sustainable technologies.

Education 📖 & Experience 👩‍💼

  • 📜 PhD Candidate, Engineering Science Programme, University College Cork (2021–Present)
    • PhD Project: Development of a smart bolus system for bovine health monitoring 🐄
  • 🎯 MSc in Biomedical Engineering, University of Minho (2015–2020)
    • Specialization in Medical Electronics
  • 🌍 Erasmus+ Exchange Programme, University of South-Eastern Norway (2019–2020)
  • 🏫 BSc in Biomedical Engineering (Year not specified)
  • 🔬 Research Intern, Tyndall National Institute (Oct 2020–Jan 2021)
  • 💼 Intern, Sensovann AS (Aug 2019–Jun 2020)
    • Worked on electrochemical multi-parametric device development ⚙️

Professional Development

🌱 Ana has actively developed her research skills through internships and conference presentations 🌍. As a PhD candidate, she collaborates with Tyndall National Institute and VistaMilk SFI Research Centre, exploring innovative solutions in health monitoring and energy harvesting technologies 💡. Ana presented her work at international forums, such as the 33rd World Congress on Biosensors 🧬 in Busan, Korea, and the 8th International Conference on Bio-Sensing Technology in Seville, Spain 🇰🇷🇪🇸. Her academic journey reflects a commitment to merging technology with healthcare, enhancing sustainable solutions for agriculture and biomedical sectors 🧑‍🔬.

Research Focus 

🔬 Ana’s research focuses on biomedical engineering and the development of smart devices for health monitoring. Her primary project involves creating a smart bolus system for multi-parameter monitoring of bovine ruminal fluid 🐄. This system aims to revolutionize livestock management by providing real-time data on cattle health 🐮. Ana also explores energy harvesting technologies ⚡, including piezoelectric energy harvesters for low-power applications in healthcare devices. Through her work, she seeks to contribute to both agricultural innovation 🌾 and biomedical applications 🏥, with an emphasis on sustainable, efficient solutions for animal and human health monitoring. 🌍

Awards & Honors 🏆 

  • 🏅 Oral presentations at prestigious conferences like the 33rd World Congress on Biosensors and EPoSS Annual Forum
  • 🌟 Poster presentations at IEEE EMBC 2022 and IEEE Region 8 Student Congress 2022
  • 🧑‍🔬 Master’s Thesis supported by the National Natural Science Foundation of China
  • 🔬 Recognition for the development of a multi-parameter biosensing smart bolus device
  • 📜 Published work on energy harvesting and biosensing technologies

Publication Top Notes:

🔬 A Fast Portable Unit for Lab-on-Site Electrochemistry – Cláudia Ferreira, Fiona Barry, Miomir Todorović, Patrick Sugrue, Sofia Rodrigues Teixeira, Paul Galvin

 

 

 

Dr. Mohamed K.M Gerwash | energy rationalization | Best Researcher Award

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Dr. Mohamed K.M Gerwash | energy rationalization | Best Researcher Award

Dr. Mohamed K.M Gerwash, Egyptian Russian University, Egypt

Mohamed Karim Mohamed Gerwash is an Egyptian researcher specializing in refrigeration, air conditioning, and energy rationalization, with a focus on renewable energy. He holds a Master’s degree in Refrigeration and Energy Rationalization and is currently pursuing a Ph.D. in the same field. He works at the Science & Innovation Centre of Excellence at the Egyptian Russian University. Mohamed has extensive industry experience in HVAC design, maintenance, and sustainability. He is passionate about green energy, water desalination, and recycling, and has published multiple articles in peer-reviewed journals. 🏫🌱

Professional Profile:

Orcid

Suitability Summary for Best Researcher Award

Mohamed Karim Mohamed Gerwash is a highly suitable candidate for the Best Researcher Award based on his extensive academic and professional contributions, particularly in the fields of refrigeration, air conditioning, energy rationalization, and sustainable energy solutions.

Education and Experience 📘

  • 🎓 Diploma in Industrial Refrigeration and Air Conditioning (2005–2006)
  • 🎓 Bachelor’s in Cooling and Air Conditioning Technology – Helwan University (2010)
  • 🎓 Master’s in Refrigeration, Air Conditioning, and Energy Rationalization – Specialization in Renewable Energy (2019)
  • 🎓 Ph.D. Researcher – Refrigeration, Air Conditioning, and Energy Rationalization – Egyptian Russian University (2020–Present)
  • 🧑‍🔬 Researcher – Science & Innovation Centre of Excellence, Egyptian Russian University (2023–Present)

Professional Development 🌱

Mohamed Karim Mohamed Gerwash has a strong professional background in refrigeration and air conditioning, with hands-on experience in maintenance, fault detection, and system design. He has contributed to the design and implementation of HVAC systems for universities and industries and has worked as a maintenance department manager at Venice Ceramics Company. His research explores energy-efficient technologies, water desalination, and sustainable energy solutions. Mohamed’s engagement in multiple conferences and achievements in university competitions further highlight his professional commitment and growth. 💡🌍

Research Focus 🔬

Mohamed’s research interests primarily focus on sustainable technologies and green energy solutions. His areas of expertise include:

  • ❄️ Refrigeration and Air Conditioning – Exploring energy-efficient systems.
  • 🌱 Sustainability – Investigating eco-friendly practices in HVAC and energy use.
  • 💧 Water Desalination – Developing systems for fresh water production.
  • 🌿 Green Energy – Research on renewable energy, including hydrogen and industrial waste recycling.
    His work aims to reduce environmental impact and improve efficiency across various sectors. 🌍💧

Awards and Honors 🏆

  • 🥇 First Place in Innovators Support Fund – Egyptian Russian University (2024)
  • 🎓 STDF Project Initiator – Project on Sustainable Refrigeration (2023)
  • 📚 Published Articles in Peer-Reviewed Journals – Industrial Technology Journal & Hydrogen (2024)

Publication Top Notes:

📚 “Sustainable Production of Green Oxy-Hydrogen from Vehicles’ Air Conditioning Drains to Enhance Engine Efficiency and Reduce Greenhouse Gas Emissions”
🌱🚗

📚 “The impact of pulse width modulation (PWM) on the generation of hydroxy gas (HHO)”
⚡🔋

 

Mr. Ifeanyi Uwaoma | Thermal Engineering Award | Industry Innovator Excellence Award

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Mr. Ifeanyi Uwaoma | Thermal Engineering Award | Industry Innovator Excellence Award

Mr. Ifeanyi Uwaoma , Caterpillar Inc., United States

Ifeanyi (Augustine) Uwaoma is a self-motivated mechanical fluid expert with over 10 years of experience in the oil and gas industry and research. He holds a Master of Science in Mechanical Engineering from Oregon State University and a Master’s in Engineering Management from the University of Benin, Nigeria, along with a Bachelor’s in Petroleum Engineering. Currently serving as a Mechanical Engineer 3 at Harvey Nash Inc. (Caterpillar), Uwaoma leads the development of innovative machine fluids, emphasizing renewable and alternative fuels. His expertise encompasses wick design, nanofabrication, solar desalination processes, and heat transfer technologies. Uwaoma is an active member of several professional organizations, including the American Society of Mechanical Engineers (ASME) and the Society for Petroleum Engineers (SPE). His research contributions have been recognized through multiple awards and honors, including induction into the Marquis Inner Circle Beta Professional Community.

Professional Profile:

Google Scholar

Suitability for the Research for Industry Innovator Excellence Award

Ifeanyi (Augustine) Uwaoma presents a compelling case for the Research for Industry Innovator Excellence Award due to his extensive expertise, impactful contributions, and innovative approaches in mechanical and petroleum engineering, particularly within the domains of renewable energy and fluid mechanics.

🎓Education:

Ifeanyi Uwaoma holds a Master of Science in Mechanical Engineering from Oregon State University in Corvallis, Oregon, which he obtained in September 2021. He also earned a Master of Science in Engineering Management from the University of Benin in Benin City, Edo, Nigeria, in July 2017. Uwaoma completed his undergraduate studies with a Bachelor of Engineering in Petroleum Engineering from the same institution in December 2010.

🏢Work Experience:

Ifeanyi Uwaoma currently serves as a Mechanical Engineer 3 at Harvey Nash Inc. (Caterpillar) since July 2022, where he leads the development of machine fluids, including biofuels and alternative fuels, while collaborating with both internal and external stakeholders on product design and development. Prior to this role, he was a Mechanical Project Engineer at CloudData Technology LLC from December 2021 to July 2022, where he managed mechanical design projects from concept to final design and coordinated engineering planning and troubleshooting efforts. Uwaoma gained valuable research experience as a Graduate Research Assistant at Oregon State University from September 2019 to June 2021, focusing on mass flow rates through wick structures for thermal design applications. Earlier in his career, he worked as a Senior Production/Petroleum Engineer at Dubri Oil Company Limited from July 2014 to September 2019, providing technical solutions for oil and natural gas transmission operations. He also served as a Technical Assistant at Dubri Oil Company Limited from June 2013 to July 2014, where he supported data analysis and ensured adherence to quality and regulatory guidelines.

🏅Awards and Honors:

Ifeanyi Uwaoma’s achievements include being inducted into the Marquis Inner Circle Beta Professional Community in February 2024 and selected for recognition in the Marquis Who’s Who Millennium Magazine in January 2024. In September 2019, he was awarded a multi-million grant from the U.S. Department of Energy for his contributions to potable water desalination technology. Additionally, he created a motivational video research presentation for new students at Oregon State University in August 2020.

🔬Research Focus:

Ifeanyi Uwaoma’s research focus encompasses several innovative areas, including wick design and nanofabrication for thermal applications, particularly in solar desalination processes. He is dedicated to the development of alternative and renewable fuels within mechanical systems, and he specializes in heat and mass transfer technologies, including the utilization of nanofluids. Additionally, his work emphasizes energy security and compliance in emerging technologies related to electrified fluids, contributing to advancements in sustainable energy solutions.

Publication Top Notes:

  • Title: Determination of Mass Flow Rate through Plain Mesh Wick and Nano-Structured Mesh Wick for the Design of Thermal Compressor Systems

    Cited by: 1

  • Title: Review on advanced techniques in zero liquid discharge water desalination via humidification-dehumidification within thermally-driven transport reactors
  • Title: Design parameters for fluid flow simulation through mesh wick structures for thermal compressor systems
  • Title: Experimental Characterization of Mass Transport Through Plain and Nanostructured Wick for Thermal Design Applications
  • Title: Radial Temperature Evolution of Wicked Cylindrical Tubes

 

 

 

Dr. Xiang Gong | Communication Network Protocols | Best Researcher Award

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Dr. Xiang Gong | Communication Network Protocols | Best Researcher Award

Dr. Xiang Gong, Gansu University of Political Science and Law, China

Xiang Gong is a dedicated lecturer at Gansu University of Political Science and Law in Lanzhou, China. He holds a Ph.D. in Manufacturing Information Systems from Lanzhou University of Technology. His research focuses on the Industrial Internet, security protocols, and formal analysis. With a commitment to advancing knowledge in these areas, he is recognized for his contributions to the field and actively participates in various research projects and initiatives.

Professional Profile

Orcid

Recommendation for Xiang Gong for the Best Researcher Award

Summary of Suitability for Award:

Dr. Xiang Gong is a highly accomplished lecturer at Gansu University of Political Science and Law, specializing in critical areas of research, including the Industrial Internet, security protocols, and formal analysis. With a Ph.D. in Manufacturing Information Systems from Lanzhou University of Technology, Dr. Gong has established a solid academic foundation that is reflected in his substantial contributions to the field.

Education 🎓

Xiang Gong earned his Ph.D. in Manufacturing Information Systems from the School of Computer and Communication at Lanzhou University of Technology. His education has provided a strong foundation in computer science, which he has built upon through extensive research in security protocols and the Industrial Internet. His academic journey reflects a commitment to understanding complex systems and enhancing security measures in technological applications.

Experience 💼

As a lecturer at Gansu University of Political Science and Law, Xiang Gong has cultivated a dynamic learning environment, emphasizing practical applications of his research in security protocols and the Industrial Internet. He has engaged in various projects that bridge theory and practice, including the 2023 Gansu University Research Innovation Project and the 2024 Gansu Province Higher Education Youth Doctoral Support Program. His professional experience combines teaching, research, and collaborative initiatives aimed at advancing knowledge in his fields of interest.

Awards and Honors 🏆

Xiang Gong has received notable recognition for his contributions to the academic community, including the 2023 Gansu University of Political Science and Law Research Innovation Project grant and the 2024 Gansu Province Higher Education Youth Doctoral Support Program. These honors reflect his commitment to advancing research and innovation in security protocols and the Industrial Internet. Additionally, he is actively involved in educational reform projects, contributing to the evolution of teaching methodologies in higher education.

Research Focus 🔍

Xiang Gong’s research primarily revolves around the Industrial Internet, security protocols, and formal analysis. His work aims to develop innovative solutions that enhance security in industrial applications, focusing on lightweight authentication methods and formal modeling. His publications, such as those in the Journal on Communications and Sensors, reflect a strong commitment to improving security measures in IoT and machine-to-machine communication, positioning him as a thought leader in the field.

Publication Tob Notes 📚

Enhancing MQTT-SN Security with a Lightweight PUF-Based Authentication and Encrypted Channel Establishment Scheme
PEASE: A PUF-Based Efficient Authentication and Session Establishment Protocol for Machine-to-Machine Communication in Industrial IoT
Lightweight Anonymous Authentication and Key Agreement Protocol Based on CoAP of Internet of Things

Dr. Sheng Hu | New Energy Network | Best Researcher Award

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Dr. Sheng Hu | New Energy Network | Best Researcher Award

Dr. Sheng Hu, Wuhan University of Technology, China

Dr. Sheng Hu holds an M.S. and a Ph.D. in Electrical Engineering from Huazhong University of Science and Technology. With a robust academic background and postdoctoral research experience, he has developed a strong foundation in his field. His professional journey includes a postdoctoral fellowship at Huazhong University and a visiting scholar position at Tandon School of Engineering, NYU. Currently a lecturer at Wuhan University of Technology, Dr. Hu specializes in renewable energy generation systems, control of electric machines, and power electronic converters. His innovative research addresses critical challenges in these areas, contributing significantly to advances in modeling, control, and optimization. Dr. Hu’s impactful work is reflected in his publications and his international collaboration experience, which has enriched his research with diverse methodologies and perspectives.

Professional Profile:

Scopus

Suitability for the Award

  1. Innovative Research:
    • Dr. Hu’s research includes innovative solutions for controlling renewable energy systems and improving the stability and efficiency of power electronic converters. His work on wind turbines and hybrid generation systems demonstrates his expertise in addressing contemporary challenges in energy technology.
  2. Research Impact:
    • The citation counts for his key publications indicate that his work is highly regarded by the research community. His contributions have influenced ongoing research and development in renewable energy and power electronics.
  3. Leadership and Collaboration:
    • His experience as a postdoctoral researcher and visiting scholar, along with his current role as a lecturer, showcases his leadership in research and education. His collaborative efforts with international institutions further demonstrate his commitment to advancing knowledge and technology.
  4. Educational Contributions:
    • Dr. Hu’s role as a lecturer and his involvement in research contribute to the education and development of future engineers and researchers in the field of electrical engineering.

Summary of Qualifications

  1. Educational Background:

    • M.S. in Electrical Engineering (Huazhong University of Science and Technology, 2007).
    • Ph.D. in Electrical Engineering (Huazhong University of Science and Technology, 2012).
    • His advanced education in electrical engineering, combined with postdoctoral research, provides a solid foundation for his expertise.

  2. Professional Experience:

    • Postdoctoral Research Fellow (Huazhong University of Science and Technology, 2012-2015).
    • Visiting Scholar (Tandon School of Engineering, New York University, 2018-2019).
    • Lecturer, School of Automation (Wuhan University of Technology, currently).
    • His experience includes significant research roles and international collaboration, contributing to his broad expertise in the field.

  3. Research Focus and Contributions:

    • Dr. Hu’s main research interests are in renewable energy generation systems, control of electric machines, and power electronic converters.
    • His work addresses critical challenges in renewable energy and power systems, demonstrating innovative approaches in modeling, control, and optimization.

  4. Research Impact:

    • Dr. Hu’s research has contributed significantly to the fields of renewable energy and power electronics, addressing complex issues such as voltage stability and hybrid system optimization.
    • His publications in reputable journals and conferences reflect the relevance and impact of his work in advancing technology and addressing practical challenges in energy systems.

  5. International Collaboration:

    • His role as a visiting scholar at NYU highlights his ability to collaborate on international research projects, enriching his work with diverse perspectives and advanced methodologies.

Publication Top Notes:

“Modeling and Coordinated Control Design for Brushless Doubly-Fed Induction Generator-Based Wind Turbine to Withstand Grid Voltage Unbalance” (2021), published in IEEE Access. This article, which has received 10 citations, focuses on advanced control techniques for wind turbines.

“Research on Capacity Optimization of PV-Wind-Diesel-Battery Hybrid Generation System” (2018), presented at the International Power Electronics Conference. This paper, with 7 citations, discusses optimization strategies for hybrid renewable energy systems.

“Design and Analysis of DC-Link Voltage Stabilizer for Voltage Source Converter as Connected to Weak Grid” (2018), published in Diangong Jishu Xuebao/Transactions of China Electrotechnical Society. This article, with 19 citations, explores voltage stabilization in power converters.

Conclusion

Dr. Sheng Hu is a highly suitable candidate for the Best Researcher Award due to his significant contributions to renewable energy systems and power electronics. His innovative research, impactful publications, and international collaboration underscore his excellence and leadership in the field. Dr. Hu’s work addresses critical challenges in energy technology, making him an outstanding candidate for this prestigious award.