Zhen Guo | Renewable Energy | Editorial Board Member

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Dr. Zhen Guo | Renewable Energy | Editorial Board Member

Dr. Zhen Guo | Wuhan University of Technology | China

Dr. Zhen Guo is an emerging researcher specializing in intelligent fault diagnosis, deep learning, anomaly detection, and engineering signal processing, with emphasis on developing reliable data-driven methods for modern industrial systems. His work addresses key challenges in rotating machinery, gearboxes, propellers, and wind turbines by integrating advanced machine learning models with domain-specific signal processing techniques to enhance diagnostic accuracy under real-world constraints. Dr. Guo’s research explores multi-scale wavelet decomposition, adaptive feature fusion, and high-dimensional sampling strategies to mitigate multi-level class imbalance and improve the robustness of condition-monitoring frameworks. He has introduced innovative unsupervised anomaly detection approaches using deep convolutional support generative adversarial networks, enabling effective detection in scenarios where labeled data are insufficient or costly. His contributions also include transfer-learning architectures with channel-attention residual networks and LLM-assisted fine-tuning to achieve few-shot fault recognition in complex systems such as autonomous underwater vehicle propellers. Additionally, he has advanced wavelet-random-forest methods for modeling high-dimensional imbalance samples and proposed unified pattern-fusion strategies for mining alarm data in large-scale industrial facilities using adaptive discretization and time-clustering mechanisms. Dr. Guo’s work published in leading journals such as Mechanical Systems and Signal Processing, Scientific Reports, Ocean Engineering, Measurement, and Measurement Science and Technology demonstrates his commitment to bridging the gap between theoretical advances and practical reliability engineering. Supported by competitive research funding, he continues to design predictive frameworks that improve equipment health assessment, Remaining Useful Life estimation, and maintenance decision-making across industrial environments, contributing significantly to the advancement of intelligent diagnostic technologies.

Profile: Scopus | ORCID

Featured Publications

Guo, Z. (2025). Multi-scale wavelet decomposition and feature fusion for rotating machinery fault diagnosis under multi-level class imbalance. Mechanical Systems and Signal Processing.

Guo, Z. (2025). Unsupervised anomaly detection for gearboxes based on the deep convolutional support generative adversarial network. Scientific Reports, (Published July 1, 2025).

Guo, Z. (2025). Channel attention residual transfer learning with LLM fine-tuning for few-shot fault diagnosis in autonomous underwater vehicle propellers. Ocean Engineering.

Guo, Z. (2025). Fault diagnosis of rotating machinery with high-dimensional imbalance samples based on wavelet random forest. Measurement.

Guo, Z. (2025). Alarm data mining in complex industrial facilities using adaptive discretization based on time clustering and unified pattern fusion mining. Measurement Science and Technology, (Published January 31, 2025).

Lourdes Casas Cardoso | Green Technology | Best Researcher Award

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Prof. Dr. Lourdes Casas Cardoso | Green Technology | Best Researcher Award

Professor, Universidad de Cádiz, Spain

Prof. Dr. Lourdes Casas Cardoso is a distinguished academic and researcher specializing in supercritical fluids, advanced separation processes, and supercritical impregnation, with a strong focus on sustainable applications in the agri-food and biomedical sectors. She earned her Bachelor’s Degree in Chemistry from the Marta Abreu Central University of Las Villas (UCLV), Cuba, in 1996, followed by a Master’s in Organic Chemistry with a specialization in Natural Products from the University of Havana in 2001, a Diploma in Advanced Studies from the University of Cádiz in 2004, and a PhD from the same university in 2006. She began her academic career as a professor at UCLV, Cuba, where she served for a decade, before joining the University of Cádiz, Spain, in 2007, where she advanced from researcher to full professor. Since May 2023, she has held the position of University Professor at UCA. Her research has concentrated on the reutilization of byproducts and industrial waste using innovative separation techniques, including supercritical carbon dioxide and pressurized liquids, leading to significant advancements in green technologies. She has published 80 indexed articles, six book chapters, and participated in over 80 international conferences, accumulating 1,420 citations and an h-index of 26. She has supervised four doctoral theses, directed funded research projects, coordinated multiple industry collaborations, and co-authored three patents. Additionally, she has held leadership roles such as Coordinator of the Chemical Engineering Degree at UCA and has received recognition for excellence in teaching. Her career reflects a remarkable integration of research, teaching, and innovation.

Profile:  Scopus  |  ORCID  |  Google Scholar

Featured Publications

Otero-Pareja, M. J., Casas, L., Fernández-Ponce, M. T., Mantell, C., & de la Ossa, E. M. (2015). Green extraction of antioxidants from different varieties of red grape pomace. Molecules, 20(6), 9686–9702.

Fernández-Ponce, M. T., Casas, L., Mantell, C., Rodríguez, M., & de la Ossa, E. M. (2012). Extraction of antioxidant compounds from different varieties of Mangifera indica leaves using green technologies. The Journal of Supercritical Fluids, 72, 168–175.

Fernández-Ponce, M. T., Casas, L., Mantell, C., & de la Ossa, E. M. (2015). Use of high pressure techniques to produce Mangifera indica L. leaf extracts enriched in potent antioxidant phenolic compounds. Innovative Food Science & Emerging Technologies, 29, 94–106.

Fernández-Ponce, M. T., Parjikolaei, B. R., Lari, H. N., Casas, L., Mantell, C., & de la Ossa, E. M. (2016). Pilot-plant scale extraction of phenolic compounds from mango leaves using different green techniques: Kinetic and scale up study. Chemical Engineering Journal, 299, 420–430.

El Marsni, Z., Torres, A., Varela, R. M., Molinillo, J. M. G., Casas, L., Mantell, C., & de la Ossa, E. M. (2015). Isolation of bioactive compounds from sunflower leaves (Helianthus annuus L.) extracted with supercritical carbon dioxide. Journal of Agricultural and Food Chemistry, 63(28), 6410–6421.

Hongwei Du | Green Technology | Best Researcher Award

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Dr. Hongwei Du | Green Technology | Best Researcher Award

Dr. Hongwei Du | Inner Mongolia University of Science and Technology | China

Dr. Hongwei Du is a dedicated researcher in materials science and metallurgical engineering with a strong academic background from Henan Polytechnic University and Inner Mongolia University of Science and Technology. He has gained valuable experience through internships in metallurgy, manufacturing, and heat treatment, as well as participation in research on rare earth catalyst development under the guidance of a renowned scholar. Recognized with multiple scholarships and awards, he has also excelled in academic competitions. Alongside technical expertise, he is proficient in CAD drafting and English communication, demonstrating strong organizational skills, adaptability, and a commitment to advancing laboratory analysis and research.

Publication Profile

Orcid

Academic Background

Dr. Hongwei Du has built a strong foundation in materials science and metallurgical engineering through his academic journey at Henan Polytechnic University and Inner Mongolia University of Science and Technology. His studies covered metallurgy, heat treatment principles, materials analysis, testing technology, and physical properties of materials. He gained practical skills through internships in metallurgy, manufacturing, and heat treatment processes, further supported by hands-on research in rare earth catalyst development under the guidance of a distinguished scholar. His academic achievements, scholarships, and competition awards highlight his dedication, while his technical skills and adaptability reflect his potential for impactful research.

Professional Experience

Dr. Hongwei Du has cultivated significant professional experience through a combination of academic research, internships, and extracurricular engagements. He worked with metallurgical companies where he gained practical exposure to manufacturing, forging, and heat treatment processes, enriching his technical expertise in materials science. His research on rare earth catalyst development under the mentorship of a distinguished scholar strengthened his analytical and experimental skills. Beyond technical pursuits, he contributed actively to student organizations, competitions, and volunteer initiatives, showcasing leadership and teamwork. His professional journey reflects a balance of academic excellence, practical knowledge, and strong personal commitment to advancing materials research.

Awards and Honors

Dr. Hongwei Du has been recognized with several awards and honors that reflect his dedication to academic and professional excellence. He earned multiple scholarships for his consistent performance and was honored as an Outstanding Communist Youth League Member, highlighting both his academic and leadership qualities. His achievements in competitions, including top placements in mathematical modeling and metallography, demonstrate his problem-solving skills and innovative thinking. In addition, his certification as a senior CAD draftsman and proficiency in English communication showcase his technical and professional competencies. These accomplishments collectively illustrate his commitment to continuous growth and scholarly distinction.

Research Focus

Dr. Hongwei Du’s research focuses on advancing materials science and metallurgical engineering through both theoretical and applied approaches. His academic training has provided a deep understanding of metallurgy, heat treatment processes, materials testing, and physical properties of metals. Under the mentorship of a distinguished scholar, he contributed to the development and performance testing of rare earth catalysts, reflecting his interest in innovative materials research. He aims to integrate laboratory analysis with industrial applications to create solutions that improve efficiency and sustainability. His research focus demonstrates a commitment to bridging academic knowledge with practical advancements in material technologies.

Publication Top Notes

Phase Transformation and Si/Al Leaching Behavior of High-Silica–Alumina Coal Gangue Activated by Sodium-Based Additives
Year: 2025

Conclusion

Dr. Hongwei Du possesses a strong foundation in materials science and metallurgical engineering, combining excellent academic achievements with practical research and internship experience. His work on rare earth catalyst development under a distinguished scholar demonstrates significant research potential, while his consistent performance in scholarships and competitions reflects intellectual capability and innovation. With strong motivation, leadership, and technical skills, he is well-positioned to advance scholarly publications and collaborative projects, making him a highly deserving candidate for the Best Researcher Award.

 

Mohammad Mahdi Heyhat | Solar Energy | Best Researcher Award

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Assoc. Prof. Dr. Mohammad Mahdi Heyhat | Solar Energy | Best Researcher Award

Associate Professor | Tarbiat Modares University | Iran

Assoc. Prof. Dr. Mohammad Mahdi Heyhat is an accomplished academic in the Faculty of Mechanical Engineering at Tarbiat Modares University, specializing in energy conversion, heat transfer, nanofluidics, and thermal system optimization. He earned his bachelor’s degree from Ferdowsi University of Mashhad, followed by master’s and doctoral degrees in energy conversion from the University of Tehran, where his PhD thesis was recognized as the best by the Iranian Society of Mechanical Engineering. With extensive teaching and research experience, numerous high-impact publications, and a strong record of academic achievements, he has made significant contributions to advancing mechanical and energy engineering.

Publication Profile

Scopus

Google Scholar

Academic Background

Assoc. Prof. Dr. Mohammad Mahdi Heyhat has built a strong academic foundation in mechanical engineering with a focus on energy conversion and heat transfer. He completed his undergraduate studies in mechanical engineering at Ferdowsi University of Mashhad, where he specialized in heat and fluids. He then pursued advanced studies at the University of Tehran, earning both his master’s and doctoral degrees in energy conversion. His doctoral research on nanofluid heat transfer was recognized as an outstanding thesis by the Iranian Society of Mechanical Engineering, establishing his reputation as a dedicated researcher in thermal sciences and engineering applications.

Professional Experience

Assoc. Prof. Dr. Mohammad Mahdi Heyhat has developed a distinguished professional career in mechanical engineering with a focus on energy conversion and thermal sciences. He is currently serving as an assistant professor at Tarbiat Modares University, where he teaches and supervises research in areas such as nanofluidics, heat transfer, and thermal system design. He has previously contributed his expertise as a faculty member at K. N. Toosi University of Technology and has been actively involved in research at the Nano-technology Research Centre of the Institute of Petroleum. His experience also includes refereeing for international scientific journals.

Awards and Honors

Assoc. Prof. Dr. Mohammad Mahdi Heyhat has earned notable recognition throughout his academic journey for his outstanding contributions to mechanical engineering and energy research. His doctoral thesis at the University of Tehran was selected as the best by the Iranian Society of Mechanical Engineering, reflecting the high quality and originality of his work. He was also distinguished as the top-ranked student in both his undergraduate and doctoral entrance examinations, highlighting his consistent academic excellence. These honors demonstrate his dedication, intellectual strength, and commitment to advancing knowledge in the fields of heat transfer and energy conversion.

Research Focus

Assoc. Prof. Dr. Mohammad Mahdi Heyhat has established a strong research focus in the fields of heat transfer, energy conversion, and thermal system optimization. His expertise covers experimental and numerical studies on conduction, convection, radiation, and two-phase flow, with particular emphasis on nanofluids and microfluidics. He has also contributed to advancing exergy analysis and the design of efficient thermal systems, including applications in heat exchangers and energy storage technologies. Through his investigations, he aims to enhance heat transfer performance and develop sustainable solutions that address modern challenges in mechanical engineering and applied energy systems.

Publication Top Notes

Battery thermal management with thermal energy storage composites of PCM, metal foam, fin and nanoparticle

Year: 2020 | Cited by: 479

Experimental investigation of laminar convective heat transfer and pressure drop of water-based Al2O3 nanofluids in fully developed flow regime

Year: 2013 | Cited by: 283

Experimental study of convective heat transfer and pressure drop of TiO2/water nanofluid

Year: 2012 | Cited by: 251

Experimental investigation of turbulent flow and convective heat transfer characteristics of alumina water nanofluids in fully developed flow regime

Year: 2012 | Cited by: 190

Effect of a micro heat sink geometric design on thermo-hydraulic performance: A review

Year: 2020 | Cited by: 187

Conclusion

Assoc. Prof. Dr. Mohammad Mahdi Heyhat is a distinguished researcher in mechanical engineering with specialization in energy conversion, heat transfer, nanofluidics, and thermal system optimization. His doctoral thesis was recognized by the Iranian Society of Mechanical Engineering, reflecting the high quality of his research. With widely cited publications and a solid academic record, he has contributed to both theoretical and applied aspects of engineering. His expertise and impact make him a strong candidate for the Best Researcher Award.

Elsadig Musa Ahmed | Environmental Sustainability | Best Researcher Award

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Prof. Dr. Elsadig Musa Ahmed | Environmental Sustainability | Best Researcher Award

Professor | Multimedia University – Melaka Campus | Malaysia

Professor Elsadig Musa Ahmed is a distinguished scholar in development economics with extensive expertise in green productivity, digital and knowledge-based economies, bioeconomy, and the interface between economic growth, environment, and technology. Serving at Multimedia University, Malaysia, he has made significant contributions through high-impact publications, international research collaborations, and postgraduate supervision. Recognized among the world’s top scientists by Stanford University, he has authored influential works, secured prestigious research grants, and served on editorial boards and academic committees. His work bridges theory and practice, advancing sustainable development and shaping policy in both regional and global contexts.

Publication Profile

Orcid

Scopus

Google Scholar

Academic Background

Professor Elsadig Musa Ahmed holds a PhD in Development Economics from Universiti Putra Malaysia, where his research focused on the impact of air and water pollutant emissions on Malaysia’s manufacturing sector productivity growth. He earned a Master’s degree in Development Economics from the same university, completing a thesis on the productivity and performance of Malaysia’s food manufacturing industry. His academic journey began with a Bachelor’s degree in Agricultural Economics from the University of Alazhar in Cairo, Egypt. This strong foundation in economics and development has underpinned his extensive research, teaching, and contributions to sustainable economic growth and policy development.

Professional Experience

Professor Elsadig Musa Ahmed has built a distinguished career at Multimedia University in Malaysia, progressing through various academic roles to his current position as Professor. He has taught a wide range of economics and business subjects at both undergraduate and postgraduate levels, while supervising numerous doctoral and master’s theses. His professional journey includes leadership in research centers, coordination of postgraduate programs, and active participation in academic committees. He has also contributed as a reviewer, consultant, and editorial board member for high-impact journals, while securing competitive research grants and fostering collaborations that address economic growth, sustainability, and technological advancement.

Awards and Honors

Professor Elsadig Musa Ahmed has received numerous accolades in recognition of his outstanding academic and research contributions. He has been honored among the world’s top scientists by Stanford University and awarded for research excellence, best senior researcher, and outstanding paper presentations at international conferences. His achievements include the Sustainability Pioneers Award, recognition in the Emerald Literati Awards, and multiple best researcher awards within his faculty. He has also earned distinctions for his contributions to sustainable development, digital technology adoption, and economic research, reflecting his influence in advancing knowledge, fostering innovation, and impacting policy at national and international levels.

Research Focus

Professor Elsadig Musa Ahmed’s research encompasses development economics, green productivity, and the relationship between economic growth and environmental sustainability. His work explores productivity analysis, technological progress, technology transfer, and the role of digital and knowledge-based economies in fostering sustainable development. He has also investigated bioeconomy, microfinance, and tourism as drivers of economic growth, along with the intersection of economics and technology management. Through empirical studies and policy-oriented research, he addresses critical challenges facing emerging and developed economies, offering frameworks that integrate economic performance with environmental stewardship and technological innovation to support long-term sustainable growth and global economic resilience.

Publication Top Notes

Are the FDI inflow spillover effects on Malaysia’s economic growth input driven?
Year: 2012 | Cited by: 206

The impact of CO2 on economic growth in ASEAN 8
Year: 2012 | Cited by: 154

Factors influencing Sudanese microfinance intention to adopt mobile banking
Year: 2016 | Cited by: 125

The impact of ICT on East Asian economic growth: panel estimation approach
Year: 2013 | Cited by: 120

Green TFP intensity impact on sustainable East Asian productivity growth
Year: 2012 | Cited by: 111

Conclusion

Professor Elsadig Musa Ahmed is a distinguished academic with extensive expertise in development economics, sustainability, and technological integration. Recognized globally for his impactful research, he has authored numerous high-quality publications, led significant international projects, and successfully supervised postgraduate scholars. His work advances green productivity, economic policy, and environmental sustainability, influencing both academia and policy. With a strong record of leadership, innovation, and collaboration, he stands out as an exceptional candidate for the Best Researcher Award, reflecting excellence and global research impact.