Jingxia Wang | Engineering | Best Researcher Award

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Ms. Jingxia Wang | Engineering | Best Researcher Award

Doctor from University of Shanghai for Science and Technology, China

Jingxia Wang is a promising young researcher and lecturer in the School of Mechanical Engineering at the University of Shanghai for Science and Technology. Her academic journey and research achievements reflect a strong commitment to advancing the field of electrical and electromechanical systems. With a specialized focus on the electromagnetic-thermal coupling and iron loss analysis in electric machines, she has contributed significantly to the theoretical and applied aspects of energy conversion technologies. Her research addresses key challenges in improving the performance and efficiency of permanent magnet and induction motors under inverter supply, aligning with the growing demands for high-performance electric drives. She has published several high-quality articles in top-tier journals such as IEEE Transactions on Industrial Electronics and IEEE Transactions on Energy Conversion, establishing her as a rising expert in her field. In addition to scholarly publications, she has also contributed to patented innovations in the domain of loss calculation and electromagnetic simulation. Her active participation in national research funding programs and leadership roles in funded projects underscore her academic capabilities. Jingxia Wang continues to grow as an independent researcher with a clear vision and technical depth, making her a strong candidate for prestigious academic recognition, including the Best Researcher Award.

Professional Profile

Education

Jingxia Wang has built her academic foundation through a robust and consistent educational trajectory in the field of electrical engineering. She completed her undergraduate studies at Northeast Electric Power University from September 2011 to July 2015, where she obtained a Bachelor’s degree in Electrical Engineering and Automation. Her early training laid the groundwork for deeper technical exploration and problem-solving in electric machine systems. Driven by academic passion and curiosity, she pursued doctoral studies at Southeast University—one of China’s top institutions—in the field of Electrical Engineering from September 2015 to March 2022. During her Ph.D., she specialized in iron loss modeling, magnetic field modulation, and electromagnetic-thermal coupling in motor systems, which later became core aspects of her research focus. Her doctoral work contributed to high-impact publications and several patents, indicating both theoretical innovation and practical relevance. While she has not undertaken a postdoctoral fellowship, the depth and breadth of her Ph.D. training have equipped her with the technical acumen necessary for independent research and academic leadership. Her educational background reflects strong theoretical grounding and hands-on experience with complex computational models and machine dynamics, positioning her well within the academic and industrial research community.

Professional Experience

Jingxia Wang has been serving as a Lecturer at the School of Mechanical Engineering, University of Shanghai for Science and Technology since June 2022. In this capacity, she has been actively engaged in both teaching and research activities related to electric machinery and computational modeling. Her professional role involves mentoring students, contributing to curriculum development, and leading research projects funded by national and municipal agencies. Although she does not have postdoctoral experience, her transition from Ph.D. to faculty position demonstrates her capability to operate as an independent researcher. As a principal investigator, she has led and managed a National Natural Science Foundation Youth Fund project focused on inverter-fed induction motors and magnetic loss analysis, reflecting her technical leadership and project management skills. Additionally, she has participated in and contributed to major collaborative research projects funded by NSFC and the Shanghai Science and Technology Commission. Her involvement in interdisciplinary work, such as multi-physics coupling analysis, further expands the relevance of her professional profile across mechanical and electrical domains. Jingxia’s teaching experience and project responsibilities showcase a balanced academic career that combines foundational research, practical application, and knowledge dissemination, strengthening her suitability for academic recognition and further career advancement.

Research Interests

Jingxia Wang’s research interests lie at the intersection of electrical machine design, electromagnetic modeling, and multiphysics simulation. Her work primarily focuses on accurate calculation and analysis of iron loss in permanent magnet and induction motors, especially under pulse-width modulation (PWM) inverter supply. One of her core contributions has been the application of general airgap magnetic field modulation theory to quantify iron loss and stray load loss more effectively. Additionally, she has expanded her research into bidirectional coupling between electromagnetic and thermal fields, a critical area for enhancing the design accuracy and reliability of electric machines in dynamic environments. Her interests also include finite element analysis (FEA), fast calculation algorithms, and field-oriented control techniques for electric drives. Through her ongoing research, she addresses challenges in improving energy efficiency, thermal stability, and operational reliability in motor systems used in transportation, robotics, and industrial automation. Her work bridges theoretical electromagnetics with real-world implementation, making her contributions both academically valuable and industrially applicable. As sustainability and electrification become global priorities, her research remains timely and impactful, paving the way for smarter, more efficient electromechanical devices and systems.

Research Skills

Jingxia Wang possesses a comprehensive set of research skills that support her specialization in electric machine systems and computational modeling. She is highly proficient in electromagnetic field theory and loss analysis techniques, particularly in inverter-fed motors. Her expertise includes the application of general airgap field modulation theory, finite element analysis (FEA), and the development of fast calculation methods for complex electromechanical systems. She is also skilled in thermal simulation and electromagnetic-thermal bidirectional coupling analysis, which are crucial for evaluating machine performance under varying operational conditions. Her programming capabilities and simulation experience with industry-standard tools enable her to handle multi-domain simulations efficiently. Furthermore, she has experience with research project design, proposal writing, data interpretation, and results dissemination through high-impact publications. Her skill set extends to intellectual property development, as evidenced by her co-invention of several patents. Jingxia is adept at translating theoretical models into practical applications, making her a valuable collaborator in both academic and industrial research environments. Her methodological rigor, combined with strong analytical and communication skills, enhances her ability to lead independent research and mentor students in advanced engineering topics.

Awards and Honors

Although specific awards are not listed beyond patents and project funding, Jingxia Wang’s academic track record includes several forms of recognition that demonstrate her research excellence and innovative capabilities. She has received competitive research funding from the National Natural Science Foundation of China, including a Youth Fund project, which is highly regarded for supporting emerging researchers with outstanding potential. Her leadership in this and other municipal projects such as the Shanghai “Science and Technology Innovation Action Plan” reflects recognition by key funding bodies and the research community. Her scholarly work has appeared in prestigious journals such as IEEE Transactions on Industrial Electronics and IEEE Transactions on Energy Conversion, often as the sole first author—a significant academic distinction. She has also co-invented multiple patents related to magnetic field modulation, iron loss calculation, and electromagnetic-thermal modeling, highlighting her contribution to applied research and technology transfer. These honors, combined with her early career achievements, serve as strong indicators of her research strength, impact, and upward trajectory. As her academic career progresses, she is well-positioned to attain further distinctions at both national and international levels.

Conclusion

Jingxia Wang emerges as a highly capable and driven early-career academic with a solid foundation in electrical engineering and a sharp focus on energy-efficient electromechanical systems. Her contributions span theoretical innovation, computational modeling, and practical engineering solutions—making her research both relevant and forward-looking. Through high-impact publications, funded projects, and patented technologies, she has already made a significant mark in the field of electric machine analysis. Her ability to integrate electromagnetic theory with thermal dynamics in machine modeling reflects a rare depth of technical insight and interdisciplinary thinking. While she could further benefit from postdoctoral experience or international research exposure, her current achievements speak to her strong potential for future academic and industrial leadership. As a researcher who demonstrates clarity in focus, rigor in methodology, and creativity in solving complex engineering problems, Jingxia Wang is a compelling nominee for the Best Researcher Award. Her trajectory suggests sustained contributions to science and engineering, with the capacity to influence not only academic discourse but also real-world applications in energy and automation systems.

Publications Top Notes

  1. Double-virtual-vector-based model predictive torque control for dual three-phase PMSM
    Authors: Qingqing Yuan, Rongyan Xiao, Jingxia Wang, Kun Xia, Wei Yu
    Journal: Electronics (Switzerland)
    Year: 2025

Hulya Sen Arslan | Engineering | Women Researcher Award

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​Assist. Prof. Dr. Hulya Sen Arslan | Engineering | Women Researcher Award

KARAMANOĞLU MEHMETBEY UNIVERCITY, Turkey

Dr. Hülya Şen Arslan is a distinguished academic specializing in Food Engineering, with a focus on functional foods, food chemistry, and food microbiology. She is currently serving as an Assistant Professor in the Department of Food Engineering at Karamanoğlu Mehmetbey University. Dr. Arslan has an extensive educational background, having completed her undergraduate studies at Selçuk University, followed by a master’s degree at Erciyes University, and a doctorate at Selçuk University. Her research interests are deeply rooted in food sciences, particularly in the development and analysis of functional foods and the chemical and microbiological aspects of food products. Throughout her career, Dr. Arslan has contributed to the academic community with several publications and has actively participated in peer review processes. Her dedication to research and education in the field of food engineering underscores her commitment to advancing knowledge and promoting innovation in food science.

Professional Profile

Education

Dr. Hülya Şen Arslan’s academic journey commenced with a Bachelor of Science degree from Selçuk University’s Faculty of Agriculture, where she studied from 2009 to 2014. She then pursued a Master of Science in the Institute of Science at Erciyes University between 2014 and 2017. Her doctoral studies were conducted at Selçuk University’s Institute of Science from 2018 to 2022. This comprehensive educational background has provided Dr. Arslan with a solid foundation in agricultural and food sciences, equipping her with the necessary skills and knowledge to excel in her field.

Professional Experience

Currently, Dr. Hülya Şen Arslan holds the position of Assistant Professor in the Department of Food Engineering at Karamanoğlu Mehmetbey University. In this role, she is responsible for teaching undergraduate and graduate courses, mentoring students, and conducting research in her areas of expertise. Her professional experience is marked by a commitment to academic excellence and a dedication to advancing the field of food engineering through both education and research.

Research Interests

Dr. Arslan’s research interests encompass several critical areas within food sciences. She focuses on functional foods, exploring how bioactive components can enhance health benefits. Her work in food chemistry involves analyzing the molecular composition and properties of food substances, while her studies in food microbiology examine the role of microorganisms in food production, preservation, and safety. These research pursuits aim to contribute to the development of healthier and safer food products.

Research Skills

With a robust background in food sciences, Dr. Arslan possesses a diverse set of research skills. She is proficient in laboratory techniques pertinent to food chemistry and microbiology, including chromatographic and spectroscopic methods for analyzing food components, as well as microbiological assays for detecting and characterizing foodborne pathogens. Additionally, her expertise extends to the design and implementation of studies related to functional foods, encompassing both the development of novel food products and the assessment of their health impacts.

Awards and Honors

While specific awards and honors have not been detailed, Dr. Arslan’s contributions to the field of food engineering are evident through her active participation in research and academia. Her publications and involvement in peer review activities reflect a recognition of her expertise and dedication to advancing knowledge in food sciences.

Conclusion

In summary, Dr. Hülya Şen Arslan is a dedicated academic and researcher in the field of food engineering. Her comprehensive education and professional experience have enabled her to contribute significantly to the understanding and development of functional foods, food chemistry, and food microbiology. Through her teaching, research, and service to the academic community, Dr. Arslan continues to play a vital role in advancing the science of food and promoting innovations that enhance food quality and safety.

Publications Top Notes​

  • Title: Simultaneous extraction of phenolics and essential oil from peppermint by pressurized hot water extraction
    Authors: M. Cam, E. Yüksel, H. Alaşalvar, B. Başyiğit, H. Şen, M. Yılmaztekin, et al.
    Year: 2019
    Citations: 34

  • Title: Antioxidant and chemical effects of propolis, sage (Salvia officinalis L.), and lavender (Lavandula angustifolia Mill) ethanolic extracts on chicken sausages
    Authors: S. Yerlikaya, H. Şen Arslan
    Year: 2021
    Citations: 15

  • Title: Antibacterial and antioxidant activity of peach leaf extract prepared by air and microwave drying
    Authors: H. Şen Arslan, A. Cabi, S. Yerlikaya, C. Sariçoban
    Year: 2021
    Citations: 8

  • Title: Comparison some microbiological and physicochemical properties of freeze dryed and spray dryed milk powder
    Authors: S. Yerlikaya, H. Ş. Arslan
    Year: 2019
    Citations: 8*

  • Title: Effect of ultrasound and microwave pretreatments on some bioactive properties of beef protein hydrolysates
    Authors: H. Şen Arslan, C. Sariçoban
    Year: 2023
    Citations: 7

  • Title: Use of fruits and vegetables in meat and meat products in terms of dietary fiber
    Authors: H. Şen Arslan, C. Sariçoban, S. Yerlikaya
    Year: 2021
    Citations: 4

  • Title: Effects of various plant parts on storage stability and colour parameters of beef extracts
    Authors: B. A. Oğuz, C. Sarıçoban, H. Şen Arslan
    Year: 2019
    Citations: 4

  • Title: Ultrason destekli elma atık özütlerinin bazı biyoaktif özellikleri
    Authors: H. Ş. Arslan
    Year: 2023
    Citations: 3*

  • Title: Karaman İl Merkezinde Yaşayan Halkın Bilinçli Gıda Tüketim Derecesinin Araştırılması
    Authors: S. Yerlikaya, Ş. N. Karaman, S. Tuna, H. Ş. Arslan
    Year: 2020
    Citations: 3

  • Title: Increased reactive carboxyl and free alfa-amino groups from fish type I collagen peptides by Alcalase® hydrolysis exhibit higher antibacterial and antioxidant …
    Authors: S. Yasar, H. S. Arslan, K. Akgul
    Year: 2024
    Citations: 2

Kuo Liu | Engineering | Best Researcher Award

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Prof. Kuo Liu | Engineering | Best Researcher Award

Deputy director at Dalian University of Technology, China

Liu Kuo is a distinguished professor and doctoral supervisor at the School of Mechanical Engineering, Dalian University of Technology. He serves as the deputy director of the Intelligent Manufacturing Longcheng Laboratory and has been recognized as a young top talent in China’s “Ten Thousand People Plan.” He has also been honored under the Liaoning Province “Xingliao Talent Plan” and is regarded as a high-end talent in Dalian City. In addition to his academic and administrative roles, Liu Kuo holds significant positions in national standardization committees. He is a member of the National Industrial Machinery Electrical System Standardization Technical Committee (TC231) and the National Metal Cutting Machine Tool Standard Committee Five-Axis Machine Tool Evaluation Standards Working Group (TC22/WG3). Furthermore, he serves as a review expert for the Chinese Mechanical Engineering Society on “Machine Tool Equipment Manufacturing Maturity.” His expertise spans precision maintenance theory, real-time thermal error compensation, intelligent monitoring technology, and performance optimization for CNC machine tools. With extensive contributions to research, Liu Kuo has led over 20 major scientific projects and has published more than 80 high-impact papers. His work has resulted in numerous patents and software copyrights, reinforcing his status as a leading researcher in intelligent manufacturing and CNC technology.

Professional Profile

Education

Liu Kuo has pursued an extensive academic journey in mechanical engineering, culminating in his current role as a professor at Dalian University of Technology. He obtained his bachelor’s, master’s, and doctoral degrees in Mechanical Engineering from prestigious institutions in China. His academic training provided a strong foundation in advanced manufacturing, precision engineering, and intelligent monitoring systems. Throughout his education, Liu Kuo specialized in CNC machine tools, focusing on precision maintenance theory and real-time error compensation. His doctoral research was instrumental in developing innovative methodologies for optimizing machine tool performance. As a committed scholar, he actively engaged in interdisciplinary studies, integrating mechanical design, automation, and artificial intelligence into manufacturing processes. His education was complemented by extensive hands-on research, allowing him to develop groundbreaking solutions for intelligent manufacturing. Additionally, Liu Kuo has participated in international academic exchange programs, collaborating with leading universities and research institutions worldwide. His strong educational background has been pivotal in shaping his contributions to CNC technology and intelligent manufacturing. Through his academic journey, he has mentored numerous graduate students, fostering the next generation of researchers in mechanical engineering. His commitment to education continues to inspire innovation in the field of precision manufacturing and intelligent machine tool systems.

Professional Experience

Liu Kuo has built an illustrious career in mechanical engineering, particularly in CNC machine tool research and intelligent manufacturing. Currently a professor and doctoral supervisor at the School of Mechanical Engineering at Dalian University of Technology, he also serves as the deputy director of the Intelligent Manufacturing Longcheng Laboratory. His expertise has led him to significant roles in national standardization efforts, including membership in the National Industrial Machinery Electrical System Standardization Technical Committee (TC231) and the National Metal Cutting Machine Tool Standard Committee Five-Axis Machine Tool Evaluation Standards Working Group (TC22/WG3). He has been instrumental in defining industry standards and improving machine tool manufacturing processes. Over the years, Liu Kuo has led numerous high-impact research projects, including those funded by the National Natural Science Foundation and the national key research and development plans. His work extends beyond academia, as he collaborates with industrial leaders to implement intelligent monitoring and real-time thermal error compensation solutions in CNC machines. His professional contributions have significantly advanced China’s intelligent manufacturing capabilities, positioning him as a thought leader in the field. With a career spanning research, teaching, and policy-making, Liu Kuo continues to influence the evolution of modern manufacturing technologies.

Research Interests

Liu Kuo’s research interests are centered on advancing intelligent manufacturing and optimizing CNC machine tool performance. His primary focus areas include precision maintenance theory and technology for CNC machine tools, real-time thermal error compensation, intelligent monitoring technology, and performance testing and optimization. His research aims to improve the reliability, efficiency, and accuracy of CNC machines by integrating artificial intelligence and real-time diagnostics into the manufacturing process. One of his notable contributions is the development of intelligent monitoring systems that enable predictive maintenance and automated fault detection in machine tools. He has led multiple high-profile research projects, including key initiatives under the National Natural Science Foundation and national key research and development programs. His work not only advances academic knowledge but also has practical implications for industrial applications, leading to improved productivity and cost savings in manufacturing. Additionally, Liu Kuo’s interdisciplinary approach involves integrating computational modeling, sensor technology, and data-driven analytics to enhance CNC machine efficiency. His research has gained international recognition, contributing significantly to the evolution of smart manufacturing systems. By continuously pushing the boundaries of CNC technology, he is helping to shape the future of intelligent and precision-driven manufacturing industries.

Research Skills

Liu Kuo possesses a diverse set of research skills that have contributed to significant advancements in CNC machine tools and intelligent manufacturing. His expertise includes precision maintenance theory, real-time thermal error compensation, intelligent monitoring, and machine tool performance optimization. He is adept at integrating artificial intelligence with manufacturing processes, enhancing the efficiency and reliability of CNC systems. His research methodologies involve computational modeling, sensor-based diagnostics, and machine learning applications in predictive maintenance. Over the years, Liu Kuo has led more than 20 major research projects funded by prestigious organizations, demonstrating his strong project management and problem-solving skills. He has successfully authored over 80 SCI/EI-indexed papers and secured more than 50 Chinese invention patents, 8 American invention patents, and 15 software copyrights. His technical expertise extends to developing industry standards for CNC machine tools, collaborating with national committees, and formulating guidelines for intelligent manufacturing systems. With a strong foundation in mechanical engineering, automation, and data analytics, he continues to pioneer innovative research that bridges academia and industry. His extensive research skills have made him a leading figure in advancing precision engineering and smart manufacturing technologies worldwide.

Awards and Honors

Liu Kuo’s contributions to mechanical engineering and intelligent manufacturing have been recognized through numerous prestigious awards and honors. He has been named a young top talent under China’s “Ten Thousand People Plan,” a highly competitive program aimed at fostering top-tier researchers. Additionally, he has been selected for the Liaoning Province “Xingliao Talent Plan,” which acknowledges outstanding professionals in engineering and technology. His recognition as a high-end talent in Dalian City further underscores his influence in the field. Beyond these honors, Liu Kuo has received multiple awards for his groundbreaking research in CNC machine tools and precision manufacturing. His patents and scientific publications have earned national and international acclaim, contributing to advancements in intelligent machine tool systems. His role in national standardization committees highlights his leadership in shaping the future of CNC technology. Through his dedication to research, innovation, and knowledge dissemination, he has significantly impacted China’s industrial and academic landscapes. Liu Kuo’s achievements demonstrate his commitment to excellence and his continuous pursuit of cutting-edge solutions in mechanical engineering and manufacturing.

Conclusion

Liu Kuo is a highly accomplished professor and researcher whose contributions have significantly advanced CNC machine tool technology and intelligent manufacturing. His work in precision maintenance, real-time error compensation, and intelligent monitoring has positioned him as a leader in mechanical engineering. As a professor at Dalian University of Technology and deputy director of the Intelligent Manufacturing Longcheng Laboratory, he plays a crucial role in shaping future advancements in manufacturing technology. His extensive portfolio of research projects, patents, and scientific publications underscores his dedication to innovation. Recognized as a young top talent in China, he has received numerous prestigious awards and honors for his contributions. His leadership in national standardization committees further highlights his influence in the field. By integrating artificial intelligence and real-time monitoring into CNC machines, Liu Kuo continues to revolutionize intelligent manufacturing. His research and expertise bridge the gap between academia and industry, fostering technological advancements that drive economic growth. As he continues to push the boundaries of precision engineering, Liu Kuo remains a key figure in the development of cutting-edge manufacturing solutions. His work not only enhances industrial efficiency but also paves the way for the future of smart manufacturing.

Publication Top Notes

  1. Title: Characteristics of time series development and formation mechanism of icing interface strain under three-dimensional freezing conditions

    • Authors: L. Zeng, Lingqi; H. Liu, Haibo; H. Zhang, Hao; K. Liu, Kuo; Y. Wang, Yongqing
    • Year: 2025

  2. Title: Research on precision machining for ultra-thin structures based on 3D in-situ ice clamping

    • Authors: L. Zeng, Lingqi; H. Liu, Haibo; H. Zhang, Hao; K. Liu, Kuo; Y. Wang, Yongqing
    • Year: 2025

  3. Title: Cryogenic fluid labyrinth sealing characteristics considering cavitation effect

    • Authors: L. Han, Lingsheng; Y. Cheng, Yishun; X. Duan, Xinbo; K. Liu, Kuo; Y. Wang, Yongqing
    • Year: 2025

  4. Title: Defect formation mechanism in the shear section of GH4099 superalloy honeycomb under milling with ice fixation clamping

    • Authors: S. Jiang, Shaowei; D. Sun, Daomian; H. Liu, Haibo; K. Liu, Kuo; Y. Wang, Yongqing
    • Year: 2025

  5. Title: Multi-objective topology optimization for cooling element of precision gear grinding machine tool

    • Authors: C. Ma, Chi; J. Hu, Jiarui; M. Li, Mingming; X. Deng, Xiaolei; S. Weng, Shengbin
    • Year: 2025
    • Citations: 4

  6. Title: A semi-supervised learning method combining tool wear laws for machining tool wear states monitoring

    • Authors: M. Niu, Mengmeng; K. Liu, Kuo; Y. Wang, Yongqing
    • Year: 2025
    • Citations: 1

  7. Title: Influence of feed entrance angle on transverse tearing burr formation in the milling of superalloy honeycomb with ice filling constraint

    • Authors: S. Jiang, Shaowei; H. Liu, Haibo; Y. Zuo, Yueshuai; Y. Wang, Yongqing; S.Y. Liang, Steven Y.
    • Year: 2024

  8. Title: Hole position correction method for robotic drilling based on single reference hole and local surface features

    • Authors: T. Li, Te; B. Liang, Bochao; T. Zhang, Tianyi; K. Liu, Kuo; Y. Wang, Yongqing
    • Year: 2024

  9. Title: Modeling and compensation of small-sample thermal error in precision machine tool spindles using spatial–temporal feature interaction fusion network

    • Authors: Q. Chen, Qian; X. Mei, Xuesong; J. He, Jialong; J. Zhou, Jianqiang; S. Weng, Shengbin
    • Year: 2024
    • Citations: 38

  10. Title: A tool wear monitoring approach based on triplet long short-term memory neural networks

  • Authors: B. Qin, Bo; Y. Wang, Yongqing; K. Liu, Kuo; M. Niu, Mengmeng; Y. Jiang, Yeming
  • Year: 2024

 

Konrad Waluś | Engineering | Best Researcher Award

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Assist. Prof. Dr. Konrad Waluś | Engineering | Best Researcher Award

Poznan University of Technology, Poland

Dr. Konrad J. Waluś is an Assistant Professor at the Poznan University of Technology, specializing in machine design and construction. With over two decades of academic experience, he has guided more than 35 theses, including one that secured first place in the Rector’s competition. Dr. Waluś has co-organized notable conferences and collaborated with esteemed institutions worldwide. His research spans vehicle kinematics, tire safety, and slip resistance testing, focusing on real-world applications for improved traffic and pedestrian safety. A dedicated innovator, he holds three patents and has published extensively in WoS and Scopus journals, cementing his reputation in engineering research.

Professional Profile

Education

Dr. Waluś holds advanced degrees in mechanical and transport engineering, aligning his academic foundation with his professional interests in vehicle dynamics and safety. His education emphasized a robust combination of theoretical knowledge and practical applications, fostering his contributions to innovative designs in transportation engineering. His continuous pursuit of learning and professional growth is evident in his academic journey and contributions to the field.

Professional Experience

Since 2003, Dr. Waluś has served at Poznan University of Technology, where he excels in teaching, research, and innovation. His industry collaborations include partnerships with organizations like Wespol Construction & Metal Distributors (USA) and the Road and Bridge Research Institute (Poland). He has led numerous consultancy projects, emphasizing his ability to bridge academic research with practical industrial needs.

Research Interests

Dr. Waluś’s research focuses on vehicle kinematics, tire-pavement interaction, rapid tire decompression, and traffic safety. He investigates slip resistance of road and industrial surfaces, aiming to mitigate risks for both pedestrians and vehicles. His work addresses critical challenges in engineering, emphasizing safety and functionality in diverse environmental conditions.

Research Skills

Dr. Waluś possesses expertise in designing experimental methodologies, analyzing tire-pavement interactions, and conducting anti-skid surface testing. His technical skills extend to data analysis, collaborative research, and publishing findings in high-impact journals. He is also skilled in identifying real-world safety risks and developing innovative solutions to address them.

Awards and Honors

Dr. Waluś’s contributions have been recognized with two silver medals for his innovative wood chipper drive control systems. These accolades, coupled with his role as Secretary of the Journal of Mechanical and Transport Engineering, highlight his leadership and innovation in the field of engineering research.

Conclusion

Dr. Konrad J. Waluś exemplifies excellence in engineering research and education, with a strong commitment to innovation and societal impact. His achievements, spanning academic mentorship, impactful research, and industry collaboration, make him a deserving candidate for prestigious recognitions like the Best Researcher Award.

Publication Top Notes

  • Title: Legal regulations of restrictions of air pollution made by non-road mobile machinery—The case study for Europe: A review
    • Authors: K.J. Waluś, Ł. Warguła, P. Krawiec, J.M. Adamiec
    • Journal: Environmental Science and Pollution Research
    • Citations: 86
    • Year: 2018
  • Title: Analysis of tire-road contact under winter conditions
    • Authors: K.J. Waluś, Z. Olszewski
    • Journal: Proceedings of the World Congress on Engineering
    • Citations: 50
    • Year: 2011
  • Title: Fuel consumption test results for a self-adaptive, maintenance-free wood chipper drive control system
    • Authors: Ł. Warguła, P. Krawiec, K.J. Waluś, M. Kukla
    • Journal: Applied Sciences
    • Citations: 43
    • Year: 2020
  • Title: The application of the optical system ATOS II for rapid prototyping methods of non-classical models of cogbelt pulleys
    • Authors: P. Krawiec, G. Domek, Ł. Warguła, K. Waluś, J. Adamiec
    • Journal: MATEC Web of Conferences
    • Citations: 31
    • Year: 2018
  • Title: Experimental studies of the size contact area of a summer tire as a function of pressure and the load
    • Authors: J. Polasik, K.J. Waluś, Ł. Warguła
    • Journal: Procedia Engineering
    • Citations: 26
    • Year: 2017
  • Title: Wear evaluation of elements of V-belt transmission with the application of optical microscope
    • Authors: P. Krawiec, K. Waluś, Ł. Warguła, J. Adamiec
    • Journal: MATEC Web of Conferences
    • Citations: 24
    • Year: 2018
  • Title: Small engines spark ignited (SI) for non-road mobile machinery-review
    • Authors: Ł. Warguła, K.J. Waluś, P. Krawiec
    • Conference: Proceedings of the Transport Means
    • Citations: 22
    • Year: 2018
  • Title: Electronic control in injection-ignition systems in propulsion of non-road mobile machinery
    • Authors: Ł. Warguła, P. Krawiec, K.J. Waluś, J. Polasik
    • Journal: Journal of Mechanical and Transport Engineering
    • Citations: 15
    • Year: 2018
  • Title: Slip risk analysis on the surface of floors in public utility buildings
    • Authors: K.J. Waluś, Ł. Warguła, B. Wieczorek, P. Krawiec
    • Journal: Journal of Building Engineering
    • Citations: 14
    • Year: 2022
  • Title: The characteristics analysis of torque and rotation speed of working unit of branch grinder-introductory research
    • Authors: Ł. Warguła, J.M. Adamiec, K.J. Waluś, P. Krawiec
    • Journal: MATEC Web of Conferences
    • Citations: 14
    • Year: 2018

 

Suresh Sethu | Engineering | Best Researcher Award

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Dr. Suresh Sethu | Engineering | Best Researcher Award

Assistant Professor at NPR College of Engineering and Technology, India

Dr. Suresh S is an accomplished academic and researcher with over 15 years of professional experience in mechanical engineering. His expertise spans teaching, research, and product development, particularly in the fields of composite materials and sustainable technologies. With a Ph.D. in composite materials from Kalasalingam Academy of Research and Education, he has made significant contributions to scientific literature, authoring numerous high-impact publications in SCI-indexed journals. Dr. Suresh’s commitment to environmental sustainability is evident in his work on biodegradable composites and natural fibers. Additionally, he has been recognized for his academic excellence and leadership roles, such as serving as an R&D cell member and NSS officer. His dynamic career reflects a blend of innovative research, academic dedication, and practical application of engineering principles.

Professional Profile

Education

Dr. Suresh S holds a Ph.D. in Composite Materials from Kalasalingam Academy of Research and Education (2024). He earned his Master’s degree in Manufacturing Engineering from KLN College of Engineering, Madurai, securing a distinction with 81%. His undergraduate studies in Mechanical Engineering were completed at Arulmigu Kalasalingam College of Engineering under Anna University, where he achieved a commendable 71%. His academic foundation is reinforced by excellent performance in secondary and higher secondary education, scoring 72% in HSC and 79.6% in SSLC. This strong academic background has enabled Dr. Suresh to excel in his teaching and research career, establishing him as a scholar committed to lifelong learning and innovation.

Professional Experience

Dr. Suresh S has a diverse professional background, combining academic and industry experience. He currently serves as an Assistant Professor in the Mechanical Engineering Department at NPR College of Engineering and Technology. Previously, he was a Project Assistant for the DST-SEED STI HUB at Kalasalingam Academy of Research and Education, contributing over three years to cutting-edge research. His decade-long tenure as an Assistant Professor at KLN College of Engineering highlights his dedication to teaching and curriculum development. Additionally, he worked as a Business Development Officer at Indo Technological Services, gaining industry insights. Over the years, Dr. Suresh has taken on administrative roles such as NSS Officer and R&D Cell Member, showcasing his leadership capabilities and commitment to academic and extracurricular excellence.

Research Interests

Dr. Suresh S’s research interests focus on sustainable engineering solutions, particularly in composite materials and biodegradable polymers. He specializes in the development of natural fiber-reinforced composites, aiming to replace synthetic materials with eco-friendly alternatives. His work includes characterizing bamboo fibers, optimizing 3D printing with biocomposites, and studying the tribological properties of materials. Additionally, he is passionate about leveraging advanced technologies like additive manufacturing and thermo-catalytic pyrolysis for sustainable energy and materials development. His research aligns with global trends in environmental sustainability, reflecting a commitment to addressing pressing challenges in the engineering and materials science domains.

Research Skills

Dr. Suresh S possesses a strong arsenal of research skills, particularly in material characterization and composite development. He is proficient in advanced testing methods, including ultrasonic, radiographic, liquid penetrant, and magnetic particle testing, certified under ASNT Level II. Additionally, he is skilled in AutoCAD and Origin, which enhance his design and data analysis capabilities. His expertise in conducting thermal, chemical, tensile, and tribological studies has resulted in impactful publications. Dr. Suresh is also experienced in optimizing manufacturing processes through techniques like the Taguchi method. His hands-on experience in developing products such as bamboo fiber extraction machines and natural fiber-based 3D printed composites demonstrates his ability to translate theoretical research into practical innovations.

Awards and Honors

Dr. Suresh S has been recognized for his excellence in academics and research through multiple awards. He received a cash award for achieving a 100% success rate in university examinations, reflecting his commitment to teaching quality. Additionally, his dedication to work earned him recognition for not availing of any leave for an entire year. His role in groundbreaking research projects, particularly in the DST-SEED STI HUB, highlights his ability to contribute meaningfully to national initiatives. With his achievements in publications, leadership roles, and sustained academic contributions, Dr. Suresh continues to establish himself as a respected figure in engineering education and research.

Conclusion

Dr. Suresh S’s career exemplifies a perfect blend of academic rigor, innovative research, and professional dedication. With a strong educational background, impactful publications, and expertise in composite materials, he has significantly contributed to both academia and industry. His research on biodegradable composites and sustainable materials reflects his commitment to addressing global environmental challenges. Through teaching, leadership, and collaboration, Dr. Suresh has cultivated a legacy of excellence, making him a strong contender for the Best Researcher Award. His work serves as an inspiration for aspiring engineers and researchers, demonstrating the value of combining technical expertise with a vision for sustainable innovation.

Publication Top Notes

  1. Title: Effect of Cu MOF-based functional catalysts on cracking and adsorption of bio-oil compounds via thermo-catalytic pyrolysis: A net zero emission scenario
    Authors: Pownraj, C., Karthik, A., Prabhu, B., Katiyar, J.K., Valan Arasu, A.
    Year: 2025
  2. Title: The effect of infill density on tensile properties of 3D printed chopped carbon fiber reinforced PLA composites materials
    Authors: Mayandi, K., Rigesh, K., Iyyappan, K., Sethu, S.
    Year: 2024
  3. Title: Production and characterization of biodegradable polylactic acid composites 3D filament from agro waste
    Authors: Kalimuthu, M., Sethu, S., Vijay, R.D., Karthikeyan, K.R., Sethuramalingam, P.
    Year: 2024
  4. Title: Tribological investigations on fibre-reinforced composites: a comprehensive review considering variable velocity and load scenarios
    Authors: Sethu, S., Kalimuthu, M., A, U., Mohan, M.
    Year: 2024
  5. Title: Cu MOF-biocarbon functional catalysts as adsorbent for oxygen-linked carbon capture via thermo-catalytic pyrolysis: A low-carbon fuel synthesis strategy
    Authors: Pownraj, C., B․, P., Katiyar, J.K., Sethu, S., Valan Arasu, A.
    Year: 2024
    Citations: 2
  6. Title: Hybrid fabrication and characterization of biocompatible Bamboo/PLA composites
    Authors: Sethu, S., Kalimuthu, M., Nagarajan, R., Mohammad, F., Arul Kumar, M.
    Year: 2024
    Citations: 1
  7. Title: Investigation of tribo-thermal properties of inter-mixed AYSZ nanoceramic composite/SAE20W40 nanolubricant
    Authors: Pownraj, C., Karthik, A., Suresh, S., Arasu, A.V., Katiyar, J.K.
    Year: 2023
  8. Title: Thermal, chemical, tensile and morphological characterization studies of bamboo fibre extracted from the Indian species Bambusa bambos
    Authors: Sethu, S., Kalimuthu, M., Nagarajan, R., Mohammad, F., Al-Lohedan, H.A.
    Year: 2023
    Citations: 4
  9. Title: Characterization on a physical and mechanical bamboo surface treated and untreated fiber
    Authors: Sethu, S., Kalimuthu, M., Nagarajan, R., Muthukannan, M., Murali, M.
    Year: 2023