Prof. Wenlong Song | Engineering | Best Scholar Award

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Prof. Wenlong Song | Engineering | Best Scholar Award

Associate Professor | Jining University | China

Prof. Wenlong Song, a distinguished figure in the field of Engineering, has made significant contributions to Mechanical Design, Manufacturing, and Automation. He earned his doctoral degree from Shandong University and serves as an Associate Professor and Graduate Supervisor at the School of Mechanical and Electrical Engineering, Jining University. His Engineering expertise focuses on efficient machining processes and advanced tool technology, where he has played a key role in leading multiple Engineering research initiatives. Prof. Song has successfully hosted several provincial, ministerial, and industrial Engineering projects, which have substantially advanced technological applications in precision machining and automation systems. His Engineering research has resulted in more than fifty academic publications and over forty authorized invention patents, reflecting his strong innovation capabilities and leadership in Engineering development. Recognized for his excellence, he has received multiple municipal and higher-level awards for his Engineering achievements. Prof. Song’s Engineering research skills encompass precision design, material optimization, process modeling, and manufacturing automation. His continued dedication to Engineering education and research demonstrates his commitment to nurturing the next generation of Engineering scholars while expanding the boundaries of modern mechanical systems. Through his extensive Engineering background and innovative approach, Prof. Wenlong Song stands out as a leading expert whose work continues to impact the Engineering community globally. 346 Citations, 33 Documents, 11 h-index.

Profiles: Scopus | Google Scholar

Featured Publications

1. (2025). Analytical and experimental investigation of vibration response for the cracked fluid-filled thin cylindrical shell under transport condition. Applied Mathematical Modelling.

2. (2025). Friction behavior of molybdenum disulfide/polytetrafluoroethylene-coated cemented carbide fabricated with a spray technique in dry friction conditions. Coatings.

3. (2024). Fabrication and tribology properties of PTFE-coated cemented carbide under dry friction conditions. Lubricants.

Wang Yuqi | Engineering | Best Researcher Award

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Mr. Wang Yuqi | Engineering | Best Researcher Award

postgraduate | Harbin Engineering University | China

Mr. Wang Yuqi is an accomplished researcher from Harbin Engineering University with a strong foundation in Mechanical and Electronic Engineering and Marine Robot systems, excelling in the field of engineering through his work on advanced robotics and intelligent control systems. His academic journey includes a master’s focus on marine robotics and an undergraduate specialization in mechanical and electronic engineering, supported by numerous honors and scholarships that highlight his academic excellence. His professional experience spans leading roles in engineering projects, including the design and optimization of deep-sea exploration ROV control systems, intelligent unmanned hovercraft, and sea cucumber robot technologies, where he applied cutting-edge engineering methodologies such as FreeRTOS-based scheduling, STM32 circuit design, FPGA communication protocols, and ROS data processing. He has further contributed as an intern at the National Deep Sea Base Management Center and Midea Group, where he advanced engineering solutions for marine exploration and motor control systems. His research interests lie in engineering design for underwater robotics, intelligent control, sensor integration, and embedded systems, which have led to recognition in national and international competitions. Mr. Wang Yuqi’s engineering expertise is complemented by strong skills in programming (C/C++, MATLAB), simulation and design tools, communication protocols, and hardware debugging, making him a versatile and innovative researcher. His achievements in engineering, both academically and professionally, have earned him awards, leadership roles, and recognition for his contributions to innovation in robotics and intelligent systems, reflecting a promising career in engineering research and application. 13 Citations, 6 Documents, 3 h-index

Profiles: Scopus | ORCID

Featured Publications

1. Zhang, H., Sun, Y., Zhao, Y., Xie, Y., Li, X., Wang, Y., & Zhao, C. (2024). Corrosion and carburization of Ni<sub>3</sub>Al-based superalloys in high-temperature carbon dioxide. Materials and Corrosion.

2. Huang, Y., Wang, Y., Yu, S., Zhang, H., & Zhao, C. (2024). Hot deformation behavior and dynamic recrystallization mechanisms of a Mn-Cu damping alloy. Materials Today Communications.

3. Huang, Y., Wang, Y., Yu, S., Zhang, H., & Zhao, C. (2024). Hot deformation behavior and dynamic recrystallization mechanisms of a Mn-Cu damping alloy. SSRN.

4. Li, X., Yu, S., Huang, Y., Wang, Y., Zhang, H., & Zhao, C. (2024). Impact of secondary γ’ precipitate on the high-temperature creep properties of DD6 alloy. Metals and Materials International.

5. Huang, Y., Wang, Y., Yu, S., Zhao, C., Zhao, Y., & Zhang, H. (2024). Influence of aging heat treatment on microstructure and mechanical properties of a novel polycrystalline Ni3Al-based intermetallic alloy. SSRN.

Takwa Hamdi | Engineering | Women Researcher Award

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Ms. Takwa Hamdi | Engineering | Women Researcher Award

PhD Candidate | National Engineering School of Gabes | Tunisia

Ms. Takwa Hamdi is a dedicated PhD student in Mechanical Engineering with a strong foundation in Engineering education, holding a bachelor’s, master’s, and doctoral-level specialization in Mechanical and Energy Engineering, with her research focusing on advanced combustion modeling, dual-fuel internal combustion engines, and sustainable alternative fuels. Her professional Engineering experience includes serving as an adjunct lecturer, where she taught courses on dismountable assembly processes, welding, CAD design, and supervised Engineering design projects, equipping students with practical and theoretical knowledge of Engineering principles. Her research interest lies in energy efficiency, low-emission combustion technologies, and the application of Engineering simulation tools such as Ansys Forte, SolidWorks, Matlab, Autocad, Mastercam, Abaqus, and Gnuplot, where she applies computational fluid dynamics and numerical methods to optimize Engineering performance. She has also contributed to scientific publications in the domain of dual-fuel compression ignition engines, showcasing her commitment to advancing Engineering sustainability. Ms. Hamdi has been recognized academically as a class valedictorian, which highlights her excellence and honor in the field of Engineering. Her Engineering research skills encompass analytical thinking, problem solving, and innovation, reinforced by her active engagement in teaching and scientific collaboration. In conclusion, Ms. Takwa Hamdi demonstrates a remarkable blend of Engineering knowledge, professional experience, and research capability, making her a promising researcher whose Engineering contributions are expected to have a significant impact on energy and sustainability fields.

Profile: Scopus

Featured Publications

1. Effects of H2 substitution on combustion and emissions in ammonia/diesel compression ignition engine. (2025). Energy Conversion and Management.

Dr. Minati Kumari Sahu | Engineering | Best Researcher Award

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Dr. Minati Kumari Sahu | Engineering | Best Researcher Award

Researcher | CSIR NML | India

Dr. Minati Kumari Sahu has established herself as a dedicated professional in Engineering, with strong expertise in materials science, non-destructive testing, and quality management systems, demonstrating excellence in Engineering through her academic achievements including B.Sc., M.Sc., M.Tech., and Ph.D. in areas closely aligned with Engineering applications. Her professional experience spans advanced Engineering roles in CSIR-NML, NIT Jamshedpur, and Tata Steel, where she applied Engineering-driven approaches for material characterization, creep damage evaluation, weld defect assessment, and optimization of electromagnetic stirring parameters. With significant research contributions in Engineering-focused domains such as nonlinear ultrasonic testing, acoustic wave simulation, and signal processing, she has authored numerous SCI journal papers, patents, and software copyrights, proving her Engineering research skills. Her research interests remain centered on Engineering-based microstructural analysis, advanced NDE techniques, and computational modeling. Recognized with the prestigious Dr. M. Pancholy Memorial Award for best oral presentation, she has shown distinction in advancing Engineering knowledge. Her technical skills extend to Engineering software tools like COMSOL, MATLAB, and LabVIEW, enhancing her research capabilities in Engineering simulations and testing. Throughout her journey, she has contributed to Engineering by integrating academic insights with industrial applications, thereby bridging theoretical concepts with practical problem-solving. With a strong foundation in Engineering, coupled with honors and impactful publications, Dr. Minati Kumari Sahu stands as a role model in Engineering research and innovation. In conclusion, her career reflects a consistent pursuit of excellence in Engineering, combining knowledge, skills, and dedication to drive forward advancements in the field of Engineering. Her Google Scholar citations 46, h-index 5, i10-index 1, showcasing measurable research impact.

Profiles: ORCID | Google Scholar

Featured Publications

1. Ghosh, A., Sahu, M., Singh, P. K., Kumar, S., Ghosh, M., & Sagar, S. P. (2019). Assessment of mechanical properties for dissimilar metal welds: A nondestructive approach. Journal of Materials Engineering and Performance, 28(2), 900–907.

2. Sahu, M. K., Swaminathan, J., Bandhoypadhyay, N. R., & Sagar, S. P. (2018). Creep damage evaluation in P92 steel using second harmonic of high power ultrasonic signal. Materials Today: Proceedings, 5(2), 4467–4474.

3. Sahu, M., Ghosh, A., Dutta, C., Kumar, J., & Sagar, S. P. (2025). Creep strain prediction in power plant material via ANN modelling of nonlinear ultrasonic test results. Nondestructive Testing and Evaluation, 40(3), 932–953.

4. Sahu, M. K., & Sagar, S. P. (2021). Nonlinearity in the propagation of acoustic waves: Simulation and experimental validation in a creep damaged material. Materials Today: Proceedings, 44, 2251–2256.

5. Balamurugan, S., Mathan, G., Dey, A., Mukherjee, G., Sahu, M., & Pandey, J. C. (2012). Cracking of tungsten carbide rolls during hot rolling of branded rebars in a bar mill. Engineering Failure Analysis, 26, 182–191.

Ms. Zahra Sabet-Bokati | Engineering | Best Researcher Award

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Ms. Zahra Sabet-Bokati | Engineering | Best Researcher Award

Researcher at University of Shiraz | Iran

Ms. Zahra Sabet-Bokati is a dedicated professional in Materials Engineering with expertise in polymeric nanofibers, biomedical Engineering, and tissue Engineering. Her academic and research journey reflects a strong focus on developing advanced Engineering solutions through synthesis, fabrication, and material characterization. She integrates Engineering concepts with practical applications, especially in the fields of electrospinning and scaffold design. Her contribution to Engineering publications highlights innovation and problem-solving skills within the Engineering community. By combining scientific rigor with Engineering creativity, she has positioned herself as a valuable contributor to the advancement of materials Engineering, constantly striving to bridge the gap between theoretical research and practical Engineering applications that impact health and industrial progress in the field of modern Engineering.

Professional Profile

Google Scholar Profile 

Education 

Ms. Zahra Sabet-Bokati has pursued her academic career with a strong focus on Materials Engineering at Shiraz University. Her bachelor’s and master’s degrees in Materials Engineering have been centered around biomedical and tissue Engineering research, especially using electrospinning techniques. Her master’s thesis explored the impact of reduced graphene oxide on polycaprolactone-polypyrrole scaffolds, enhancing Engineering knowledge in composite structures and polymeric systems. This educational background highlights her Engineering foundation, preparing her to tackle complex Engineering challenges. Throughout her studies, Ms. Zahra Sabet-Bokati engaged deeply in Engineering problem-solving, experimental design, and material synthesis. Her solid Engineering education ensures she is equipped to translate fundamental concepts into innovative Engineering solutions with significant impact on applied Engineering research.

Experience 

Ms. Zahra Sabet-Bokati brings valuable Engineering professional experience through academic projects, research collaborations, and industrial practice in Materials Engineering. Her work includes synthesizing nanoparticles, electrospinning conductive scaffolds, and participating in corrosion inhibitor development projects. These roles demanded Engineering problem-solving, precision, and adaptability in diverse Engineering environments. She worked with Arca Asia Industries Research Company, applying Engineering methodologies to nanoparticle synthesis, showing her ability to transfer Engineering knowledge into industrial contexts. Her teamwork in national elite projects demonstrated Engineering leadership, communication, and innovation. This combination of academic and industrial Engineering experience enables her to navigate challenges and develop high-impact Engineering solutions across biomedical, corrosion, and material design Engineering sectors.

Research Interest 

Ms. Zahra Sabet-Bokati’s Engineering research interests include polymeric nanofibers, electrospinning technologies, and conductive polymer-based scaffolds for biomedical Engineering applications. Her focus on scaffold fabrication connects advanced Materials Engineering with health-related Engineering innovations. She explores ways to enhance physical, chemical, and mechanical properties of polymers through Engineering-driven approaches. Interests in electrically conductive polymers and anticorrosion coatings demonstrate her versatility within Engineering research fields, combining medical and industrial Engineering relevance. She aims to contribute to next-generation biomaterials and functional coatings through Engineering design, synthesis, and characterization. By bridging theoretical and experimental Engineering methods, Ms. Zahra Sabet-Bokati seeks to create sustainable, high-performance solutions for real-world Engineering challenges.

Award and Honor

Ms. Zahra Sabet-Bokati has earned multiple Engineering-related awards recognizing her academic and research excellence in Materials Engineering. She ranked among the top students in her Engineering classes and received merit-based admission into advanced Engineering programs. Her master’s thesis was awarded Best Thesis in Materials Engineering, acknowledging the quality, originality, and impact of her Engineering research. Such achievements illustrate her consistent pursuit of Engineering advancement and professional distinction. Recognition from her peers and institutions underscores her capability to produce Engineering innovations that address modern technological needs. These honors reinforce her reputation as an emerging leader in Materials Engineering, inspiring further contributions to scientific and applied Engineering domains globally.

Research Skill

Ms. Zahra Sabet-Bokati possesses advanced Engineering research skills spanning synthesis, fabrication, and analysis of materials for biomedical and industrial Engineering use. She is proficient in electrospinning, nanoparticle synthesis, and mechanical testing, all crucial in modern Engineering laboratories. Her analytical expertise includes SEM, FTIR, Raman spectroscopy, and other Engineering characterization techniques. She integrates computational and statistical software, including Matlab and Design of Expert, to optimize Engineering experiments and analyze data effectively. These Engineering skills allow her to design innovative solutions, validate material properties, and contribute meaningfully to Engineering advancements. Combining theoretical understanding with hands-on Engineering abilities ensures her readiness to tackle complex research questions and develop impactful Engineering outcomes.

Publication Top Notes 

Title: Anticorrosion shape memory-assisted self-healing coatings: A review

Journal: Progress in Organic Coatings

Author: Z Sabet-Bokati, K Sabet-Bokati, Z Russell, K Morshed-Behbahani, ...

Year: 2024

Title: Study of the synergistic effect of electrospun fiber structure and PPy particles on the electrical conductivity and tensile strength of PCL-PVA-PPy fibers

Journal: Results in Engineering

Author: Z Sabet-Bokati, SM Zebarjad

Year: 2025

Title: Investigating the effect of poly-pyrrole and electrospinning parameters on polycaprolactone scaffold properties

Journal: Metallurgical Engineering

Author: SM Zebarjad, Z Sabet Bokati

Year: 2025

Conclusion

Ms. Zahra Sabet-Bokati exemplifies dedication, innovation, and expertise in the field of Materials Engineering. Through education, professional engagements, and impactful research, she advances Engineering knowledge with practical biomedical and industrial relevance. Her consistent focus on Engineering excellence ensures contributions that merge creativity with technical depth. The combination of academic achievement, recognized awards, and Engineering publications highlights her capacity to address modern challenges with innovative Engineering solutions. As Engineering continues to evolve globally, Ms. Zahra Sabet-Bokati stands poised to influence the field, fostering breakthroughs that benefit society, industry, and science through persistent Engineering inquiry, collaborative innovation, and visionary application of advanced Engineering principles.

Prof. Jijun Lu | Engineering | Best Researcher Award

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Prof. Jijun Lu | Engineering | Best Researcher Award

Prof at Kunming University of Science and Technology | China

Prof. Jijun Lu is a distinguished figure in Engineering, recognized for his innovative contributions to metallurgical Engineering, chemical Engineering, and energy material Engineering. His work integrates theoretical Engineering principles with practical solutions in silicon-based energy materials, photovoltaic recycling, and key metal metallurgy. As a Professor at Kunming University of Science and Technology, he combines Engineering research with impactful teaching. Prof. Jijun Lu has led numerous national and provincial Engineering projects, transferring technologies worth millions. With more than 40 peer-reviewed publications, including high-impact Engineering journals, his research continues to advance green and low-carbon metallurgy. He has received multiple awards for his Engineering excellence, making him a leader in modern metallurgical and energy materials Engineering worldwide.

Professional Profile

Scopus Profile | ORCID Profile 

Education 

Prof. Jijun Lu’s academic journey in Engineering reflects a commitment to excellence across multiple Engineering disciplines. He earned his Bachelor of Engineering in metallurgical Engineering at Kunming University of Science and Technology, where he developed strong foundational Engineering skills. He further advanced his expertise by completing a Doctor of Engineering degree at the Institute of Process Engineering, Chinese Academy of Sciences, specializing in chemical Engineering. His educational background emphasizes deep theoretical Engineering knowledge combined with practical applications in energy and metallurgy. Through rigorous academic training, he built a platform for innovative Engineering research. His education in Engineering prepared him to bridge traditional metallurgical Engineering with emerging challenges in sustainable and energy-efficient Engineering processes.

Experience 

Prof. Jijun Lu has accumulated extensive professional experience in Engineering, contributing to both academic and industrial Engineering development. At Kunming University of Science and Technology, he serves as a Professor in the College of Metallurgy and Energy Engineering, where he leads interdisciplinary Engineering research. He manages projects in silicon-based energy material preparation, photovoltaic waste recycling, and metal metallurgy, demonstrating practical Engineering leadership. His collaboration with industries brings advanced Engineering technologies into real-world production, particularly in high-end lithium-silicon-carbon anode materials. Prof. Jijun Lu’s role integrates Engineering education, research, and innovation, guiding students and researchers in advanced Engineering methodologies. His work reflects a unique combination of scientific rigor and applied Engineering innovation, supporting sustainable technological progress.

Research Interest 

Prof. Jijun Lu’s research interests revolve around advanced Engineering challenges in energy and metallurgy. He focuses on key metal metallurgy, secondary resource recycling, and the preparation of silicon-based energy materials, combining core Engineering principles with environmental responsibility. His Engineering studies target efficiency improvements, resource recovery, and low-carbon metallurgical processes. Prof. Jijun Lu is especially interested in how Engineering approaches can enhance photovoltaic recycling and energy storage solutions, aligning with global sustainability goals. His work in Engineering also emphasizes innovation in battery technologies and advanced anode material design. By bridging metallurgy and energy material Engineering, he provides solutions for next-generation technologies, ensuring Engineering remains at the forefront of industrial transformation and ecological advancement.

Award and Honor

Prof. Jijun Lu has received numerous awards that highlight his Engineering excellence, leadership, and innovation in metallurgical and energy-related Engineering. Recognized as a “Young Talent” in Yunnan Province, he earned prestigious awards including the Outstanding Young Talent Award for Green and Low-Carbon Metallurgy, Dean’s Excellence Award, and multiple national-level Engineering competition prizes. His guidance has led students to secure top positions in national and international Engineering competitions, demonstrating his mentorship in Engineering education. His recognition reflects consistent contributions to the Engineering community, enhancing the understanding and application of sustainable metallurgy and energy material Engineering. These honors affirm his role as a leading figure in developing future-focused Engineering solutions in both academia and industry.

Research Skill

Prof. Jijun Lu possesses outstanding research skills in Engineering, blending theoretical insights with practical applications across diverse Engineering disciplines. His expertise includes designing efficient metallurgical Engineering processes, developing silicon-based energy materials, and innovating photovoltaic recycling methods. He applies advanced Engineering tools, chemical Engineering modeling, and experimental techniques to address critical challenges in low-carbon metallurgy. His ability to secure and lead national-level Engineering projects highlights his strategic research planning. By publishing extensively in high-impact Engineering journals, he showcases strong analytical, technical, and collaborative skills essential to Engineering progress. Prof. Jijun Lu’s research abilities contribute not only to academic knowledge but also to transformative Engineering technologies that support sustainable industrial evolution.

Publication Top Notes 

Title: Cover Image, Volume 7, Number 7, July 2025
Journal: Carbon Energy
Authors: Liao Shen; Shaoyuan Li; Yanfeng Wang; Jijun Lu; Fengshuo Xi; Huaping Zhao; Zhongqiu Tong; Wenhui Ma; Yong Lei
Year: 2025

Title: Upcycling Photovoltaic Silicon Waste Into Cost‐Effectiveness Si/C Anode Materials
Journal: Carbon Energy
Authors: Liao Shen; Shaoyuan Li; Yanfeng Wang; Jijun Lu; Fengshuo Xi; Huaping Zhao; Zhongqiu Tong; Wenhui Ma; Yong Lei
Year: 2025

Title: Flash separation and recovery of each component from waste photovoltaic modules
Journal: Chemical Engineering Journal
Authors: Jiaxing Zhang; Xinjie Bai; Jijun Lu; Liao Shen; Yuelong Yu; Fengshuo Xi; Xiuhua Chen; Wenhui Ma; Shaoyuan Li
Year: 2025

Title: Full Component Cycling of Spent CIGS Solar Cells by Transient Pressure Differential
Journal: Advanced Functional Materials
Authors: Haochen Bao; Jijun Lu; Yuelong Yu; Fengshuo Xi; Xiuhua Chen; Wenhui Ma; Shaoyuan Li
Year: 2025

Title: Large-scale preparation of amorphous silicon materials for high-stability lithium-ion battery anodes
Journal: Journal of Power Sources
Authors: Jijun Lu; Shaoyuan Li; Liao Shen; Yanfeng Wang; Kuixian Wei; Yuelong Yu; Fengshuo Xi; Wenhui Ma; Zhi Wang
Year: 2025

Title: Recent advances in interface engineering of silicon anodes for enhanced lithium-ion battery performance
Journal: Energy Storage Materials
Authors: Liang Wang; Jie Yu; Shaoyuan Li; Fengshuo Xi; Wenhui Ma; Kuixian Wei; Jijun Lu; Zhongqiu Tong; Bao Liu; Bin Luo
Year: 2024

Conclusion

Prof. Jijun Lu represents the ideal integration of Engineering scholarship, innovation, and practical impact. His work reflects deep Engineering expertise, addressing global challenges in sustainable metallurgy and energy materials. By combining academic rigor with applied Engineering solutions, he has advanced both knowledge and industry practices. His leadership in Engineering projects, mentorship of students, and impactful publications make him a key contributor to the future of Engineering science. The numerous honors and technology transfers under his guidance further affirm his influence in shaping modern Engineering approaches. Through dedication, vision, and technical mastery, Prof. Jijun Lu continues to drive Engineering forward, ensuring it remains central to technological advancement and environmental sustainability.

Dr. Ajay Kumar Maurya | Engineering | Best Researcher Award

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Dr. Ajay Kumar Maurya | Engineering | Best Researcher Award

Assistant Professor at Nirma University, India

Dr. Ajay Kumar Maurya has established himself as a dedicated academician in the domain of Electrical and Electronics Engineering. His contributions span across renewable energy systems, ocean wave energy converters, and solar PV integration, making Engineering applications highly impactful for sustainable power generation. With strong academic grounding and professional exposure, his Engineering focus remains on innovation, optimization, and practical implementation of advanced technologies. He combines research excellence with practical Engineering development, ensuring strong relevance to both industry and academia. His professional career demonstrates commitment toward advancing Engineering education and developing real-world solutions that address global energy challenges. Through active teaching, research, and project engagements, Dr. Maurya continues shaping future advancements in Engineering knowledge and practice.

Professional Profile

ORCID Profile | Google Scholar Profile | Scopus Profile 

Education 

Dr. Ajay Kumar Maurya has pursued rigorous academic training in Electrical Engineering, gaining specialization in renewable energy and power systems. His doctoral research focused on hybrid energy systems integrating solar and ocean wave technologies, a milestone in Engineering innovation. With progressive qualifications from leading institutions, his education reflects a consistent dedication to Engineering advancement. His learning journey was marked by specialization in power electronics, converters, and renewable energy, which are vital areas within Engineering applications. He built strong conceptual foundations while also emphasizing practical Engineering implementations. This educational background enables him to contribute significantly to Engineering research and teaching. His academic preparation serves as the cornerstone of his professional accomplishments, strengthening his impact within the Engineering discipline.

Experience 

Dr. Ajay Kumar Maurya has accumulated significant professional experience as an Assistant Professor in reputed universities, where he contributed extensively to Electrical Engineering education. His work emphasized practical Engineering applications, teaching undergraduate and postgraduate courses, while mentoring students in innovative research. He has been actively engaged in developing Engineering laboratories, consultancy projects, and research collaborations. Through diverse academic positions across multiple Engineering institutions, he enhanced the quality of education and research delivery. His consultancy experience in designing linear generators for ocean wave power highlights the applied nature of his Engineering expertise. Each professional role reflects his vision of integrating research with Engineering education. Dr. Maurya’s journey underlines his strong leadership and active participation in shaping Engineering advancements.

Research Interest 

Dr. Ajay Kumar Maurya’s research interests are deeply rooted in Electrical and Electronics Engineering, particularly in renewable energy, solar PV systems, and ocean wave energy converters. He actively explores power electronics, converters, and off-grid systems, strengthening Engineering solutions for sustainable energy challenges. His academic work investigates hybrid renewable systems using MATLAB and hardware prototypes, reflecting advanced Engineering analysis. He has authored multiple journal articles focusing on Engineering innovations in power systems and converters. His research bridges theoretical Engineering models with practical energy applications, aligning with global sustainability goals. By focusing on cutting-edge Engineering concepts, Dr. Maurya contributes to solving pressing issues like grid integration and efficient energy conversion. His research interest continues shaping the Engineering landscape globally.

Award and Honor

Dr. Ajay Kumar Maurya has received multiple recognitions for his outstanding contributions in Engineering. His achievements include session chairing in international conferences, delivering expert talks on renewable energy, and securing prestigious fellowships during his Ph.D. He has also been a member of technical committees in Engineering events organized at reputed institutes. His selection as a key speaker and program chair reflects his respected status in the Engineering community. Dr. Maurya has been recognized for his role in advancing Engineering education, guiding research, and contributing to innovations in renewable energy technologies. These awards and honors reflect his leadership in the Engineering field, where his expertise is valued both nationally and internationally, further affirming his reputation as a distinguished Engineering professional.

Research Skill

Dr. Ajay Kumar Maurya possesses a wide array of research skills in Electrical and Electronics Engineering. His expertise includes MATLAB programming, hardware prototyping, and simulation of power electronics systems. He has mastered Engineering techniques such as inverter design, converter analysis, and renewable energy system development. His skills also extend to fabricating testing laboratories and applying Engineering tools like OPAL-RT simulators and dSPACE platforms. These capabilities empower him to merge theoretical Engineering concepts with practical validations. His technical strength is complemented by his analytical ability to optimize renewable systems. Such Engineering-oriented skills allow him to develop robust solutions for power systems and converters. His proficiency demonstrates his contribution as a well-rounded researcher with impactful Engineering problem-solving abilities.

Publication Top Notes 

Title: Assessment of ocean wave energy converters for Indian Coastal Region
Authors: AK Maurya, SP Singh
Journal: IETE Technical Review

Title: A study on ocean wave power and utilization for Indian coastal region
Authors: A Kumar Maurya, SP Singh
Journal: Asian Conference on Energy, Power and Transportation Electrification

Title: Analysis of cascaded buck–boost inverter for PMLG-based ocean wave energy converter
Authors: AK Maurya, SP Singh
Journal: IETE Journal of Research

Title: Fuel cell integrated with five level VSI for industrial pump applications
Authors: AK Maurya, YK Chauhan, RK Mishra
Journal: International Journal of Renewable Energy Research

Title: Multilevel converter-photovoltaic source based single-phase standalone generating system
Authors: AK Maurya, YK Chauhan
Journal: International Conference on Energy Efficient Technologies

Title: Analysis of Buck-Boost Inverter Installed in Permanent Magnet Linear Generator-based Ocean Wave Energy Converter
Authors: AK Maurya, SP Singh
Journal: IETE Journal of Research

Title: Performance of isolated generating system with multilevel inverter using photovoltaic source
Authors: AK Maurya, YK Chauhan
Journal: Annual International Conference on Emerging Research Areas

Title: Analysis on photovoltaic assisted three phase five level unipolar PWM inverter for induction motor driven water pumping system
Authors: AK Maurya, K Chahar, YK Chauhan
Journal: International Journal of Advanced Computer Research

Title: Performance investigation of ShapeDoKu variant for PV formations under realistic assumptions of shading situations
Authors: AS Yadav, AK Maurya, V Mukherjee
Journal: Optik

Title: Performance Investigation of Physically Relocation Arrangement with Different Associations of Bypass Diode during Shadings
Authors: AS Yadav, AK Maurya, V Mukherjee
Journal: Optik

Title: Direct Drive Ocean Wave Energy Converter Based Off-grid supply System
Authors: AK Maurya, SP Singh, YV Hote
Journal: IEEE Power India International Conference (PIICON)

Title: Performance analysis of fuel cell assisted distributed generation system
Authors: K Chahar, AK Maurya, A Chaturvedi
Journal: International Conference on Contemporary Computing and Informatics

Title: Simplified control algorithm based on irp theory for three phase shunt active power filter
Authors: AK Maurya, YK Chauhan
Journal: International Conference on Heterogeneous Networking for Quality

Title: Application of Generalized Instantaneous Reactive Power Theory for Three-Phase Four-Wire System
Authors: AK Maurya, YK Chauhan
Journal: International Journal of Engineering and Technology

Title: A Comparative Study and Performance Evaluation of Rearranged TCT PV arrangement under Shading Conditions
Authors: VM Anurag Singh Yadav, Ajay Kumar Maurya, Himanshu Shekhar
Journal: Energy

Title: Techno-economic-enviro-socio analysis of autonomous unified distributed generation using load scheduling approach and dispatch strategies
Authors: PK Kushwaha, C Bhattacharjee, AK Maurya
Journal: Electrical Engineering

Title: Design and Development of Emulator for Direct Drive PMLG Based Ocean Wave Energy Converter
Authors: AK Maurya, SP Singh
Journal: IETE Technical Review

Conclusion

Dr. Ajay Kumar Maurya exemplifies dedication to Electrical and Electronics Engineering through his teaching, research, and consultancy engagements. His work integrates renewable energy, power electronics, and hybrid systems, making Engineering impactful for sustainable growth. He continues to lead initiatives that merge innovation with applied Engineering, ensuring his contributions are relevant and forward-looking. His academic journey reflects excellence in Engineering education, while his publications and projects demonstrate applied outcomes in real-world contexts. Recognized with honors and professional responsibilities, he remains a respected figure in the Engineering community. Dr. Maurya’s profile establishes him as a visionary academic committed to advancing Engineering knowledge, inspiring students, and shaping future directions of sustainable Engineering development.