Xinsheng Dong | Electrical Engineering | Best Researcher Award

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Mr. Xinsheng Dong | electrical engineering | Best Researcher Award

senior engineer | State Grid Xinjiang Electric Power Research Institute | China

Strengths for the Award

  1. Research Impact and Contribution: Xinsheng Dong has authored 20 documents and his work has been cited 49 times. His research focuses on key areas of electrical engineering, particularly concerning power systems, such as transmission line safety under extreme weather conditions, seismic vulnerability analysis, and lightning strike detection. These topics are critical to enhancing the reliability and resilience of power grids, which is highly relevant to the energy sector.
  2. Innovation and Relevance: The studies conducted by Dong, such as precise lightning strike detection and transmission tower tilt state recognition, demonstrate innovation in addressing complex challenges in power systems. His work contributes to the development of advanced monitoring and prevention methods that can significantly improve the safety and efficiency of electrical grids.
  3. Collaboration and Co-Authorship: With 68 co-authors, Dong exhibits strong collaborative skills, which are essential for large-scale, interdisciplinary research projects. His ability to work with a diverse team enhances the breadth and depth of his research.
  4. Publications in Recognized Journals: Dong has published in reputable journals such as Applied Sciences (Switzerland) and Processes, indicating that his research meets the standards of peer-reviewed scientific communities.

Areas for Improvement

  1. Citation Impact: With an h-index of 4 and 49 citations, the citation impact of Dong’s work, while respectable, suggests there is room for growth in terms of broader recognition and influence within the research community. Increasing engagement with the academic community, through conference presentations or collaborations, could help enhance the visibility and impact of his research.
  2. Expanding Research Scope: While Dong’s work is highly specialized in certain areas of power systems, expanding his research scope to include emerging fields such as renewable energy integration or smart grid technologies could further strengthen his profile and align his contributions with global research trends.
  3. Grant Acquisition and Awards: The profile indicates that Dong has not yet received awarded grants, which could be an area for improvement. Pursuing competitive research grants would not only provide additional funding but also serve as recognition of his research quality and potential impact.

Conclusion

Xinsheng Dong is a dedicated researcher whose contributions to the field of electrical power systems are both valuable and relevant. His focus on improving the safety and resilience of transmission lines under adverse conditions aligns well with the needs of the industry. While his citation metrics suggest room for improvement in terms of research impact, his innovative approach and collaborative efforts are commendable strengths. To strengthen his candidacy for a “Best Researcher Award,” Dong could benefit from expanding his research influence through increased publication impact, grant acquisition, and engagement with broader, interdisciplinary topics within the energy sector.

Short Bio 🌟

Dong Xinsheng is a distinguished researcher at the State Grid Xinjiang Electric Power Research Institute in Urumqi, China. With significant contributions to the field of electrical power systems, he has become a leading figure in his area of expertise. His research is pivotal in advancing technologies related to transmission lines and power system stability.

Profile

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Education πŸŽ“

Dong Xinsheng holds advanced degrees in electrical engineering and power systems from prestigious institutions. His educational background provides a solid foundation for his extensive research and innovative contributions to the field.

Experience πŸ› οΈ

Dong has accumulated substantial experience working with the State Grid Xinjiang Electric Power Research Institute. His role involves leading projects on power system stability and developing advanced methodologies for transmission line management under extreme conditions.

Research Interest πŸ”¬

Dong’s research interests include power system stability, transmission line dynamics under extreme weather conditions, and innovative detection methods for lightning strikes. His work focuses on improving the reliability and efficiency of power systems through advanced analytical techniques.

Awards πŸ†

Dong Xinsheng’s outstanding contributions to the field have earned him recognition in the form of awards and accolades. These honors highlight his impactful research and commitment to advancing electrical power systems technology.

Publications πŸ“š

  1. Study on the Bouncing Process Induced by Ice Shedding on Overhead Conductors under Strong Wind Conditions (2024, Applied Sciences (Switzerland)). Co-authored with Zhao, M., Li, M., and Zhu, Y.
    • Cited by 0 documents.
  2. Research of Ice-shedding Response of Transmission Lines Under Strong Winds (2024, Dianwang Jishu/Power System Technology). Co-authored with Zhu, Y., Xie, S., Wang, S., and Zhang, Y.
    • Cited by 0 documents.
  3. Precise Lightning Strike Detection in Overhead Lines Using KL-VMD and PE-SGMD Innovations (2024, Processes). Co-authored with Liu, J., He, S., Dong, Z., and Cai, M.
    • Cited by 0 documents.
  4. Research on Application of Boundary Estimation Method in Seismic Vulnerability Analysis of High Voltage Distribution System (2024, Gaoya Dianqi/High Voltage Apparatus). Co-authored with Liu, W., Li, H., Wang, J.
    • Cited by 0 documents.
  5. Transmission Tower Tilt State Recognition Based on Parameter Optimization of VMD-SVD and LSTM (2023, Zhongguo Dianli/Electric Power). Co-authored with Zhao, L., Wen, G., Liu, Z., Yuan, P.
    • Cited by 0 documents.
  6. Primary frequency regulation strategy for variable-speed wind turbines based on improved coordinated control of rotor speed and pitch angle (2023, Dianli Zidonghua Shebei/Electric Power Automation Equipment). Co-authored with Peng, H., He, S., Yuan, Z., Xu, L.
    • Cited by 3 documents.
  7. Study of the Prevention Method of Β±800 kV Transmission Tower Foundation Deviation (2023, Energies). Co-authored with Wen, G., Zhao, M., Li, M., Zhao, L.
    • Cited by 4 documents.
  8. Fragility analysis of an ultra high voltage transmission tower in saline soil subjected to wind loads (2023, Structure and Infrastructure Engineering). Co-authored with Liang, Y., Zhao, C.-X., Wei, Y.-Y., Feng, H.-Q.
    • Cited by 2 documents.

Abubakar Siddique | Electrical Engineering Award | Best Researcher Award

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Dr. Abubakar Siddique | Electrical Engineering Award | Best Researcher Award

Assistant Professor,Β Khwaja Fareed University of Engineering and Information Technology (KFUEIT), Rahim yar Khan, Pakistan

πŸ† Dr. Abubakar Siddique, an Assistant Professor in Electrical Engineering at Khwaja Fareed University of Engineering and Information Technology (KFUEIT) in Rahim Yar Khan, Pakistan, has been honored with the prestigious Best Researcher Award. His groundbreaking contributions in the field of electrical engineering have earned him recognition both locally and internationally. Dr. Siddique’s dedication to advancing knowledge and innovation is reflected in his exceptional research work, which has significantly contributed to the academic and scientific community. As a respected scholar and educator, he continues to inspire students and peers alike, shaping the future of electrical engineering research.

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QualificationΒ 

πŸŽ“ Dr. Abubakar Siddique pursued his Doctorate (Ph.D.) in Electrical Engineering, specializing in Power Systems, at the School of Electrical and Electronic Engineering, North China Electric Power University (NCEPU), Beijing, China, from 2016 to 2019. Prior to that, he completed his Master of Engineering in Electrical Engineering (Power) from the Department of Electrical Engineering at UCET, The Islamia University of Bahawalpur, Punjab, Pakistan, during 2011-2013. His academic journey began with a Bachelor of Engineering in Electrical Engineering (Power) from the same institution, UCET, from 2007 to 2011. Dr. Siddique’s diverse educational background underpins his expertise in the field.

Work Experience

πŸ‘¨β€πŸ« Dr. Abubakar Siddique boasts a rich teaching and professional journey that spans various esteemed institutions and roles. Currently serving as an Assistant Professor in the Electrical and Biomedical Engineering Department at Khwaja Fareed University of Engineering & Information Technology (KFUEIT) in Rahim Yar Khan, Pakistan, since September 2019, he imparts his expertise to aspiring engineers. Additionally, he holds the esteemed position of Directorship at the High Voltage Laboratory at KFUEIT since 2021. Prior to this, Dr. Siddique served as a Lecturer at both The Islamia University Bahawalpur and Quaid-e-Azam College of Engineering Technology, contributing significantly to academic development. His professional journey commenced as a Site Engineer at ENMASSE M.E Consultant and Joint Venture in Multan, showcasing his practical engineering experience.

Research InterestsΒ 

πŸ”¬ Dr. Abubakar Siddique’s research interests encompass advanced dielectric materials, high voltage insulating testing technology, and perovskite solar cell (PSC) technology. With a focus on exploring innovative materials and techniques, he contributes significantly to the development of high-performance insulation systems and renewable energy solutions. Additionally, his expertise extends to electrical power distribution systems and microgrids, where he explores sustainable and efficient methods of energy distribution and management. Dr. Siddique’s multidisciplinary approach and dedication to cutting-edge research in these areas underline his commitment to advancing technology for a more sustainable and electrified future.

Publications ( Top Notes )

“Up-Gradation of Highly Efficient & Profitable Eco-friendly Nanofluid-based Vegetable Oil Prepared by Green Synthesis Method for the Insulation and Cooling of Transformer”

Year: 2024

Author: Siddique A, Tanzeela, Aslam W, Siddique S

πŸ“ Clean Technologies and Environmental Policy. [IF: 4.7]

“A Comprehensive Circuit and Modulation Design of Mixed Frequency Conversion Cascaded Power Electronic Transformer”

Year: 2024

Author: Yonghai Xu, Xueyin Zhang, Xu Dong, Abubakar Siddique, Waseem Aslam

πŸ“ International Journal of Electrical Power & Energy Systems, Volume 156, p:109784 [IF: 5.2]

“Permittivity and Breakdown Voltage Study of the Epoxy-Based Nanocomposites”

Year: 2023

Author: Siddique A, A Amna, Aslam W, F Maham, Sardar U, Noon A

πŸ“ International Review of Electrical Engineering, Vol. 18, No. 5 (Online first)

“Up-Gradation of the Dielectric, Physical & Chemical Properties of Cottonseed-Based, Non-Edible Green Nanofluids as Sustainable Alternatives for High Voltage Equipments Insulation Fluids”

Year: 2023

Author: Siddique A, Adnan M, Aslam W, Qamar Murtaza G, Aslam N, Salman A. Alqahtani

πŸ“ HELIYON 2023 (Accepted) [IF: 4.0]

“Design and Analysis of a Hybrid Stand-Alone Microgrid”

Year: 2024

Author: Bhatti, M.Z.A.; Siddique, A.; Aslam, W.; Atiq, S.

πŸ“ Energies, Volume 17 [IF: 3.25]

 

Mohamed Elwardany | Energy Efficiency | Best Researcher Award

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Mr. Mohamed Elwardany | Energy Efficiency | Best Researcher Award

Assistant lecturer, Assuit univeristy, Egypt

Mr. Mohamed Elwardany, an Assistant Lecturer at Assuit University, Egypt, has been awarded the prestigious Energy Efficiency Best Researcher Award πŸ† for his remarkable contributions to the field. His diligent work and dedication have significantly advanced our understanding of energy efficiency practices, particularly in the context of sustainable development. Through his research, Mr. Elwardany has provided valuable insights that can shape policies and initiatives aimed at conserving energy resources and mitigating environmental impact. His expertise and commitment make him a beacon of inspiration for aspiring researchers in the field of energy efficiency.

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Education

Mr. Mohamed Elwardany is a distinguished scholar with an impressive academic background spanning over a decade πŸŽ“. He earned his M.Sc. in Mechanical Power Engineering from Assiut University, Egypt, with a stellar cumulative grade point average of 91.8%, achieving distinction for his outstanding thesis on the Thermal Performance of Gas Turbine Power Plants through Exergy Analysis. Prior to this, he completed his B.Sc. in Mechanical Power Engineering, where he attained Distinction with Honors, ranking 2nd in a class of 132 students. Additionally, he holds a Diploma in Electrical Power Networks from the Industrial Technical Institute in Sohag, Egypt, where he graduated with Distinction with Honors, ranking 3rd in a class of 115 students. His academic excellence and commitment to research make him a valuable asset to the field of engineering.

Work Experience

Since May 2020, Mr. Mohamed Elwardany has been actively engaged in academia and industry, showcasing his diverse skill set and commitment to excellence 🌟. Serving as an Assistant Lecturer at the Mechanical Power Engineering Department, Faculty of Engineering, Assiut University, he teaches various courses ranging from Engineering Drawing to Energy Systems, Power Plants & Economics. His responsibilities include supervising B.Sc. graduation projects, marking assessments, and collaborating with colleagues to enhance course materials. Prior to this role, he served as a Research & Teaching Assistant, contributing significantly to the preparation and delivery of lectures and laboratories. His industry experience includes roles at Dawi Medical Co. as a Part-time Maintenance Engineer and an internship at Samsung Electronics Egypt’s Product Design Department, where he honed his skills in mechanical design and prototyping.

Skills

Mr. Mohamed Elwardany possesses a strong proficiency in both English and Arabic, as evidenced by his very good command of English and native fluency in Arabic, complemented by an impressive TOEFL ITP score of 650/677 achieved in June 2021 πŸ“š. Additionally, he demonstrates competence in computer languages with a foundational understanding of C++ and familiarity with MATLAB. His expertise extends to various software tools crucial in engineering practice, including Solid Works, AutoCAD, Automation Studio, EES, TRNSYS, HAP, and ANSYS Fluent. With a diverse linguistic and technical skill set, Mr. Elwardany is well-equipped to excel in interdisciplinary projects and collaborate effectively across different domains.

Awards

Mr. Mohamed Elwardany’s academic journey is adorned with numerous accolades and achievements, reflecting his exceptional dedication and talent in the field of Mechanical Engineering πŸŽ“. He graduated with First-class Honours from the Syndicate of Egyptian Engineers in August 2018, further distinguishing himself through a Bachelor Graduation Project Fund awarded by the Academy of Scientific Research and Technology. During his tenure at Assiut University, he received a Distinction grade Fellowship and secured a Conference Grant Scholarship from The German Company Sustainable Concepts. His prowess extends beyond academia, as demonstrated by his victories in engineering competitions, including 1st Place in the Engineering Zone Competition and Robotics Challenge Competition. These accomplishments underscore his unwavering commitment to excellence and innovation.

Publications Top Notes

  1. Enhancing steam boiler efficiency through comprehensive energy and exergy analysis: A review
    • Journal: Process Safety and Environmental Protection
    • Year: 2024
    • DOI: 10.1016/j.psep.2024.01.102
  2. Advancing sustainable thermal power generation: insights from recent energy and exergy studies
    • Journal: Process Safety and Environmental Protection
    • Year: 2024
    • DOI: 10.1016/j.psep.2024.01.039
  3. Analyzing global research trends in combined cycle power plants: A bibliometric study
    • Journal: Energy Nexus
    • Year: 2024
    • DOI: 10.1016/j.nexus.2023.100265
  4. Comparative Evaluation for Selected Gas Turbine Cycles
    • Journal: International Journal of Thermodynamics
    • Year: 2023
    • DOI: 10.5541/ijot.1268823
  5. Energy and exergy assessment of 750 MW combined cycle power plant: A case study
    • Journal: Energy Nexus
    • Year: 2023
    • DOI: 10.1016/j.nexus.2023.100251
  6. Case Study: Exergy Analysis of a Gas Turbine Cycle Power Plant in Hot Weather Conditions
    • Conference: 5th Novel Intelligent and Leading Emerging Sciences Conference (NILES)
    • Year: 2023
    • DOI: 10.1109/niles59815.2023.10296731
  7. Performance Assessment of Combined Cycle Power Plant
    • Conference: 5th Novel Intelligent and Leading Emerging Sciences Conference (NILES)
    • Year: 2023
    • DOI: 10.1109/niles59815.2023.10296617
  8. ANSYS-Fluent numerical modeling of the solar thermal and hybrid photovoltaic-based solar harvesting systems
    • Journal: Journal of Thermal Analysis and Calorimetry
    • Year: 2023
    • DOI: 10.1007/s10973-023-12509-2
  9. The recent advancements in the building integrated photovoltaic/thermal (BIPV/T) systems: An updated review
    • Journal: Renewable and Sustainable Energy Reviews
    • Year: 2022
    • DOI: 10.1016/j.rser.2022.112988
  10. The collector’s design parameters impact on solar energy applications – A review
    • Conference: 2nd International Conference on Sustainability, Energy and Environmental Sciences, University of Cambridge, Cambridge, United Kingdom
    • Year: 2018

 

Dillip Mishra | Electrical Engineering | Best Researcher Award

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Dr. Dillip Mishra | Electrical Engineering | Best Researcher Award

Postdoctoral Fellow,Β Clemson University,Β United States

Dr. Dillip Mishra, a distinguished researcher in Electrical Engineering, has been honored with the prestigious Best Researcher Award for his outstanding contributions to the field. πŸ† Currently serving as a Postdoctoral Fellow at Clemson University in the United States, Dr. Mishra has demonstrated exceptional expertise in his research endeavors. His innovative work encompasses cutting-edge advancements in electrical engineering, addressing critical challenges and pushing the boundaries of knowledge in the field. With a commitment to excellence and a passion for discovery, Dr. Mishra continues to inspire fellow researchers and students alike, shaping the future of electrical engineering. 🌟

Profile

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Employment History

Dr. Dillip Mishra, a versatile researcher in automotive and electrical engineering, has a rich academic and industry background spanning across multiple continents. 🌏 As a Postdoctoral Fellow at Clemson University’s Department of Automotive Engineering since 2023, he brings a wealth of experience from his previous roles. From serving as a Power System Research Assistant at the University of Technology Sydney, Australia, to contributing as a Guest Faculty at IIIT Bhubaneswar, India, Dr. Mishra has left an indelible mark in academia. His industry stints, including a research internship at STAHL Metall Engg, Australia, and a role as a Junior Engineer at TATA Projects Ltd, India, reflect his practical expertise and dedication to advancing engineering solutions. πŸš—βš‘

Education

Dr. Dillip Mishra’s academic journey reflects a steadfast commitment to excellence in electrical engineering, culminating in a Ph.D. from the University of Technology Sydney, Australia, in 2023. πŸŽ“ Prior to this, he earned a Master of Technology (Hons.) in Energy System from OUTR, Odisha, India, in 2017, where his passion for energy systems began to flourish. Driven by a thirst for knowledge and a desire to innovate, he laid the foundation for his academic pursuits with a Bachelor of Technology (Hons.) in Electrical Engineering from BPUT, Odisha, India, in 2012. His academic achievements underscore his dedication to advancing the field of electrical engineering. βš‘πŸ“š

Area Of Interest

Dr. Dillip Mishra’s research interests encompass a diverse range of cutting-edge topics at the forefront of electrical engineering. With a focus on renewable energy and micro-grid systems, he delves into pioneering solutions that promote sustainability and energy independence. πŸ’‘ His work also delves into enhancing power system resiliency, crucial in the face of increasing environmental uncertainties. Dr. Mishra is deeply involved in advancing energy storage technologies, vital for storing renewable energy efficiently. Additionally, his research extends to electric vehicle integration, smart grid technologies, and transactive energy systems, reflecting his commitment to shaping the future of energy generation, distribution, and utilization. πŸŒ±πŸ”‹πŸš—

Publications Top Notes

“PSO-GWO Optimized Fractional Order PID Based Hybrid Shunt Active Power Filter for Power Quality Improvements” – 2020, 134 citations

“A review on resilience studies in active distribution systems” – 2021, 128 citations

“A review on solid-state transformer: A breakthrough technology for future smart distribution grids” – 2021, 63 citations

“Active distribution system resilience quantification and enhancement through multi-microgrid and mobile energy storage” – 2022, 35 citations

“Resilient control based frequency regulation scheme of isolated microgrids considering cyber attack and parameter uncertainties” – 2022, 24 citations

“Modelling & simulation of a PV based micro grid for enhanced stability” – 2017, 23 citations

“Advanced wavelet transform based shunt hybrid active filter in PV integrated power distribution system for power quality enhancement” – 2020, 15 citations

“Performance Enhancement of AGC under open market scenario using TDOFPID and IPFC controller” – 2018, 14 citations

“Application of Small-Scale Compressed Air Energy Storage in the Daily Operation of an Active Distribution System” – 2021, 13 citations

“Reactive power compensation in a stand-alone wind-diesel-tidal hybrid system by a fuzzy logic based UPFC” – 2015, 13 citations