Ivan Beloev | Energy Efficiency | Top Researcher Award

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Prof. Ivan Beloev | Energy Efficiency | Top Researcher Award

University of Ruse "Angel Kunchev" | Bulgaria

Prof. Ivan Beloev is a distinguished academic and researcher in the field of transport technology and management, currently serving as the Head of the Center for Continuing Education and the Head of the Department of Transport at Ruse “Angel Kanchev” University, where he is also a Professor in Technology and Transport Management. His professional journey at the same institution spans over a decade, beginning as an Assistant in 2014 and progressing through roles as Assistant Professor, Associate Professor, and Professor. Prof. Beloev holds a Ph.D. in Transport, Shipping, and Aviation (2014–2015), with a dissertation focused on developing and researching modular systems for combined energy supply and emission monitoring in road transport. He also earned his Master’s and Bachelor’s degrees in Technology and Management of Transport from Ruse “Angel Kanchev” University. An active contributor to numerous national and international research and educational projects, his work includes initiatives under the Operational Program “Science and Education for Smart Growth” and national programs such as “Low-Carbon Energy for Transport and Household” and “Intelligent Livestock Breeding.” Prof. Beloev has led and participated in projects on multimodal transport technologies, driver training simulators, and digitalization in urban transport systems. His scholarly contributions include co-authoring the monograph Modelling of the Interaction of the Different Vehicles and Various Transport Modes: The Danube River, Multimodality and Intermodality (Springer, 2019), reflecting his commitment to advancing sustainable and intelligent transport systems.

Profiles: Google Scholar

Featured Publications

"Natural and Waste Materials for Desulfurization of Gaseous Fuels and Petroleum Products.  Fuels, I Iliev, A Filimonova, A Chichirov, A Vlasova, R Kamalieva, I Beloev, 2025"

"Modeling of Measuring Transducers for Relay Protection Systems of Electrical Installations, I Iliev, A Kryukov, K Suslov, N Kodolov, A Kryukov, I Beloev, Y Valeeva, 2025"

"Approach to Optimising and managing warehouse stocks in a car service. Baltic Journal of Economic Studies, I Beloev, D Grozev, 2025"

"Investigation in energy parameters of process of compacted soil transportation by flexible sectional screw conveyor, 24th International Scientific Conference, V Bulgakov, O Glazunova, O Trokhaniak, A Almeida, A Rucins, A Aboltins, 2025"

"Development of a Hybrid Expert Diagnostic System for Power Transformers Based on the Integration of Computational and Measurement Complexes, Energies, I Beloev, ME Alpatov, MS Garifullin, IF Galiev, SF Rakhmankulov, I Iliev, 2025"

Bin Song | Technological Networks | Best Researcher Award

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Dr. Bin Song | Technological Networks | Best Researcher Award

Southwest Petroleum University | China

Dr. Bin Song, Doctor of Engineering, is an Associate Researcher and Master's Supervisor at Southwest Petroleum University. His research is dedicated to gas safety and integrity assessment, hydrogen storage and transportation, and efficient utilization. He has authored more than 20 high-level academic papers, with 16 indexed in SCI, and holds 4 national invention patents, including one that has successfully undergone technological transformation. In addition, he has contributed to the compilation of 2 industry/township standards, reflecting his active role in advancing research and practice in the field.

Profiles: Orcid ID

Featured Publications

"Experimental and numerical study on explosion characteristics and hazards of methane-air mixtures in a chamber"

"Gas dispersion and non-uniform explosion characteristics in large dining venues: numerical simulation and experimental validation"

"Quantitative risk assessment of gas leakage and explosion in open kitchens and partitioned kitchens"

Peyala Dharmaiah | Thermoelectric Materials | Best Researcher Award

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Dr. Peyala Dharmaiah | Thermoelectric Materials | Best Researcher Award

Changwon National University | South Korea

Author Profiles

Scopus

Orcid ID

Google Scholar

Early Academic Pursuits

Dr. Peyala Dharmaiah began his academic journey with a strong foundation in physics, earning a Bachelor’s and Master’s degree from Sri Venkateswara University, India, where he demonstrated excellence with consistently high grades. His curiosity for advanced materials research led him to pursue a Ph.D. in Advanced Materials Engineering at Kongju National University, South Korea. During his doctoral studies, he worked extensively on thermoelectric materials, focusing on enhancing performance in BiSbTe-based alloys through structural optimization. His early academic path reflects a strong blend of theoretical understanding and practical experimentation, laying the groundwork for his distinguished research career.

Professional Endeavors

Dr. Dharmaiah’s professional trajectory spans prestigious institutions in India and South Korea. Beginning as a UGC project fellow at Sri Venkateswara University, he gained valuable experience in luminescent materials and photonic applications. Post-Ph.D., he contributed significantly as a postdoctoral fellow at Kongju National University and later at the Korea Institute of Science and Technology (KIST), where he specialized in advanced thermoelectric materials and device fabrication. Currently, as a G-LAMP Post-Doctoral Fellow at Changwon National University, he continues to refine his expertise in 2D layered Zintl phase materials and their thermoelectric applications. His career reflects continuous growth, innovation, and leadership in material sciences.

Contributions and Research Focus

The central theme of Dr. Dharmaiah’s research is thermoelectric materials for power generation and cooling applications. He has developed advanced synthesis and processing methods such as spark plasma sintering, hot pressing, and atomization techniques to produce high-performance materials suitable for commercialization. His innovations include hierarchical structures, nanocomposites, and microstructural engineering for performance enhancement. Beyond BiSbTe alloys, his research extends to layered Zintl phases, manganese silicides, and doped glass-ceramics, showcasing versatility. His patents on thermoelectric alloys and multi-layered structures highlight his contribution to both academic and industrial applications.

Impact and Influence

Dr. Dharmaiah’s work has advanced the field of thermoelectrics by bridging laboratory-scale research with industrial-scale production methods. His ability to produce high-quality thermoelectric powders in bulk and fabricate large-diameter samples demonstrates the commercialization potential of his research. His awards for oral and poster presentations, including recognition from the Korean Institute of Metals and Materials, underscore the impact of his findings in global scientific forums. Moreover, his guidance to students and collaborative projects have amplified his influence within the research community.

Academic Citations and Recognition

With numerous conference presentations across Korea, the USA, Canada, China, and India, Dr. Dharmaiah has established himself as a global voice in thermoelectric materials research. His published patents serve as a benchmark for innovative manufacturing methods in the field. Recognitions such as the Research Note Award at KIST, best presentation awards, and photography excellence awards highlight his multifaceted talent in both technical and creative aspects of research dissemination. His citations and continued participation in high-level academic conferences reinforce his credibility as a leading researcher.

Legacy and Future Contributions

Dr. Dharmaiah’s legacy lies in his systematic contributions to advancing thermoelectric technology from conceptual research to real-world applications. His pioneering methods of powder synthesis, consolidation, and device fabrication have set a strong foundation for next-generation renewable energy solutions. Looking ahead, his ongoing work on 2D layered Zintl materials promises breakthroughs in sustainable energy harvesting technologies. With his blend of technical expertise, innovative patents, and academic mentorship, he is poised to make impactful contributions that will shape the future of energy materials research globally.

Conclusion

Dr. Peyala Dharmaiah exemplifies the qualities of a dedicated researcher whose career reflects academic brilliance, technical innovation, and global impact. From his early academic pursuits to his current advanced research roles, he has consistently contributed to the progress of thermoelectric materials science. His patents, publications, and awards highlight both originality and practical relevance. With a promising trajectory, Dr. Dharmaiah stands out as a strong candidate for recognition such as the Best Researcher Award, symbolizing excellence, innovation, and lasting influence in the field of advanced materials.

Notable Publications

“Development of two-dimensional layered ZnSb-based thermoelectric materials via alkali metal alloying

  • Author: P. Dharmaiah*, G.M. Park, M. Heo, J. Ju, H.S. Kim, H.J. Park, S.O. Won, T.H. Kim, S.K. Kim, J.S. Kim, S.H. Baek
  • Journal: Journal of Alloys and Compounds
  • Year: 2025

"Enhancement of thermoelectric properties in p-type ZnSb alloys through Cu-doping and synthesis of layered structure materials

  • Author: R Yemmi, BEK Swamy, KM Manjunath, K Yusuf, AM Aljuwayid
  • Journal: Journal of Alloys and Compounds
  • Year: 2024

"Why is it challenging to improve the thermoelectric properties of n-type Bi2Te3 alloys?

  • Author: P Dharmaiah, SJ Jung, JS Kim, SK Kim, SH Baek
  • Journal: Applied Physics Reviews
  • Year: 2024

"Advancement of thermoelectric performances through the dispersion of expanded graphene on p-type BiSbTe alloys

  • Author: E.H. Go, R. Vasudevan, B. Madavali, P. Dharmaiah, M.W. Shin, S.H. Song, S.J. Hong
  • Journal: Powder Metallurgy
  • Year: 2023

"Optimization of mixed grain size structure for enhancement of thermoelectric figure of merit in p-type BiSbTe-based alloys

  • Author: P Dharmaiah, DH Kim, J Kwon, Y Lee, S Geum, G Lee, M Kang, SJ Hong
  • Journal: Journal of Materials Science
  • Year: 2022

MD Tanvir Rahman | Renewable energy | Best Researcher Award

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Mr. MD Tanvir Rahman | Renewable energy | Best Researcher Award

MD Tanvir Rahman, American International University – Bangladesh, Bangladesh

🎓 Md Tanvir Rahman is a dynamic Electrical and Electronic Engineering graduate from AIUB, Bangladesh 🇧🇩, with a stellar academic record and a passion for innovation in renewable energy ⚡, VLSI design 💻, and embedded systems 🤖. With hands-on experience in FPGA programming, sensor integration, and power systems, he has led impactful student initiatives, authored numerous publications 📚, and presented at international conferences 🌍. His vision blends technology and sustainability 🌱, making him a rising star in green engineering and smart solutions. A natural leader and lifelong learner 🌟, Tanvir is committed to shaping a smarter, cleaner future through research and development. 🔬

Professional Profile:

Scopus

Suitability For Best Researcher Award

Md Tanvir Rahman is a highly suitable candidate for the Best Researcher Award due to his remarkable academic achievements, innovative research contributions, and leadership in the field of Electrical and Electronic Engineering. His expertise spans renewable energy, VLSI design, smart grid technology, and embedded systems, positioning him as a promising researcher and future leader in green engineering and sustainable technology.

🔹 Education & Experience 

🎓 Education:

  • 🧠 B.Sc in EEE – AIUB (2025) | CGPA: 3.93 ⭐

  • ⚙️ Diploma in Mechatronics Engineering – Magura Polytechnic Institute (2020) | CGPA: 3.77

  • 📘 SSC in Science – Bheramara Pilot High School (2015) | CGPA: 4.39

💼 Experience:

  • 🚧 Internship: Energypac Power Generation PLC (Diesel Generator & ATS), Feb 2025

  • 🦺 Safety Training: Samsung C&T Safety Academy

  • 📢 Team Lead: IEEE AIUB Student Branch (Mar 2022 – Sept 2023)

🔹 Professional Development

🌱 Tanvir Rahman has actively pursued professional growth through internships, workshops, and leadership roles. His technical exposure spans Arduino programming 🤖, VLSI design using Cadence 🧩, and IoT integration for real-world solutions 🌐. As team lead of IEEE AIUB Student Branch, he orchestrated large-scale events, fostering academic-industry collaboration 🤝. Tanvir has completed training in AI 🤖, nanotechnology 🧪, and safety protocols 🚧, showcasing his well-rounded skill set. His passion for sustainable technology, teamwork, and public speaking 🎤 has helped him build a solid foundation in both technical and leadership domains. He continues to explore new tools and ideas to stay future-ready 🚀.

🔹 Research Focus Category 

🔬 Tanvir Rahman’s research focus lies in Renewable Energy Systems 🌞, Smart Grid Technology ⚡, and VLSI-based Digital Design 💻. His projects explore underwater robotics 🤿, wireless power transmission 🔋, and intelligent automation systems using sensors and microcontrollers 🧠. He integrates AI 🧠 and fuzzy logic into power systems for better voltage regulation and environmental sustainability 🌍. His current capstone research on Unmanned Underwater Vehicles 🌊 merges object detection, 3D mapping, and ecological monitoring. His work reflects a drive to blend hardware-software systems with smart, energy-efficient solutions 🔧, contributing toward greener, smarter infrastructures 🌱.

🔹 Awards and Honors

🏆 Awards & Honors:

  • 🥇 Best Paper Award – Bio Web Conference & ICREST 2025

  • 🌐 International Conference Presenter – Recognized for communication excellence

  • 🧑‍💼 Leadership & Mentorship – IEEE AIUB Student Branch, Team Lead

  • 🧠 Published 22+ Conference Papers in Renewable Energy & Power Systems

  • 🥈 High CGPA Holder – AIUB & Diploma Level

  • 🤝 Secured Sponsorships & Collaborations – IEEE AIUB Events

Publication Top Notes:

Title: Perspectives and Pathways to a Carbon-free Advanced Power Network (CAPN) in Bangladesh for Sustainable Development
Journal: Cleaner Energy Systems
Publication Year: 2025
Authors: A. Shufian, M. Tanvir Rahman, S.K. Shib, N. Mohammad, M.A. Mannan

🔍 Summary in Simple Terms:

This article explores sustainable energy solutions for Bangladesh, specifically focusing on developing a Carbon-free Advanced Power Network (CAPN). The goal is to transition towards clean energy and reduce carbon emissions, which are crucial for tackling climate change and ensuring a sustainable future.

Conclusion:

Md Tanvir Rahman is a highly deserving candidate for the Best Researcher Award. His contributions to renewable energy systems and smart grid technology, combined with his leadership role in IEEE AIUB and his innovative research on underwater robotics, showcase his dedication to both technological innovation and sustainability. Tanvir’s commitment to blending hardware and software solutions to create smarter, greener infrastructures makes him a promising researcher, poised to make significant contributions in the years to come.

Honglin Tang | Power electronics field | Best Researcher Award

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Mr. Honglin Tang | Power electronics field | Best Researcher Award 

Master’s degree, at Chongqing University of Science and Technology, China.

Honglin Tang, is a highly accomplished scholar specializing in electrical engineering and power electronics. Currently pursuing his master’s degree in Electrical Engineering at Chongqing University of Technology, Honglin has demonstrated exceptional academic performance, ranking among the top 3% of his cohort. With a deep interest in power electronics, renewable energy systems, and control technologies, he has actively contributed to multiple prestigious research projects funded by the Chongqing Education Commission. His extensive experience includes developing innovative energy storage systems, photovoltaic inverters, and active battery balancing technologies. Honglin also possesses strong leadership skills, having served as the Chair of the Graduate Student Union, where he spearheaded numerous academic and cultural activities.

Profile

Scopus

Education 🎓

  • Master’s Degree (2022-2025): Pursuing Electrical Engineering with a focus on power electronics at Chongqing University of Technology. Achieved a comprehensive ranking of top 3% (10/357).
    Key Courses: Modern Power Electronics, Renewable Energy Control, and Electrical Control System Simulation.
  • Bachelor’s Degree (2018-2022): Graduated in Electrical Engineering and Automation from Chengdu University of Technology Engineering Institute, ranking in the top 5%.
    Undergraduate Focus: Power systems, energy management, and electronic circuit design.

His robust academic training reflects his commitment to innovation in the field of electrical and electronic engineering.

Experience 💼

  • Chongqing Education Commission Major Projects: Led the design and modeling of quasi-Z source three-phase photovoltaic inverters, combining control strategies like virtual synchronous generator (VSG). Achievements include prototyping 1KW photovoltaic systems and enhancing grid stability.
  • Chongqing Municipal Innovation Program: Developed sensorless MPPT algorithms for photovoltaic tracking systems, resulting in a 19.44% increase in energy generation efficiency.
  • Battery Balancing Research: Proposed a finite state machine-based active balancing control strategy for lithium-ion batteries, significantly improving charging speed and system efficiency.

Honglin’s ability to bridge research and practical applications showcases his strong technical and problem-solving skills.

Research Interests 🔍

Honglin is deeply passionate about advancing renewable energy technologies, focusing on:

  • Photovoltaic Systems: Design and control of quasi-Z source and isolation inverters under weak grid conditions.
  • Energy Storage: Modeling of dynamic cross-scale coupling in lithium-ion batteries and active balancing strategies.
  • Virtual Synchronous Generators: Enhancing grid stability through advanced compensation and damping control.
  • Power Electronics: Simulation and prototyping of DC/DC and DC/AC converter topologies.

His research seeks to develop efficient, sustainable solutions for global energy challenges.

Awards 🏆

  • National Graduate Student Scholarship (2024, Top 3%)
  • Outstanding Graduate Cadre (2023, 2024)
  • National Awards:
    • “Huawei Cup” Mathematical Modeling Competition (2023, National Third Prize)
    • “Zhaoyi Cup” Electronic Design Competition (2024, National Second Prize).
  • Innovation and Service: Recognized as a “Science and Technology Innovation Advanced Individual” (2022, 2023) and “Social Service Advanced Individual” (2024).

Honglin’s awards highlight his academic excellence, leadership, and commitment to innovation.

Top Noted Publications 📚

  • “Control of Transient Power Compensation for Virtual Impedance VSG in Quasi-Z-source Photovoltaic Grid Integration System”
    (2023, Electric Power Systems Research)
    Recognized with the Best Researcher Award. This paper explores the transient power compensation strategies using virtual impedance in quasi-Z-source photovoltaic grid systems.
    Read here.
  • “Improved VSG Control Strategy for Grid-connected and Off-grid Smooth Switching of Photovoltaic Systems”
    (2023, Lecture Notes in Electrical Engineering, Springer)
    Published in ACCES 2023 proceedings, this study focuses on enhancing VSG control for seamless operation in photovoltaic systems during grid-connected and off-grid transitions.
    Read here.
  • “Energy Storage Quasi-Z Source Photovoltaic Grid-connected Virtual Impedance VSG Control Strategy”
    (2023, Journal of Power Electronics)
    This article addresses virtual impedance strategies for energy storage in quasi-Z source grid-connected systems to improve stability and performance.
    Read here.
  • “Low-Voltage Ride-through Strategy in QZS-PV-VSG Systems”
    (Chinese Journal of Scientific Instruments; under review)
    The study proposes a coordination mechanism for virtual impedance and transient damping control in photovoltaic systems, targeting low-voltage ride-through challenges.
  • “Energy Storage Damping Control for Photovoltaic Generation Systems”
    (Electric Power Systems Research; under review)
    Investigates the use of inertia damping and reactive power compensation in energy storage systems for photovoltaic power generation.

Conclusion

Tang Honglin is an exceptional candidate for the “Best Researcher Award,” with a robust record of technical expertise, research achievements, and leadership skills. His innovative contributions to renewable energy systems and active engagement in academic and extracurricular activities underscore his suitability for recognition. Strengthening global outreach, focusing on publishing in higher-tier journals, and enhancing language proficiency will further elevate his profile in the future. Overall, his candidacy aligns well with the award criteria.