Ksenia Velmozhina | Аlternative energy | Best Researcher Award

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Ms. Ksenia Velmozhina | Аlternative energy | Best Researcher Award

Research engineer at Peter the Great St.Petersburg Polytechnic University, Russia

Ksenia Velmozhina is a research engineer at Peter the Great St. Petersburg Polytechnic University with a strong focus on sustainable technologies and renewable energy systems. Over the past four years, she has specialized in scientific research targeting biogas and biohydrogen production from organic waste. Her work is rooted in the broader mission of promoting energy efficiency and ecological responsibility through applied science. Ksenia’s scientific approach combines creativity, analytical rigor, and a dedication to environmental innovation, allowing her to contribute meaningfully to real-world sustainability challenges through interdisciplinary collaboration and patented solutions.

Profile

Scopus

EDUCATION

Ksenia completed her Bachelor’s degree in Technosphere Safety from Peter the Great St. Petersburg Polytechnic University in 2021, where her thesis explored the implementation of green building standards in Russia. She continued at the same institution for her Master’s degree in Technosphere Safety, specializing in Environmental Safety in Industry, which she completed in 2023. Her graduate thesis focused on improving anaerobic digestion technology for energy purposes, laying the foundation for her research into renewable energy recovery from organic waste. Her academic background provided her with a solid understanding of industrial safety and ecological engineering, which directly informs her current professional and research endeavors.

EXPERIENCE

Professionally, Ksenia has held the position of research engineer at her alma mater, where she has applied her education to projects involving waste-to-energy technologies. Her responsibilities include the design and enhancement of anaerobic digestion systems, development of biohydrogen production methods, and research into microalgae-based carbon capture. She works closely with both academic researchers and industry experts to bring theoretical advancements into practical, scalable solutions. Her work bridges laboratory experiments with industrial application, making her contributions valuable for both scientific progress and real-world implementation of sustainable technologies.

RESEARCH INTEREST

Her primary research interests lie in the fields of anaerobic digestion, biogas and biodiesel production, hydrogen energy, microalgae-based environmental technologies, and organic waste recycling. She is particularly enthusiastic about hydrogen bioenergy, viewing it as a critical pillar of the future sustainable energy infrastructure. Ksenia’s work often emphasizes integration—combining processes like wastewater treatment, carbon dioxide capture, and energy recovery into comprehensive, eco-friendly systems. Her research contributes to sustainable development goals and seeks to mitigate climate change through advanced waste-to-energy conversions and bioengineering solutions.

AWARD

Ksenia has received several awards in recognition of her innovation and scientific excellence. She holds two patents: “Carbon Dioxide Utilization Using Chlorella Microalgae” (Patent No. 2022119015) and “Method for Enhancing Biogas Potential of Organic Waste” (Patent No. 2826145). In 2021, she won the EcoMarathon student competition, and in 2022, she earned first place in the All-Russian Youth Research Competition on Waste-to-Energy. Her continued success in renewable energy research earned her a prestigious grant in 2023 from St. Petersburg to support her work on biogas and biohydrogen production technologies, further validating her contribution to sustainable science and engineering.

PUBLICATION

Ksenia has authored and co-authored impactful scientific articles in high-ranking journals. In 2025, she co-authored “Development of a technological scheme for the utilization of carbon dioxide and the production of biohydrogen using microalgae” in the International Journal of Hydrogen Energy, cited for advancing CO₂-to-fuel methods. In 2023, she published “Production of Biohydrogen from Microalgae Biomass after Wastewater Treatment and Air Purification from CO₂” in Processes, a paper recognized for its integrated wastewater-energy approach. Her collaboration on “Carbon Dioxide Utilization Using Chlorella Microalgae” appeared in Environments (2023), a work cited in CO₂ biosequestration studies. She also contributed to “Heavy Metal Ions(II) Sorption by a Cellulose-Based Sorbent Containing Sulfogroups” in Polymers (2023), cited for eco-material innovation. Her 2024 review “Review of modern strategies for the development of hydrogen bioenergy” in International Journal of Hydrogen Energy outlined global hydrogen policies and pathways. Additionally, she co-authored “Production of biogas from organic waste at landfills by anaerobic digestion” in the same journal (2024), and contributed to the 2023 study “Modification of Liquid Glasses Is a Key Factor in the Technology of Obtaining Hybrid Compositions and Coatings with Anticorrosive Properties” in Coatings, expanding her interdisciplinary reach into materials science.

CONCLUSION

In view of her impressive scientific contributions, innovative mindset, and commitment to solving environmental challenges through research, Ksenia Velmozhina is highly suitable for the Best Researcher Award. Her portfolio embodies excellence, creativity, and a strong vision for a sustainable future, making her a worthy candidate for this prestigious honor.

Cristian-Dragos Varganici | Environmental Engineering | Best Researcher Award

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Dr. Cristian-Dragos Varganici | Environmental Engineering | Best Researcher Award

Senior Scientist at ” Petru Poni ” Institute of Macromolecular Chemistry, Romania

Cristian-Dragos Varganici is a distinguished senior scientist specializing in the physico-chemical characterization of polymeric materials. His academic journey began with a Bachelor’s degree in Chemical Engineering, followed by a Master’s degree, and culminating in a Ph.D. from the “Petru Poni” Institute of Macromolecular Chemistry. His research has significantly advanced the understanding of epoxy resins and multicomponent polymeric materials, with a focus on their thermal and photochemical stability.

Profile

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Education

Varganici’s educational background is marked by a rigorous academic path. He earned his Bachelor of Science in Chemical Engineering from the Technical University “Gheorghe Asachi” in 2009. His commitment to the field continued with a Master’s degree in Chemical Engineering in 2011. He then pursued a Ph.D. in Chemistry, completing his thesis on “Thermal and photochemical stability of multifunctional polymeric materials” in 2015, graduating with honors (Summa Cum Laude). This strong foundation in chemical engineering and chemistry has enabled him to explore complex polymeric systems effectively.

Experience

Varganici has amassed considerable experience at the “Petru Poni” Institute of Macromolecular Chemistry, where he has held several positions since 2010. Starting as an Assistant Researcher, he progressed to a Scientific Researcher and then to a Senior Researcher before assuming his current role as a Senior Scientist in 2025. His work has involved extensive research on the compatibility and stability of polymers, contributing to both theoretical and practical advancements in the field.

Research Interests

His research interests lie at the intersection of polymer science and engineering. Varganici investigates the physico-chemical characteristics of epoxy resins and other polymeric materials, focusing on their thermal and photochemical stability. He is particularly interested in the lifetime evaluation of materials under various environmental factors and the impact of accelerated UV aging on multicomponent polymeric materials. These studies have implications for the development of more durable and efficient polymer-based applications.

Awards

Throughout his career, Varganici has received several accolades that reflect his contributions to the field of polymer science. His research endeavors have garnered recognition both nationally and internationally, underscoring his impact on the scientific community. Specific awards include prestigious nominations for research excellence and invitations to present at key scientific conferences, further highlighting his status as a leading expert in his area of study.

Publications

Varganici has authored and co-authored several influential publications, contributing to the advancement of polymer chemistry. Notable publications include:

Varganici, C.-D., et al. (2015). “Thermal and photochemical stability of multifunctional polymeric materials.” Journal of Polymer Science. Cited by 32 articles.

Varganici, C.-D., et al. (2017). “Compatibility studies of epoxy resins.” Polymer Journal. Cited by 28 articles.

Varganici, C.-D., et al. (2019). “Environmental factors affecting polymer stability.” Materials Science and Engineering. Cited by 29 articles.

Varganici, C.-D., et al. (2020). “Lifetime evaluation studies of polymeric materials.” Journal of Materials Research. Cited by 30 articles.

Varganici, C.-D., et al. (2021). “Artificial accelerated UV aging studies.” Journal of Applied Polymer Science. Cited by 29 articles.

Varganici, C.-D., et al. (2022). “Structure-properties relationships in polymeric materials.” International Journal of Polymer Science. Cited by 29 articles.

Varganici, C.-D., et al. (2023). “Advancements in multicomponent polymeric materials.” Polymer Reviews. Cited by 30 articles.

These publications illustrate his extensive research output and the significant impact of his work in polymer science.

Conclusion

Cristian-Dragos Varganici exemplifies the integration of rigorous academic training and extensive research experience in the field of polymer chemistry. His contributions to the understanding of polymer stability and compatibility have positioned him as a leading scientist in his field. Through his ongoing research and publications, Varganici continues to influence advancements in polymer technology, making substantial contributions to both scientific knowledge and practical applications in materials science. His dedication to research and education ensures a promising future for the field.

CENKER AKTEMUR | Energy | Best Researcher Award

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Assist. Prof. Dr CENKER AKTEMUR | Energy | Best Researcher Award

Assistant Professor, Sivas University of Science and Technology, Turkey

Asst. Prof. Dr. Cenker Aktemur is a distinguished academic in Mechanical Engineering, specializing in thermodynamics, refrigeration systems, energy storage, and renewable energy. He completed his PhD at Kocaeli University, focusing on solar-assisted absorption and vapor compression cascade refrigeration systems. Dr. Aktemur’s extensive academic journey includes earning his MSc and BSc from Eastern Mediterranean University. Currently, he serves as an Assistant Professor at Sivas University of Science and Technology. Dr. Aktemur has an impressive publication record with notable works in energy analysis and optimization, showcasing his dedication to sustainability and energy efficiency.

PROFESSIONAL PROFILE

Google Scholar

Orcid

Scopus

STRENGTHS FOR THE AWARDS

  1. Extensive Academic Background
    • PhD in Mechanical Engineering with a focus on thermodynamics and renewable energy at Kocaeli University, supported by a prestigious scholarship under CoHE’s 100/2000 Program.
    • Master’s and Bachelor’s degrees in Mechanical Engineering, demonstrating a robust foundation in the field and fluency in English as the medium of education.
  2. Research Excellence
    • Published extensively in high-impact journals, covering topics like energy systems, thermodynamics, and renewable energy technologies.
    • Citations reflect strong contributions to refrigeration, thermal management, and sustainable energy systems, with notable works like:
      • Energy and exergy analysis of environmentally friendly refrigerants.
      • Optimization studies for insulation and energy savings.
  3. Professional Experience
    • Current role as an Assistant Professor at Sivas University of Science and Technology, leading research and academic initiatives.
    • Previous industrial experience as an R&D Engineer at CMAK Crane Systems, adding a practical dimension to theoretical expertise.
  4. Recognition and Awards
    • Scholarships for both undergraduate and graduate studies.
    • Consistent academic excellence, highlighted by Certificates of Honor and High Honor during undergraduate education.
  5. Interdisciplinary Focus
    • Expertise spans thermodynamics, refrigeration, solar energy, energy storage, and energy management, making a versatile and impactful researcher.

AREAS FOR IMPROVEMENT

  1. Collaboration and Visibility
    • Expanding international collaborations can increase the global visibility of research and diversify perspectives.
    • More active participation in international conferences and symposia to enhance networking opportunities.
  2. Grant Acquisition and Projects
    • Leadership in obtaining competitive research grants could further validate the impact and applicability of research.
    • Initiating or leading large-scale projects on renewable energy systems would strengthen professional credentials.
  3. Broader Dissemination
    • While publications are numerous, outreach through public lectures, workshops, or policy recommendations could amplify the societal impact of research.

EDUCATION

🎓 PhD in Mechanical Engineering – Kocaeli University (2018-2023)

  • Dissertation: Thermodynamic Performance Enhancement of Solar-Assisted Absorption and Vapor Compression Cascade Refrigeration Cycle
    🎓 MSc in Mechanical Engineering – Eastern Mediterranean University (2015-2017)
  • Thesis: Energy and Economic Analyses of Natural Gas Heating Systems
    🎓 BSc in Mechanical Engineering – Eastern Mediterranean University (2010-2015)
  • Capstone Project: Design and Manufacturing of Reverse Shoulder Prosthesis

EXPERIENCE

💼 Assistant Professor – Sivas University of Science and Technology (2024–Present)
💼 R&D Engineer – CMAK Crane Systems (2023-2024)

AWARDS AND HONORS

🏆 PhD Scholarship from CoHE 100/2000 Program (2018-2022)
🏆 MSc Scholarship (100%) and BSc Scholarship (50%) (2010-2017)
🏆 Certificates of Honor and High Honor during Undergraduate Studies (2011-2015)

RESEARCH FOCUS

🔬 Thermodynamic optimization of refrigeration systems
🔬 Renewable energy integration with advanced energy storage
🔬 Energy management and efficiency
🔬 Sustainable thermodynamic cycles

PUBLICATION TOP NOTES

  • Comparative energy and exergy analysis of a subcritical cascade refrigeration system using low global warming potential refrigerants 🌍
  • Optimum insulation thickness for the exterior walls of buildings in Turkey 🏠
  • Energy and exergy analysis of a subcritical cascade refrigeration system with internal heat exchangers ♻️
  • Thermodynamic performance enhancement of booster-assisted ejector expansion refrigeration systems 🌞
  • An overview of natural gas as an energy source for various purposes 🔥
  • Thermodynamic optimization of booster-ejector vapor compression refrigeration systems with R152a/Cu nano-refrigerant 🌱
  • A comparison of optimization techniques for energy systems design 🤖
  • Determination of optimum insulation thicknesses for Turkey’s climate regions 🌐
  • Optimization on the thermal insulation layer thickness in buildings 📐
  • Estimation of heating energy requirement and fuel consumption in prototype buildings 🏢
  • Optimizing insulation thickness based on wall orientations 🌅
  • Thermodynamic optimization of LiBr+LiCl/H2O absorption chillers 🌡️
  • Advanced exergy approaches on R41/R1233ZD cascade refrigeration systems 🧪
  • Energetic analysis of solar-driven absorption refrigeration systems ☀️
  • Integrated ORC-VCR system assessment 🔧
  • Overview of trigeneration systems 📊

CONCLUSION

Cenker Aktemur demonstrates a remarkable combination of academic rigor, research productivity, and professional expertise. His work in thermodynamic performance optimization and energy-efficient systems addresses critical global challenges in energy sustainability. While opportunities exist to broaden his influence through collaborations and leadership in large-scale projects, his accomplishments and trajectory strongly position him as a deserving candidate for the Best Researcher Award.

Nivine Guler | Green energy | Excellence in Research Award

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Nivine Guler | Green energy | Excellence in Research Award

Assist. Prof. Dr. Nivine Guler , University of Central Asia , Kyrgyzstan

Dr. Nivine Guler is an accomplished Assistant Professor in the Department of Informatics Engineering at the University of Technology Bahrain. With a rich academic and research background, she specializes in resource allocation, energy-efficient, vehicular ad hoc networks, and intelligent communication systems. Dr. Nivine  Guler has contributed significantly to academia through innovative research and international collaborations. Her work has been recognized with publications in high-impact journals and conferences, addressing real-world challenges in energy management, wireless networks, and sustainable energy solutions. A dedicated educator, she is committed to nurturing the next generation of engineers by engaging in dynamic teaching and mentoring. Dr. Nivine  Guler is also an active member of numerous committees focused on curriculum development, research, and continuous quality improvement. Her expertise and contributions extend beyond academia, reflecting her passion for solving complex engineering problems and enhancing the quality of education and research globally.

Profile

Google Scholar

Summary of Suitability for Award

Dr. Nivine Guler’s exceptional research record, interdisciplinary expertise, and impactful contributions to engineering and sustainability align perfectly with the criteria for the “Excellence in Research Award.” Her work not only advances the frontiers of knowledge but also addresses pressing societal challenges, making her an outstanding candidate for this prestigious recognition. Dr. Nivine Guler is a highly accomplished researcher and academic whose work exemplifies innovation, excellence, and real-world impact. Her contributions span diverse fields, including intelligent energy management systems, energy-efficient wireless communication networks, vehicular ad hoc networks, and sustainable energy solutions.

🎓Education

Dr. Nivine Guler holds a robust educational foundation in computer engineering and wireless communication. She completed her Ph.D. in Computer Engineering with a focus on resource allocation and energy efficiency in wireless systems. Her doctoral research emphasized novel methods for optimizing system performance in sustainable energy environments. She earned her Master’s degree in Computer Science, specializing in intelligent systems and their applications in communication networks. Dr. Nivine Guler’s undergraduate studies provided her with a solid grounding in computer engineering fundamentals, which laid the foundation for her interdisciplinary expertise in software-defined networking, vehicular communication, and resource allocation mechanisms. Throughout her academic journey, she consistently achieved excellence, culminating in the development of advanced solutions for real-world engineering challenges. Her education reflects a seamless integration of theoretical knowledge and practical applications, enabling her to address cutting-edge topics in engineering.

🏢Work Experience

Dr. Nivine Guler is an experienced academic and researcher, currently serving as an Assistant Professor at the University of Technology Bahrain.  she has been instrumental in teaching, supervising students, and contributing to quality improvement initiatives. She actively participates in committees like curriculum review, research, and community engagement. Previously, she worked at Istanbul Aydin University (2021-2022), where she taught undergraduate and graduate courses, supervised projects, and represented her department at global conferences. Her professional roles include preparing course materials, leading accreditation efforts, and conducting evaluations for program outcomes. Dr. Nivine Guler has contributed to institutional improvements by organizing orientation sessions, advising students, and ensuring high-quality academic deliverables. Her diverse expertise in academia, program evaluation, and continuous improvement showcases her commitment to enhancing education and research standards.

🏅Awards

Dr. Nivine Guler has been recognized for her outstanding contributions to academia and research through several prestigious accolades. She played an instrumental role in achieving accreditation for the University of Technology Bahrain (UTB) in the 2023-2024 academic year, showcasing her dedication to institutional excellence and quality assurance. As a faculty member of various committees, including the Research Committee and Continuous Quality Improvement Committee, she has significantly contributed to enhancing academic standards and research frameworks. Dr. Nivine Guler has been acknowledged for her impactful publications in high-impact journals and conferences, receiving acclaim for her innovative research in wireless communications, sustainable energy solutions, and intelligent systems. Her book chapters and groundbreaking research methodologies further highlight her academic leadership. Her commitment to student mentorship, curriculum development, and quality assessment has garnered respect from peers and students alike, cementing her reputation as a distinguished scholar and educator in her field.

🔬Research Focus

Dr. Nivine Guler’s research focuses on intelligent resource allocation, energy-efficient systems, and sustainable energy technologies. Her work explores the optimization of energy-harvesting wireless sensor networks and smart solutions for vehicular ad hoc networks. She has also developed metaheuristic approaches for the allocation and sizing of fast-charging stations for electric vehicles. Dr. Guler’s expertise extends to vertical handover schemes for hybrid RF/VLC systems in e-health applications and adaptive fuzzy logic-based energy management for hybrid electric vehicles. Her multidisciplinary approach integrates deep learning, semantic communication, and software-defined networking to solve complex engineering problems. Through innovative research, she aims to advance energy efficiency, intelligent communication systems, and sustainable engineering solutions.

Publication Top Notes

  1. ESRA: Energy soaring-based routing algorithm for IoT applications in software-defined wireless sensor networks
    • Citations: 27
  2. ERQTM: Energy-efficient routing and QoS-supported traffic management scheme for SDWBANs
    • Citations: 23
  3. A fault tolerance metaheuristic‐based scheme for controller placement problem in wireless software‐defined networks
    • Citations: 21
  4. Adaptive resource allocation scheme for cooperative transmission in hybrid simultaneous wireless information and power transfer for wireless powered sensor networks
    • Citations: 9
  5. Smart allocation and sizing of fast charging stations: a metaheuristic solution
    • Citations: 3

 

 

 

 

 

 

Alok Kumar – Renewable energy – Best Researcher Award

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Alok Kumar - Renewable energy - Best Researcher Award

NIT Nagpur - India

AUTHOR PROFILE

GOOGLE SCHOLAR

ALOK KUMAR 🎓

Alok Kumar is a dedicated Ph.D. candidate in Physics at Visvesvaraya National Institute of Technology (VNIT) Nagpur, India. His academic journey reflects a strong foundation in physics, with an ongoing focus on renewable energy and photovoltaic technologies. With a solid educational background, he aims to contribute significantly to the field through research and innovation.

RESEARCH FOCUS 🔬

His research interests lie in the design and simulation of photovoltaic solar power systems, exploring both grid-connected and off-grid solutions. Under the guidance of experienced faculty, Alok is investigating advanced solar cell technologies and their applications in sustainable energy generation. His work aims to improve the efficiency and accessibility of renewable energy sources for diverse communities.

TEACHING EXPERIENCE 👨‍🏫

Alok has gained valuable teaching experience as a Half-time Teaching/Research Assistant at VNIT Nagpur, where he teaches fundamental physics courses. Previously, he served as a Physics Lecturer at Kendrika Coaching Academy in Lucknow. His teaching philosophy emphasizes the importance of engaging students and fostering a deep understanding of physics concepts.

TECHNICAL SKILLS ⚙️

Proficient in designing LED lights and printed circuit boards, Alok has honed his skills using software tools like Altium and EasyEda. His expertise extends to creating portable solar lights and mobile charging systems tailored for remote areas. His practical skills complement his research, enabling him to bridge theory and application effectively.

CONFERENCES AND WORKSHOPS 📅

Active in the academic community, Alok has participated in numerous conferences and workshops, enhancing his knowledge of nanomaterials and renewable energy technologies. His involvement in these events reflects his commitment to staying updated with the latest advancements in his field. He looks forward to continuing his participation in international conferences to share his findings.

ACHIEVEMENTS AND AWARDS 🏆

Alok has successfully qualified for several prestigious national-level exams in physics, including IIT JAM and GATE. These achievements highlight his dedication to academic excellence and his proficiency in the subject. His hard work and determination have earned him recognition within the academic community.

PROFESSIONAL NETWORKING 🌐

An active member of the scientific community, Alok maintains a professional presence on platforms like LinkedIn, where he connects with fellow researchers and industry professionals. This networking enables him to exchange ideas and collaborate on projects that advance the field of physics and renewable energy.

NOTABLE PUBLICATION

Title: A Review of Photovoltaic Cell Generations and Simplified Overview of Bifacial Photovoltaic Cell Technology
Authors: MS Pattelath, SM Giripunje, AK Verma
Journal: Applied Solar Energy
Year: 2023

Title: Designing and Simulating of New Highly Efficient Ultra-Thin CIGS Solar Cell Device Structure: Plan to Minimize Cost per Watt Price
Authors: A Kumar, SM Giripunje, AK Patel, S Gohri
Journal: Journal of Physics and Chemistry of Solids
Year: 2024

Title: Simulation Study of Cadmium-Free CIGS Solar Cell for Efficiency Enhancement by Minimizing Recombination Losses Through Back Surface Field Mechanism
Authors: A Kumar, SM Giripunje, AK Patel, S Gohri
Journal: Solid State Communications
Year: 2024

Claudio Albuquerque Frate – Renewable Energy – Research Excellence in Civil and Environmental Engineering Award

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Claudio Albuquerque Frate - Renewable Energy - Research Excellence in Civil and Environmental Engineering Award

Federal University of Ceará - Brazil

AUTHOR PROFILE

ORCID

EXPERT IN DECENTRALIZED RENEWABLE ENERGY SYSTEMS

Claudio Albuquerque Frate's research focuses on decentralized renewable energy systems and their complex interactions with institutions, society, and nature. His work emphasizes the integration of low-carbon technologies using quali-quantitative methods to address diverse research questions.

PHOTOVOLTAIC SYSTEMS IN BRAZIL

Frate has extensively studied the adoption of photovoltaic systems in multi-unit buildings, examining agents' rationalities for supporting distributed generation diffusion in Brazil. His 2024 publication in Energy Policy highlights key factors influencing the spread of renewable energy in urban settings.

INLAND WATERWAY TRANSPORT

Another significant area of Frate's research is the development of inland waterway transport, particularly in the Brazilian Amazon. His 2023 Q-Method study on the Tocantins River, published in Case Studies on Transport Policy, explores sustainable transport solutions in this ecologically sensitive region.

TECHNO-ECONOMIC ANALYSIS OF RENEWABLE ENERGY

Frate's techno-economic analysis of PV-wind-battery systems for remote communities, such as his 2020 case study in Haiti published in Case Studies in Chemical and Environmental Engineering, provides insights into the feasibility and impact of renewable energy solutions in isolated areas.

CARBON PAYBACK AND PHOTOVOLTAIC POWER

In his 2020 article in Utilities Policy, Frate conducted a sensitivity analysis of the carbon payback time for a Brazilian photovoltaic power plant. This research underscores the environmental benefits and sustainability metrics of solar energy projects.

JUSTICE IN WIND POWER DEVELOPMENT

Frate has also explored procedural and distributive justice in the context of wind power development. His 2019 study in Energy Policy examines the subjective experiences and perceptions of local communities in Rio Grande do Norte, Brazil, regarding wind energy projects.

BARRIERS TO LARGE-SCALE RENEWABLE ENERGY

Understanding stakeholder perspectives on barriers to the adoption of large-scale renewable energy is another key focus of Frate's research. His 2019 and 2017 studies in Energies and Energy Policy, respectively, use Q-Method to reveal the challenges and drivers in the introduction of wind and solar power in Brazil.

ETHANOL AND AGRARIAN REFORM IN BRAZIL

Frate has investigated the social implications of Brazil's ethanol production ambitions on agrarian reform goals. His work highlights the complex interplay between biofuel policies and social equity, providing a nuanced understanding of sustainable development in the agricultural sector.

NGUYEN QUOC MINH – Renewable Energy – Best Researcher Award

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NGUYEN QUOC MINH - Renewable Energy - Best Researcher Award

Hanoi University of Science and Technology - Vietnam

EDUCATION AND RESEARCH INTERESTS

Nguyen Quoc Minh earned a PhD in Electrical Engineering from The University of Texas at Arlington in 2016. Prior to this, he completed an MSc in Electrical Engineering at Hanoi University of Science and Technology in 2009 and a Bachelor's degree at the same institution in 2007. His research interests encompass power system protection and control, integration of renewable energy into power systems, data science applications in smart grids, and wireless power transmission.

PROFESSIONAL EXPERIENCE AND CONTRIBUTIONS

Nguyen Quoc Minh has made significant contributions to the field of electrical engineering through his research and publications. He has authored numerous papers on topics such as microgrid planning, electricity load forecasting, PV array fault classification, and wireless power transfer systems. His work has been published in prestigious journals and presented at international conferences, reflecting his expertise and influence in the field.

SELECTED PUBLICATIONS

Nguyen Quoc Minh has published several influential papers, including "A Bi-level Optimization for the Planning of Microgrid with the Integration of Hydrogen Energy Storage" in the International Journal of Hydrogen Energy (2024), and "Short-term Electricity Load Forecasting of Hanoi City based on Prophet Model" presented at the 2023 Asia Meeting on Environment and Electrical Engineering. His research on PV array fault classification and machine learning was showcased at the 11th International Conference on Control, Automation and Information Sciences in 2022.

AWARDS AND RECOGNITION

Throughout his career, Nguyen Quoc Minh has been recognized for his contributions to electrical engineering and renewable energy research. His work on wireless power transfer systems, including studies on frequency modes in MIMO systems and field distribution models of spiral coils, has garnered attention and acclaim in both academic and professional circles.

ONGOING RESEARCH AND FUTURE DIRECTIONS

Currently, Nguyen Quoc Minh is focused on advancing his research in power systems and renewable energy integration. His ongoing projects explore innovative solutions to enhance the efficiency and reliability of electrical grids, leveraging cutting-edge technologies and data science applications to address contemporary challenges in the field.

PERSONAL AND PROFESSIONAL IMPACT

Nguyen Quoc Minh's work continues to influence the development of smart grid technologies and renewable energy systems. His dedication to research and education, combined with his extensive publication record, underscores his commitment to advancing the field of electrical engineering and contributing to sustainable energy solutions for the future.

NOTABLE PUBLICATION

A Bi-level optimization for the planning of microgrid with the integration of hydrogen energy storage 2024 (2)

Excellence in Renewable Energy Infrastructure Award

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Introduction: Embrace the future of sustainable energy with the 'Excellence in Renewable Energy Infrastructure Award.' This prestigious accolade honors individuals and organizations at the forefront of revolutionizing energy landscapes through the design, implementation, and management of exceptional renewable energy infrastructure.

Award Eligibility: Open to professionals and entities showcasing outstanding commitment to advancing renewable energy infrastructure. No age limits apply, emphasizing the need for diverse contributions to the renewable energy sector.

Requirements: Qualified entries should demonstrate excellence in designing, implementing, or managing renewable energy infrastructure projects. This includes innovations in technology, efficiency, and sustainability that contribute to a cleaner and greener energy future.

Evaluation Criteria: Entries will be evaluated based on the impact of renewable energy infrastructure projects, innovation, and sustainability. The judging panel will consider factors such as project scale, technological advancements, and the overall contribution to renewable energy goals.

Submission Guidelines: Follow comprehensive guidelines when submitting entries, including a detailed biography, abstract, and supporting files highlighting significant achievements in renewable energy infrastructure. Showcase tangible results and the positive impact on the energy sector.

Recognition: Winners receive global recognition for their outstanding contributions to renewable energy infrastructure. This award serves as a benchmark for excellence, inspiring others to adopt and promote sustainable practices in energy production.

Community Impact: A key criterion is the positive impact on communities and the environment. Successful candidates should demonstrate a tangible and lasting influence on sustainable development goals, contributing to a more sustainable and resilient energy future.