Haolin Huang | Energy Storage Research | Best Researcher Award

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Mr. Haolin Huang | Energy Storage Research | Best Researcher Award

Haolin Huang is a dedicated graduate student at Foshan University, focusing on the safety of energy storage systems. With a passion for innovation and applied research, he has made notable contributions through participation in three major research projects and authorship of two SCI-indexed papers. Haolin holds two patents related to battery system safety and has developed advanced diagnostic techniques to enhance the reliability of energy storage technologies. His interdisciplinary expertise spans battery health modeling, stochastic system analysis, and AI-driven prediction models. Through his work, he demonstrates a commitment to solving critical challenges in the energy sector, particularly those concerning safety and system degradation. Haolin’s academic journey is marked by curiosity, precision, and a vision to contribute impactful solutions to sustainable energy storage. His research not only reflects technical depth but also a forward-looking approach that aligns with global priorities for clean and secure energy systems.

Profile

🎓 Education

Haolin Huang is currently pursuing his graduate studies at Foshan University, specializing in energy storage system safety. His academic focus is rooted in electrical and energy engineering disciplines, with a strong emphasis on lithium-ion battery systems, degradation modeling, and predictive maintenance. During his graduate studies, he gained extensive theoretical and practical training in battery diagnostics, data-driven safety modeling, and system simulation techniques. In addition to coursework, Haolin has undertaken independent study and collaborative research, particularly within the framework of safety-critical systems. His academic training has empowered him to work on advanced research projects involving stochastic modeling and hybrid AI algorithms. This educational background has equipped him with a comprehensive understanding of both the scientific and engineering principles needed to address the emerging challenges in energy storage systems. Haolin’s academic performance and research initiative reflect a deep commitment to advancing reliable and safe energy technologies in both academic and industrial contexts.

🧪 Experience

Haolin Huang has actively contributed to three significant research projects during his graduate studies at Foshan University, all centered around the reliability and safety of energy storage systems. His hands-on experience includes developing diagnostic algorithms for battery health, analyzing degradation mechanisms, and applying artificial intelligence for predictive maintenance. He was instrumental in designing a lithium battery State-of-Health (SOH) interval-prediction method, showcasing his ability to merge theory with real-world applications. Haolin has also co-authored two peer-reviewed SCI journal articles and holds two patents related to system safety enhancement. His collaborative work with faculty and research teams reflects strong problem-solving skills, technical competence, and scientific rigor. In addition to academic projects, he has been involved in consultancy-level industrial studies, emphasizing practical implementation of his research findings. His experience spans simulation modeling, algorithm development, and performance evaluation of complex electrochemical systems, laying a robust foundation for a future career in sustainable energy technologies.

🏅 Awards and Honors

Although early in his academic career, Haolin Huang has already achieved commendable milestones that reflect his dedication and innovative mindset. He holds two patents focused on the safety and reliability of lithium-ion energy storage systems. These patents underscore his contributions to practical advancements in battery health diagnostics and predictive maintenance. Additionally, he has published two SCI-indexed journal articles in reputable international journals, gaining recognition in the academic community for his methodological innovation and technical insight. Haolin’s involvement in three major research projects has further solidified his reputation as a promising young researcher in the energy sector. While he has not yet received formal awards or fellowships, his intellectual contributions, commitment to research excellence, and practical achievements through patents and publications position him as a strong candidate for prestigious accolades such as the Best Researcher Award. These accomplishments illustrate his potential to become a leader in energy system innovation.

🔬 Research Focus

Haolin Huang’s research centers on the safety, reliability, and diagnostic modeling of energy storage systems, particularly lithium-ion batteries. He addresses critical issues in the energy sector by developing techniques for early detection of battery degradation and system failures. One of his key contributions is a novel SOH (State-of-Health) interval prediction framework that uses stochastic differential equations to model degradation uncertainty. He also implemented a TSKANMixer network—an advanced AI architecture—optimized via a chaos-empowered evolutionary algorithm, which captures nonlinear and long-term degradation trends. His research offers significant improvements over traditional point-prediction methods, providing reliable safety margins and actionable maintenance insights. Haolin’s work bridges theoretical modeling and practical application, enabling predictive diagnostics for safer energy systems. His interdisciplinary approach integrates machine learning, system modeling, and electrochemical analysis, contributing to the next generation of intelligent energy storage technologies and addressing safety challenges in renewable energy and electric mobility sectors.

Conclusion

Haolin Huang is a highly motivated young researcher with a deep commitment to energy storage safety, contributing innovative diagnostic models and AI-based predictive tools that enhance reliability, secure early fault detection, and promote sustainable system performance.

Publications

  • Real-world data-driven charging strategies for incorporating health awareness in electric buses

    Journal of Energy Storage
    2024 | Journal article
    DOI: 10.1016/j.est.2024.112064
    EID:  2-s2.0-85194401201
    Part ofISSN: 2352152X
    CONTRIBUTORS: Li, T.; Zhang, W.; Huang, G.; He, H.; Xie, Y.; Liu, G.; Zhu, T.

  • Assessment Method for Health State of Li-Ion Batteries Based on Sparrow Search Algorithm,基于麻雀优化算法的锂电池健康状态估计方法

    Southern Energy Construction
    2023 | Journal article
    DOI: 10.16516/j.gedi.issn2095-8676.2023.06.010
    EID:  2-s2.0-85181896337
    Part ofISSN: 20958676
    CONTRIBUTORS: Wang, C.; Chen, Q.; Gu, X.; Jiang, H.; Guo, F.; Huang, G.; Zhu, S.

  • Data-driven state of health estimation in retired battery based on low and medium-frequency electrochemical impedance spectroscopy

    Measurement Journal of the International Measurement Confederation
    2023 | Journal article
    DOI: 10.1016/j.measurement.2023.112597
    EID:  2-s2.0-85148325461
    Part of ISSN: 02632241
    CONTRIBUTORS: Zhang, W.; Li, T.; Ouyang, N.; Huang, G.; Wu, W.

 

 

 

 

 

 

Pheladi Molepo | Energy Transition | Best Researcher Award

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Ms. Pheladi Molepo | Energy Transition | Best Researcher Award

Pheladi Morufa Molepo is a dedicated researcher and PhD candidate at the University of Johannesburg, specializing in engineering management and renewable energy transitions. Her work bridges theoretical knowledge and practical application, focusing on inclusive and sustainable energy systems in South Africa. With a strong foundation in project management, sustainability, and systems thinking, Pheladi has developed frameworks like AKTESP to identify and address complex barriers to renewable energy integration. Passionate about just energy transitions, she actively collaborates with community stakeholders and young professionals to promote climate-smart practices. Her research aims to support national policy and planning with context-specific, data-driven insights. Pheladi’s academic journey is marked by a commitment to social equity, environmental stewardship, and innovation in energy reform. Through her interdisciplinary and impactful work, she contributes to shaping a future where energy systems are not only green and efficient but also socially resilient and inclusive.

Profile

🎓 Education

Pheladi Molepo holds a Master of Philosophy (MPhil) in Engineering Management from the University of Johannesburg, where her thesis investigated the complexity factors influencing the duration of R&D projects. Her academic training emphasizes systems thinking, sustainable development, and technical project oversight. She is currently pursuing a PhD in Engineering Management at the same university, focusing on the integration of renewable energy into South Africa’s national energy framework. Her doctoral research addresses energy transition challenges and aims to develop inclusive, context-sensitive solutions for sustainable energy reform. With an emphasis on real-world applicability and policy relevance, her academic trajectory reflects a passion for resolving systemic and social obstacles in energy governance. Pheladi’s educational background equips her with a rare blend of managerial insight and technical rigor, supporting her contributions to both academia and sustainable development goals, particularly in underrepresented communities facing energy poverty and climate vulnerability.

🧪 Experience

Pheladi Molepo brings a blend of academic insight and real-world relevance to her research in energy transition and sustainable development. As a PhD candidate, she has led and contributed to multiple research efforts focused on energy system reform, including a major project on energy transition barriers using the AKTESP framework. Although her experience primarily lies in academia, she engages extensively with stakeholders across sectors to co-develop policies and frameworks that are contextually grounded. Her applied research efforts have culminated in journal publications and a pending patent, underscoring her commitment to innovation and impact. She also actively mentors younger researchers and professionals on sustainable energy practices. Her experience reflects not only scholarly depth but also strategic thinking and systems-level problem-solving, making her a key contributor to national conversations on renewable energy adoption. Through presentations, collaborative forums, and field engagement, she continues to shape inclusive and resilient energy systems.

🏅 Awards and Honors

Although still in the early stages of her academic career, Pheladi Molepo has already made significant strides in sustainability research. Her impactful contributions in engineering management and renewable energy integration have garnered recognition in academic forums. She has published in Scopus-indexed journals and holds a patent under process, reflecting her commitment to original, problem-solving research. Nominated for the Best Researcher Award by the International Cognitive Scientist Awards, Pheladi’s work is characterized by its interdisciplinary approach and societal relevance. Her frameworks for understanding energy transition barriers are increasingly cited in discussions around equitable climate adaptation strategies. She is frequently invited to collaborate in academic and policy-related discussions on sustainability, and her leadership among young professionals in climate-related research is widely acknowledged. Her achievements demonstrate a trajectory of excellence, innovation, and community engagement, aligning her with global priorities for sustainable energy and earning her recognition as an emerging thought leader in the field.

🔬 Research Focus

Pheladi Molepo’s research focuses on advancing inclusive, sustainable energy systems by identifying and overcoming barriers to renewable energy integration in South Africa. Her PhD work utilizes a multidisciplinary methodology that combines engineering management principles, social science analysis, and stakeholder engagement to address the technical, institutional, and socio-political dimensions of energy transitions. Central to her work is the AKTESP framework, a tool she developed for systematically assessing the factors that hinder energy reform. Her research goes beyond theoretical modeling by applying grounded analysis and participatory approaches to ensure that energy policies are just, contextually relevant, and implementable. She is particularly concerned with the impact of energy transitions on vulnerable and underserved communities, ensuring their voices are integrated into the national planning process. Her work contributes significantly to the growing field of climate-smart development and supports the creation of resilient, inclusive energy systems aligned with global sustainable development goals.

Conclusion

Pheladi Molepo exemplifies a new generation of cognitive scientists and engineering researchers whose interdisciplinary, socially engaged work drives inclusive and sustainable energy transitions, making her a strong candidate for the Best Researcher Award in recognition of her practical innovations, academic contributions, and commitment to climate resilience.

Publications

  • Analysis of Barriers to South Africa’s Energy Transition: Perspectives from industry experts

    Energy for Sustainable Development
    2025-10 | Journal article
    DOI: 10.1016/j.esd.2025.101777
    Part ofISSN: 0973-0826
    CONTRIBUTORS: Pheladi Morufa Molepo; Khaled Aboalez; Tebello Ntsiki Don Mathaba

  • Complexity factors affecting research and development projects duration

    IEEE Technology & Engineering Management Conference (TEMSCON)
    2019-06-01 | Conference paper

  • Solar Power Plant Transformer Loss Computation under Harmonic Currents using Finite Element Method

    9th CIGRE Southern Africa Regional Conference
    2019-06-01 | Conference paper

Ohidul Alam | Environment | Best Researcher Award

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Dr. Ohidul Alam | Environment | Best Researcher Award

Dr. Ohidul Alam is a Post-doctoral Research Fellow at the School of Environment and Safety Engineering, Jiangsu University, China. Born in Cox’s Bazar, Bangladesh, he is a dedicated environmental researcher focusing on pollution control, biomass energy technologies, hazardous waste treatment, and energy storage systems. With over a decade of academic and field-based research experience, Dr. Alam has contributed significantly to the study of environmental materials, heavy metals, microplastics, wastewater treatment, and life cycle assessments. He has published 16 SCI journal papers and presented at numerous international conferences. He also has an extensive background in research consultancy and project management, having served as PI or core researcher in over 12 multidisciplinary environmental projects. Fluent in Bangla and English with basic Chinese proficiency, he is known for his hands-on expertise in wet-chemical and analytical techniques. Dr. Alam continues to inspire sustainable environmental practices through impactful research, international collaborations, and academic mentorship.

Profile

🎓 Education

Dr. Ohidul Alam pursued a Ph.D. in Environmental Engineering at East China University of Science and Technology (2016–2021), where he worked on preparing adsorbents from marine biomass for heavy metal stabilization. He earned his Master of Engineering in Environmental Engineering from the UNEP-Tongji Institute of Environment for Sustainable Development, Tongji University (2014–2016), studying heavy metals in plastic materials and pollution during thermal treatment. Prior to that, he completed an M.S. in Environmental Science (2010–2011, exam held in 2013) and a B.Sc. (Hons.) in Environmental Science (2006–2007, exam held in 2012) from the University of Chittagong, Bangladesh. His academic journey began with an HSC from Government City College, Chattogram (2005–2006), and an SSC from Shilkhali High School, Cox’s Bazar (2003–2004). His academic focus has consistently revolved around environmental assessment, pollution control, hazardous waste treatment, and the development of sustainable waste management technologies.

🧪 Experience

Dr. Alam currently serves as a Post-doctoral Research Fellow at Jiangsu University, China, investigating heavy metals, microplastics, and hazardous waste disposal. His professional experience includes roles such as Environmental Officer at the Integrated Development Foundation (2022–2023), Manager at Aurora Consultant Ltd., and Consultant at DM WATCH, focusing on climate change and environmental knowledge management. He previously worked as an Environmental Consultant at SETS (2020–2021) and Guest Lecturer at Chattogram Polytechnic Institute. His early career involved multiple research assistant roles with organizations like IUCN and GIZ on biodiversity, forest conservation, ship-breaking industry evaluation, and community-based climate adaptation. Across these diverse roles, he has developed core competencies in research development, field-based studies, grant writing, stakeholder engagement, and laboratory analysis. His academic research spans over a decade and includes projects involving advanced analytical techniques, policy-level environmental planning, and applied sustainable development in both urban and coastal ecosystems.

🏅 Awards and Honors

Dr. Alam’s research excellence has been acknowledged through multiple awards and prestigious opportunities. He has been selected to present his work at significant international symposia and conferences, such as the IWWGR-ARB Symposium in Shanghai and climate change events in Bangladesh. His participation in international training programs, including the Summer School at the Chinese Academy of Sciences and workshops on Life Cycle Assessment, demonstrates his global academic engagement and technical leadership. He has been entrusted as Principal Investigator or key researcher in over a dozen national and international research projects. Although not explicitly listed in formal awards sections, his continued invitations to research seminars, funded research projects, and scientific writing for reputed dailies like Daily Independent and Financial Express reflect recognition of his expertise. Dr. Alam’s scientific publications, mentorship roles, and policy-level contributions make him a respected figure in the environmental science research community.

🔬 Research Focus

Dr. Alam’s research focuses on environmental sustainability with special emphasis on pollution control, hazardous waste treatment, and development of low-cost environmental technologies. He investigates heavy metal contamination, microplastics pollution, sludge treatment, and the life cycle assessment of waste and materials. His Ph.D. centered on converting seafood shells into functional adsorbents for metal stabilization in wastewater and solid waste. He also explores thermal treatment of plastic wastes, urban solid waste, and ecological impacts of contaminated sites. His ongoing post-doctoral research analyzes health risks from heavy metals and microplastics in coastal zones. With multidisciplinary expertise, he employs advanced lab techniques like ICP-OES, XRF, AAS, and FE-SEM. He integrates wet-chemical methods, ecological assessments, and data analytics to support green supply chains, sustainable waste disposal, and energy storage development. Dr. Alam’s research serves both academic advancement and policy development, supporting environmentally responsible solutions across developing and industrial nations.

Conclusion

Dr. Ohidul Alam is a dynamic environmental scientist whose work on hazardous waste, pollution control, and life cycle assessment significantly advances global sustainability efforts by blending academic rigor with real-world impact.

Publications

Nabiha NAILI | Renewable energies | Excellence in Research

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Dr. Nabiha NAILI | Renewable energies | Excellence in Research

Dr. Nabiha Naili 🇹🇳, born on 20 Jan 1974, is an Assistant Professor at the Research and Technology Center of Energy (CRTEn), Tunisia 🔬. With expertise in thermal systems and renewable energy 🌞, she contributes to sustainable solutions in heating/cooling applications. Her prolific research on ground source heat pumps and solar energy 🌍 has earned recognition both locally and internationally 🌐. She actively mentors young researchers and engineers 🧑‍🎓, participates in scientific committees 📋, and serves as a reviewer for top-tier journals 📚. Dr. Naili is known for combining simulation with experimental validation 🔧🧪, aiming to promote clean energy and climate-resilient technologies. She balances academic excellence with strong scientific leadership and international collaboration 🤝. Fluent in science and solutions, she is a pillar of innovation at CRTEn 🏛️

Profile

Education 🎓

Dr. Naili’s academic journey began with a Master in Physics in 1999 🧲, followed by an Advanced Studies Diploma in 2001 📘. Her deep dive into renewable energy and thermodynamics culminated in a Ph.D. in 2015 🎓. Her doctoral research integrated experimental methods with simulation modeling, focusing on ground source heat pump systems in Tunisia 🌍. This educational foundation empowered her to lead pioneering work in solar-assisted geothermal systems and energy-efficient technologies ☀️🌡️. She blends classical physics knowledge with applied engineering solutions 🛠️. Throughout her academic career, she has been committed to continuous learning and applying theoretical concepts to real-world energy challenges 🔬. Her education has laid the groundwork for her exceptional research and teaching activities within the fields of sustainable energy and thermal systems ♻️📖.

Experience 👨‍🏫

Since 2002, Dr. Naili has taught physics at various academic levels, eventually becoming an Assistant Professor at CRTEn 🎓. Her experience spans over two decades, involving classroom instruction, laboratory supervision, and student mentoring . She has guided 7 technician projects, 3 engineer theses, 2 master’s, and 2 Ph.D. dissertations 📘. She has reviewed papers for prestigious journals like Applied Energy and Renewable Energy 📚. A member of CRTEn’s scientific council, she also contributes to international conference committees 🌐. Her work integrates simulation tools like TRNSYS with experimental installations, enhancing national energy efficiency programs 💡. She actively participates in R&D projects involving heat exchangers, geothermal systems, and hybrid solar applications 🔧🌞. Her blend of academic insight and applied engineering makes her a key player in Tunisia’s energy innovation ecosystem 🔋.

Awards & Recognitions 🏅

While formal awards are not explicitly listed, Dr. Naili’s career is adorned with prestigious roles and peer recognition 🌟. She has been an invited speaker at ANSOLE Days 2017 🎤, reflecting her regional leadership in geothermal and solar energy. She is an elected member of CRTEn’s Scientific Council 🏛️ and has served as a Technical Program Committee member at key conferences like ICSESS 2018 and IREC 🌍. Her role as a reviewer for high-impact journals like Energy Conversion and Management and Applied Thermal Engineering is a testament to her research quality 📖. Her research articles are frequently cited, and her work has contributed to national development in renewable energy ⚡. She is celebrated for promoting clean technology and education across Tunisia and beyond 🏅.

Research Interests 🔬

Dr. Naili’s research centers on renewable energy systems, especially solar-assisted ground source heat pumps and hybrid solar technologies 🌞❄️. She has conducted experimental and simulation-based analyses on geothermal heat exchangers, passive solar heating, and building energy efficiency in North African climates 🏠🌍. Her focus lies in optimizing thermal systems for domestic and industrial applications through tools like TRNSYS and CFD modeling 🧪🧠. Her published work spans Geothermics, Applied Thermal Engineering, and Energy Conversion and Management 📚. She emphasizes economic viability, energy conservation, and exergy analysis in her projects 💸🔧. Collaborating with engineers and policymakers, she aims to integrate clean energy into Tunisia’s infrastructure sustainably ♻️. Her innovation-driven approach aligns research with climate goals, making her a key contributor to environmental resilience and green development 🌱🔬.

Publications

  • Energy and exergy analyses of a helicoidal water to air geothermal heat exchanger for arid regions

    Energy Sources, Part A: Recovery, Utilization, and Environmental Effects
    2025-12-31 | Journal article
    DOI: 10.1080/15567036.2021.1970859
    CONTRIBUTORS: Abdessamia Hadjadj; Abdelmalek Atia; Boubaker Ben haoua; Müslüm Arıcı; Nabiha Naili; Abdelmadjid Kaddour

  • Optimization and behavior result analysis of a solar assisted ground source heat pump system using TRNSYS simulation tool

    Geothermics
    2025-09 | Journal article
    DOI: 10.1016/j.geothermics.2025.103353
    CONTRIBUTORS: Nabiha Naili; Omeima Nouicer; Issam Attar; Ghofrane Mgadmi

  • Design and economic viability of a hybrid solar/gas pasteurization system for developing countries

    Case Studies in Thermal Engineering
    2025-01 | Journal article
    DOI: 10.1016/j.csite.2024.105611
    Part ofISSN: 2214-157X
    CONTRIBUTORS: Oumaima Guizani; Nabiha Naili; Bourhan Tashtoush; Sami Kooli

 

Selvakumaran | EEE | Best Researcher Award

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Dr. Selvakumaran | EEE | Best Researcher Award

Dr. S. Selvakumaran is an accomplished academician with 15 years of experience in engineering education, specializing in power electronics, smart grids, and renewable energy systems. He has held key institutional roles, including NBA, NAAC, Exam Cell, and ISO Coordinator. With a strong research focus on green energy applications, he has published in reputed journals and conferences. His expertise spans control systems, electrical machines, and metaheuristic optimization techniques for power converters. He has guided over 80 UG and 15 PG students, contributing significantly to academia.

Profile

Education 🎓

Dr. Selvakumaran earned his Ph.D. in Electrical Engineering from Anna University in 2024, focusing on optimization-based converters for green energy. He completed his M.E. in Power Electronics and Drives from Government College of Engineering, Tirunelveli (2009) with 73% and his B.E. in Electrical and Electronics Engineering from Dhanalakshmi Srinivasan Engineering College, Perambalur (2007) with 72%. His academic journey reflects his deep commitment to power electronics and renewable energy research.

Experience 👨‍🏫

Dr. Selvakumaran served as an Assistant Professor at Dhanalakshmi Srinivasan Engineering College, Perambalur (2009-2020), mentoring students in electrical engineering. From 2021 to 2024, he was a full-time research scholar at Alagappa Chettiar Government College of Engineering and Technology, Karaikudi, focusing on optimization algorithms for energy applications. His expertise includes NBA and NAAC accreditation, exam cell coordination, and institutional quality management.

Research Interests 🔬

Dr. Selvakumaran’s research focuses on metaheuristic optimization algorithms for power converters, renewable energy integration, and smart grids. He has worked extensively on hybrid energy systems, solar PV optimization, and intelligent power management. His studies include grid-connected electric vehicle systems, power quality improvement, and AI-driven energy optimization, contributing to sustainable energy solutions.

Dr. Selvakumaran has been recognized for his contributions to electrical engineering through best paper awards at national and international conferences. His publications in high-impact journals like the Journal of Energy Storage (IF: 8.9) and IETE Journal of Research (IF: 1.59) highlight his research excellence. He has received appreciation for mentoring students and serving in key academic roles, enhancing institutional accreditation standards.

Publications 📚

  • Optimal planning of photovoltaic, wind turbine and battery to mitigate flicker and power loss in distribution network

    Journal of Energy Storage
    2025-04 | Journal article
    DOI: 10.1016/j.est.2025.116034
    Part ofISSN: 2352-152X
    CONTRIBUTORS: G. Muralikrishnan; K. Preetha; S. Selvakumaran; P. Hariramakrishnan

  • A hybrid approach for PV based grid tied intelligent controlled water pump system

    International Journal of Adaptive Control and Signal Processing
    2024 | Journal article
    DOI: 10.1002/acs.3748
    EID:

    2-s2.0-85184388143

    Part ofISSN: 10991115 08906327
    CONTRIBUTORS: Selvakumaran, S.; Baskaran, K.

  • A Hybrid RBFNN-SPOA Technique for Multi-Source EV Power System with Single-Switch DC-DC Converter

    IETE Journal of Research
    2024 | Journal article
    DOI: 10.1080/03772063.2024.2352644
    EID:

    2-s2.0-85198697794

    Part ofISSN: 0974780X 03772063
    CONTRIBUTORS: Selvakumaran, S.; Baskaran, K.

  • Improved binary quantum-based Elk Herd optimizer for optimal location and sizing of hybrid system in micro grid with electric vehicle charging station

    Journal of Renewable and Sustainable Energy
    2024 | Journal article
    DOI: 10.1063/5.0220051
    EID:

    2-s2.0-85208946652

    Part of ISSN: 19417012
    CONTRIBUTORS: Muralikrishnan, G.; Preetha, K.; Selvakumaran, S.; Nagendran, J.