Tirupati Rao | Renewable Energy | Best Researcher Award

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Dr. Tirupati Rao | Renewable Energy | Best Researcher Award

Dr. Tirupati Rao | Renewable Energy – Senior Design Process Engineer at Fichtner Consulting Engineers Private Ltd, India

Dr. Tirupati Rao V is a distinguished researcher and energy systems engineer whose work has significantly contributed to the advancement of energy sustainability in India and abroad. With a keen focus on green hydrogen, solar thermal energy, and integrated renewable systems, he has built a multidisciplinary portfolio that spans academic research, engineering design, and international collaboration. As a former Internal Full-Time Research Fellow at VIT and currently a Senior Design Engineer at Fichtner Consulting Engineers India Pvt. Ltd., he demonstrates exceptional leadership in both theoretical innovation and practical application. His contributions include the development of photovoltaic thermal (PVT) systems, optimization of green fuel production processes, and detailed feasibility studies for industrial-scale renewable energy projects.

Academic Profile

Google Scholar  | ORCIDScopus

Education

Dr. Rao completed his Ph.D. in Thermal & Energy Engineering at Vellore Institute of Technology (VIT), Vellore, where his research focused on experimental investigation of photovoltaic/thermal systems using bi-symmetrical web flow thermal absorbers. He earned his Master of Technology in Thermal Engineering from Adarsh College of Engineering under JNTU Kakinada, where he studied heat transfer enhancement using conical-ring and twisted tape inserts, graduating with a distinction. His Bachelor of Technology in Mechanical Engineering, also under JNTU Kakinada, included a thesis on the design and analysis of propeller blades, solidifying his early interest in applied mechanical systems.

Professional Experience

Dr. Rao currently serves as a Senior Design Engineer at Fichtner Consulting Engineers India Pvt. Ltd., where he manages engineering design and techno-economic studies for green hydrogen, green ammonia, and energy storage projects. Prior to this, he worked as a Research Analyst at IRADe, New Delhi, and held multiple academic roles including Researcher at VIT University, Assistant Professor at Gonna Institute of Technology & Management, and Lecturer at GIET Polytechnic College. His multidisciplinary experience covers industrial-scale project execution, academic teaching, and research-based innovation. His engineering contributions include detailed reports and pre-bid consultations for entities like Sembcorp, EY Mahagenco, AM Green, and Maruti Suzuki.

Research Interests

Dr. Rao’s research focuses on green hydrogen generation, compressed biogas (CBG) feasibility, photovoltaic thermal systems, solar energy utilization, and phase change materials (PCM) for heat storage. He specializes in renewable energy modeling, hourly solar/wind profile analysis, electrolyzer sizing and optimization, green fuel synthesis, and thermal energy system simulation. His broader interests encompass carbon credit analysis, system modeling using SAM and MESSAGE software, and life-cycle assessments of energy technologies.

Awards and Recognition

Dr. Rao is the recipient of the Raman Research Award (RRA) in both 2021 and 2022, awarded for his high-quality publications in SCOPUS and Web of Science indexed journals. Additionally, he and his PhD supervisor won the SEED Grant in 2020 for groundbreaking work on solar photovoltaic thermal energy systems. He has earned the NPTEL Elite+ Silver Certificate in Solar Energy Engineering and has served as a reviewer for prestigious journals such as IEEE Transactions on Transportation Electrification and Energy Sources Part A.

Key Publications 📚

  1. 📘 “Green Hydrogen Generation from Wind Energy Resource for an Indian Region” – Renewable Energy, 2025, cited by 10+ articles.
  2. 🚗 “Vehicle-Integrated PV in Indian Highways: An Empirical Assessment” – Energy, 2025, cited by 7+ articles.
  3. 🌞 “Embodied Energy & CO2 Emission Analysis of Stand-Alone Crystalline PVT Systems” – Sustainable Cities and Society, 2022, cited by 35+ articles.
  4. 💧 “Thermal Analysis of Hybrid PVT Water Collector with LHTES” – Journal of Energy Storage, 2022, cited by 40+ articles.
  5. 🧮 “Exergo-Economic and CO2 Analysis of Bi-Symmetrical PVT System” – Journal of Energy Resources Technology, 2023, cited by 12+ articles.
  6. 🌿 “Review on PVT Collector Systems with Absorber Configurations” – Energy & Environment, 2021, cited by 45+ articles.
  7. 🔋 “Experimental 3E Analysis on Web Flow PVT System” – Solar Energy, 2024, cited by 20+ articles.

Conclusion

With over 9 high-impact journal publications, 2 patents, a cumulative impact factor exceeding 60, and active collaborations across institutions in Malaysia, Brunei, and India, Dr. Tirupati Rao V has emerged as a leading expert in renewable energy systems and sustainability-focused engineering. His ability to translate complex technical insights into scalable engineering solutions demonstrates his readiness for high honors such as the Best Researcher Award. In addition to his research achievements, Dr. Rao’s consulting and design leadership roles across multiple high-stake renewable energy projects reinforce his practical contributions to industry transformation. His combined expertise, dedication, and innovative thinking make him an exemplary candidate for recognition and continued support in advancing global sustainable energy goals.

Zhuangzhuang Wu | Covalent Organic Frameworks | Best Researcher Award

Published on by Academic Achievements

Dr. Zhuangzhuang Wu | Covalent Organic Frameworks | Best Researcher Award

Zhuangzhuang Wu | Covalent Organic Frameworks at Doctor at Hainan University, China

Dr. Zhuangzhuang Wu is a dedicated researcher in the field of materials science, focusing on advanced electrocatalytic materials and energy conversion technologies. His work primarily explores the synthesis and functionalization of covalent organic frameworks (COFs) for applications in sustainable energy systems, particularly lithium-sulfur batteries and oxygen evolution reactions. Dr. Wu has been recognized for his innovative contributions to the development of high-performance materials, which aim to address the pressing need for efficient and stable energy storage and conversion devices. His research reflects a commitment to environmental sustainability and technological advancement, making him a highly regarded figure in his field.

Profile Verification

ORCID

Education

Dr. Wu’s educational background is rooted in a robust foundation of engineering and applied sciences. He earned his Doctorate in Materials Science and Engineering from Hainan University, where he conducted pioneering research on COFs and their electrocatalytic applications. Prior to his doctoral studies, he completed his Master’s in Pharmaceutical Engineering at Shanxi University, which provided him with interdisciplinary knowledge that has enhanced his approach to research. Dr. Wu’s academic journey began with a Bachelor’s degree in Chemical Engineering from Luliang University, followed by earlier training in chemical equipment maintenance at Taiyuan University of Science and Technology. His diverse educational path has equipped him with extensive technical expertise and a broad perspective on material applications in energy systems.

Experience

Throughout his academic career, Dr. Wu has engaged in multiple roles that demonstrate his leadership and commitment to research and community involvement. He served as the publicity committee member for the PhD student party branch at Hainan University and took on the role of class representative, advocating for his peers and contributing to a collaborative learning environment. Additionally, he was the vice-chair of the graduate student council in the College of Chemistry and Chemical Engineering at Shanxi University, where he facilitated academic and extracurricular activities. His hands-on experience with scientific software, including Origin, Materials Studio, and Sigmaplot, as well as his proficiency in using advanced lab equipment, such as FT-IR, XRD, and HR-TEM, reflect his technical capabilities and dedication to high-quality research outcomes.

Research Interest

Dr. Wu’s research focuses on advancing sustainable energy solutions through the development of high-performance electrocatalytic materials. His primary interest lies in optimizing the design and functionality of COFs to enhance their stability, activity, and selectivity as electrocatalysts. Recognizing the global push for carbon neutrality, Dr. Wu aims to innovate materials that can improve the efficiency of electrochemical energy storage and conversion systems, such as lithium-sulfur batteries and devices used in the oxygen evolution reaction. His goal is to address current limitations in these technologies by developing materials with higher active site availability and enhanced stability, thus paving the way for more robust and scalable energy solutions.

Awards

Dr. Wu’s research excellence has been acknowledged through numerous prestigious awards. He received the Outstanding Poster Award at the inaugural Electrochemical Energy Conversion Symposium organized by the Chinese Chemical Society in 2023, which underscored his impact on the field. Additionally, he has been a recipient of the Wu Xu Scholarship at Hainan University, a testament to his academic achievements and research potential. Dr. Wu has consistently been recognized as an exemplary student, earning the Doctoral First-Class Scholarship in both 2022 and 2023. His earlier achievements include the Second-Class Master’s Scholarship from Shanxi University and the National Inspirational Scholarship during his undergraduate studies at Luliang University. These awards reflect his sustained academic dedication and his contributions to advancing energy material research.

Publications

Wu, Z. et al. “Metal complexes of bipyridine-functionalized covalent organic frameworks as efficient electrocatalysts for the oxygen evolution reaction,” Rare Metals, 2024, 43, 3096–3106. IF = 9.6.
Wu, Z. et al. “Metalation of functionalized benzoquinoline-linked COFs for electrocatalytic oxygen reduction and lithium-sulfur batteries,” Journal of Colloid and Interface Science, 2023, 650, 1466–1475. IF = 9.4.
Wu, Z. et al. “Covalent organic frameworks/carbon nanotubes composite with cobalt(II) pyrimidine sites for bifunctional oxygen electrocatalysis,” Nano Materials Science, 2024. IF = 12.6.
Wu, Z. et al. “Tetrazole functionalized benzoquinoline-linked covalent organic frameworks with efficient performance for electrocatalytic H2O2 production and Li-S batteries,” Materials Chemistry Frontiers, 2023, 7, 1650–1658. IF = 6.0.
Wu, Z. et al. “Hybridization of MXene and covalent organic frameworks as electroactive materials for lithium-sulfur batteries and oxygen electrocatalysis,” Materials Chemistry Frontiers, 2024. IF = 6.0.
Wu, Z. et al. “Multi-functional carbon nanotube encapsulated by covalent organic frameworks for Li-S chemistry and photothermal electrocatalysis,” Journal of Colloid and Interface Science, 2024, 662, 333–341. IF = 9.4.
Wu, Z. et al. “Sulfonic acid functionalized covalent organic frameworks for lithium-sulfur battery separator and oxygen evolution electrocatalyst,” Journal of Colloid and Interface Science, 2023, 645, 146–153. IF = 9.4.

Conclusion

Dr. Zhuangzhuang Wu is an outstanding candidate for the Best Researcher Award, given his proven track record of impactful research and high-quality publications. His expertise in the field of electrocatalytic materials and his contributions to sustainable energy solutions position him as a forward-thinking researcher committed to addressing critical global challenges. Through continuous innovation and a collaborative spirit, Dr. Wu has the potential to drive significant advancements in energy conversion and storage technologies. His dedication to research excellence and scientific integrity makes him a highly deserving nominee for this award.