Na Chen – carbon energy – Best Researcher Award

Posted on by ScienceFather

Na Chen - carbon energy - Best Researcher Award

Beijing Normal University School of Government - China

AUTHOR PROFILE

ORCID
Google Scholar

EARLY ACADEMIC PURSUITS

Na Chen commenced her academic journey at the School of Government, Beijing Normal University, pursuing a Ph.D. with a specialization in administrative management. Her early academic pursuits were marked by a commitment to exploring solutions to China's public governance and policy issues, with a particular focus on interdisciplinary studies in environmental science, energy, and public policy, including carbon energy-related research.

PROFESSIONAL ENDEAVORS

Throughout her career, Na Chen has been actively engaged in various professional endeavors, contributing significantly to the field of public management. Her research and academic pursuits have centered on developing theories and methods of institutional analysis and public management suitable for China's national conditions, with a notable emphasis on addressing challenges related to carbon energy and environmental sustainability.

CONTRIBUTIONS AND RESEARCH FOCUS ON CARBON ENERGY

Na Chen's research contributions span interdisciplinary studies on water management, land resources, environmental issues, and rural governance, with a particular emphasis on carbon energy-related policies. She has initiated groundbreaking research on the socio-economic impacts of achieving zero-carbon energy by 2030 and has collaborated on studies exploring the dynamics of public governance and policy diffusion, including in the context of carbon energy transitions.

IMPACT AND INFLUENCE

Na Chen's research findings have had a profound impact on academia and policymaking, particularly in shaping national policies related to carbon energy and environmental sustainability. Her published articles, conference papers, and books have been widely cited, reflecting their relevance and influence in advancing knowledge in the field of public management, with a specific focus on carbon energy-related issues.

ACADEMIC CITATIONS

While Na Chen's citation index in databases like Scopus, Web of Science, and PubMed may vary, her research outputs on carbon energy and related topics have garnered significant attention within the academic community. Her publications in high-impact journals and conference proceedings serve as valuable resources for scholars and policymakers alike, contributing to the ongoing discourse on carbon energy and environmental policy.

LEGACY AND FUTURE CONTRIBUTIONS

Na Chen's legacy in academia is characterized by her pioneering research in carbon energy and environmental policy, which has laid the groundwork for future advancements in the field. Her continued dedication to interdisciplinary research and her commitment to addressing pressing societal challenges, including those related to carbon energy, underscore her potential for making further impactful contributions to academia and policymaking in the years to come.

NOTABLE PUBLICATION

Scenario analysis of the socioeconomic impacts of achieving zero-carbon energy by 2030.  2024

Snowil J. Lopes – Environmental Engineering – Best Researcher Award

Posted on by ScienceFather

Snowil J. Lopes - Environmental Engineering - Best Researcher Award

Clemson University - United States

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS:

Snowil J. Lopes began his academic journey by obtaining a Bachelor's degree in Architecture from Mumbai University, India, followed by a Master's in Construction Science and a Master's in Business Administration from Clemson University, SC, USA. Currently, he is pursuing a Ph.D. in Civil Engineering with a focus on Human Systems Engineering at Clemson University.

PROFESSIONAL ENDEAVORS:

Snowil has accrued extensive professional experience, notably as an Energy Engineer and System Analyst at Clemson University Facilities, where he contributed significantly to energy auditing, management, and conservation efforts. He also served as the Director of Research at the Clemson University Energy Analytics and Visualization Center (CEVAC), leading research initiatives in energy efficiency, carbon neutrality, and AI-based technologies for building decarbonization.

CONTRIBUTIONS AND RESEARCH FOCUS:

Snowil's research primarily revolves around Environmental Engineering, focusing on energy efficiency, carbon footprint reduction, and sustainable building practices. His work at CEVAC and as a Ph.D. candidate involves pioneering research in AI-enabled building energy modeling, carbon capture technologies, and human-system interactions in energy-efficient buildings.

IMPACT AND INFLUENCE:

Through his research and professional engagements, Snowil has made significant contributions to the field of Environmental Engineering, particularly in advancing sustainable building practices and energy management strategies. His work is expected to influence industry practices and policymaking aimed at mitigating environmental impact and promoting energy efficiency.

ACADEMIC CITES:

Snowil's research papers and presentations at prestigious conferences have likely garnered academic citations, contributing to the dissemination of knowledge in Environmental Engineering, energy efficiency, and sustainable building practices.

LEGACY AND FUTURE CONTRIBUTIONS:

Snowil J. Lopes's legacy lies in his dedication to advancing Environmental Engineering, particularly in the realms of energy efficiency and sustainable building design. His future contributions are anticipated to further shape the field, driving innovations in energy management, carbon footprint reduction, and sustainable infrastructure development.

ENVIRONMENTAL ENGINEERING FOCUS:

Snowil's academic pursuits, professional endeavors, and research focus converge around Environmental Engineering, with an emphasis on sustainable building practices, energy efficiency, and carbon footprint reduction. His expertise in this domain positions him as a key figure in addressing contemporary environmental challenges and promoting sustainable development.

NOTABLE PUBLICATION

A survey of automation-enabled human-in-the-loop systems for infrastructure visual inspection.  2019 (96)

Song Mengjie – Environmental Energy – Outstanding Scientist Award

Posted on by ScienceFather

Song Mengjie - Environmental Energy - Outstanding Scientist Award

Beijing Institute of Technology - China

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS:

Professor Song Mengjie's academic journey is marked by excellence and international exposure. He earned his Ph.D. in Building Services Engineering from The Hong Kong Polytechnic University with a full scholarship, showcasing early dedication to research and academic excellence. This was preceded by a master's degree from Harbin Institute of Technology and a bachelor's degree from Hunan University, both in the field of building thermal energy engineering.

PROFESSIONAL ENDEAVORS:

Prof. Song's professional journey demonstrates a diverse and impactful career. He has held significant roles such as President Assistant at Beijing Energy Research Institute and Beijing District Heating Group Co., Ltd. His experience extends globally, having served as a DECRA Researcher at the University of Wollongong in Australia and as a JSPS Research Fellow at the University of Tokyo in Japan. These roles not only showcase his expertise but also highlight his ability to contribute to various domains.

CONTRIBUTIONS AND RESEARCH FOCUS :

Prof. Song's contributions to the field are evident through his research interests, focusing on solidification of droplets, icing technologies, two-phase cooling systems, and environmental construction technology. His leadership as the Head of the Complex Phase Change Thermal Fluid Lab (Frost Lab) at Beijing Institute of Technology further underscores his commitment to advancing knowledge in these areas.

IMPACT AND INFLUENCE ON Environmental Energy:

With an impressive record of Google Scholar citations (5255), an h-index of 40, and an i10-index of 112, Prof. Song's impact on the scientific community is substantial. His work in areas like pumping two-phase cooling systems and frost-related technologies has likely influenced advancements in thermal engineering and fluid dynamics.

ACADEMIC CITES:

Prof. Song's research has been widely cited, as reflected in his substantial Google Scholar citation count. This suggests that his work has been instrumental in shaping the discourse within his field, indicating a high level of recognition and influence.

LEGACY AND FUTURE CONTRIBUTIONS:

As a Professor and Teli Young Scholar at the Department of Energy and Power Engineering, Beijing Institute of Technology, Prof. Song is positioned to leave a lasting legacy. His multidisciplinary expertise, international collaborations, and leadership roles suggest a future of continued contributions to research, education, and the global scientific community. Prof. Song's legacy is likely to include advancements in thermal engineering and environmental technologies.

NOTABLE PUBLICATION

Experimental study of relative humidity effect on the edge effect of frosting characteristics on a vertical cold plate surface.  2024 (1)

Bo Rang Park – Building environmental – Best Researcher Award

Posted on by ScienceFather

Bo Rang Park - Building environmental - Best Researcher Award

Chung-Ang University - South Korea

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS:

Bo Rang Park embarked on an academic journey that culminated in expertise in architectural environments, building facilities, and eco-friendly architecture. His commitment to advancing knowledge in these fields is evident in his academic background and research endeavors Building environmental.

PROFESSIONAL ENDEAVORS:

Throughout his career, Bo Rang Park has held significant positions that reflect his dedication to the field. Starting as a Staff member at Archirban Architects Office Co., Ltd in 2008-2009, he progressed to roles such as Researcher at the Korea Institute of Civil Engineering and Building Technology (2014-2016), Senior Researcher at the University of Chung-Ang (2021-2022), Deputy General Manager at DL E&C (2022-2023), and currently as an Academic Research Professor at the University of Chung-Ang from 2023 onwards.

EDUCATION AND LECTURESHIP:

Bo Rang Park has extended his knowledge and skills to the academic realm through lectureships. He has been a Lecturer at the College of Engineering (2021-2022), University of Chung-Ang (2023-present), and is slated to be a Lecturer at the University of Kyung Hee from 2024 to 2025.

RESEARCH PROJECTS:

Bo Rang Park's involvement in a multitude of research projects underscores his commitment to pushing the boundaries of architectural and environmental knowledge. These projects, funded by prestigious entities like the Ministry of Education and the Ministry of Science and ICT, cover diverse areas such as zero-energy buildings, carbon-neutral architecture, transparent solar panels, and intelligent HVAC control platforms Building environmental.

RESEARCH PRESENTATIONS - SCI(E) AND KCI:

Bo Rang Park's research findings have been disseminated through various presentations. Notable contributions include papers published in esteemed journals such as "Energy and Buildings," "Building and Environment," and "Solar Energy." These presentations cover topics ranging from climate-zone-dependent applicability of solar cells to the optimization of energy efficiency in public Building environmental.

IMPACT AND INFLUENCE:

Bo Rang Park's impact extends beyond his immediate roles, as reflected in his position as a Research Director and Senior Researcher in major research projects. His work on developing innovative technologies, control algorithms, and energy-efficient solutions demonstrates a commitment to shaping the future of eco-friendly architecture and sustainable Building environmental practices.

ACADEMIC CITES BUILDING ENVIRONMENTAL:

Bo Rang Park's research has garnered attention and citations in both international (SCI(E)) and Korea Citation Index (KCI) journals. His work on topics like predictive algorithms for cooling systems, DSSC BIPV windows, and intelligent HVAC control has contributed to the academic discourse.

LEGACY AND FUTURE CONTRIBUTIONS:

Bo Rang Park's legacy is marked by a prolific career in academia, research, and practical applications in architecture and environmental engineering. His future contributions are poised to further enhance our understanding of zero-energy buildings, renewable energy, and intelligent building management systems.

NOTABLE PUBLICATION

Accuracy analysis of DNN-based pose-categorization model and activity-decision algorithm.  2020 (6)