Saket Kumar Kirme – Energy efficiency – Best Researcher Award

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Saket Kumar Kirme - Energy efficiency - Best Researcher Award

Visvesvaraya National Institute of Technology - India

AUTHOR PROFILE

ORCID

EDUCATION AND QUALIFICATIONS

Saket Kumar Kirme is currently pursuing a Ph.D. in Architecture & Planning at Visvesvaraya National Institute of Technology, Nagpur, India, where he began his studies in August 2022. He holds a Master of Technology in Urban Planning from the same institution, completed in June 2022. His academic journey underscores a deep commitment to the field of architecture and urban planning.

PROFESSIONAL ACTIVITIES

Saket Kumar Kirme is an active member of the Institute of Town Planners India (ITPI) in New Delhi, a position he has held since November 2022. This role reflects his engagement with the professional community and his dedication to advancing urban planning practices.

RESEARCH WORK

Saket Kumar Kirme's research includes a comprehensive review of residential building energy efficiency measures in India. This work highlights his focus on improving energy performance in residential buildings, a crucial aspect of sustainable urban development.

CONTRIBUTIONS TO URBAN PLANNING

Through his academic and professional activities, Saket Kumar Kirme contributes significantly to the field of urban planning. His research and involvement with professional organizations demonstrate his commitment to enhancing urban environments and promoting energy-efficient practices.

ONGOING PH.D. RESEARCH

Saket's ongoing Ph.D. research at Visvesvaraya National Institute of Technology delves into advanced topics in architecture and planning, with a particular emphasis on urban efficiency and sustainability. This research is poised to make impactful contributions to the field.

IMPACT ON SUSTAINABILITY

Saket Kumar Kirme's work on residential building energy efficiency measures addresses critical sustainability issues in India. By focusing on practical solutions to improve energy performance, he aims to influence both policy and practice in urban planning.

ACADEMIC ACHIEVEMENTS

His academic achievements, including his advanced degrees and active participation in professional societies, reflect Saket Kumar Kirme's dedication to his field. His work stands out for its relevance to contemporary challenges in urban planning and sustainability.

NOTABLE PUBLICATION

Here is the publication information you requested:

Title: A Comprehensive Review of Residential Building Energy Efficiency Measures in India
Authors: Saket Kumar Kirme, Vijay S. Kapse
Year: 2024
Journal: Energy and Buildings

Hao Tian – Environmental sustainable development – Best Researcher Award

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Hao Tian - Environmental sustainable development - Best Researcher Award

Hubei Key Laboratory of Digital Finance Innovation - China

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Dr. Hao Tian pursued his academic journey with a Ph.D. in Cartography and Geographic Information Engineering from Wuhan University in 2014. This formative period laid the groundwork for his subsequent research endeavors.

PROFESSIONAL ENDEAVORS

Currently serving as a professor at the School of Information Engineering, Hubei University of Economics, Wuhan, Dr. Tian has delved into various aspects of machine learning, computational intelligence, and semantic technology. His professional journey has been marked by active involvement in scientific research projects and prolific publication output.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Tian's main research directions encompass machine learning, computational intelligence, and semantic technology. He has demonstrated his expertise by hosting and participating in numerous scientific research projects, contributing to the advancement of knowledge in these domains.

IMPACT AND INFLUENCE

With over 30 academic papers published in authoritative domestic journals and recognition as an ESI Highly Cited author multiple times, Dr. Tian's work has made a significant impact in his field. His contributions have been acknowledged through selection as an ESI Hot Paper and obtaining multiple invention patent authorizations.

ACADEMIC CITES

Dr. Tian's publications in prestigious journals such as "Applied Energy," "IEEE Transactions on Geoscience and Remote Sensing," and "Energy" highlight the depth and relevance of his research contributions. His papers have been widely cited, attesting to their significance and influence in the academic community.

LEGACY AND FUTURE CONTRIBUTIONS

As a reviewer for numerous international authoritative journals and a prolific author in his field, Dr. Tian's legacy is characterized by excellence and innovation in machine learning, computational intelligence, and semantic technology. His future contributions are poised to further advance research in these areas, contributing to the promotion of environmental sustainable development and addressing pressing global challenges.

NOTABLE PUBLICATION

Computer-aided resilience: Advanced techniques for disaster management in smart urban environments 2024

Nonlinear simulating of the Proton Exchange Membrane Fuel Cells utilizing Ridgelet Neural Network optimized using a hybrid form of Northern Goshawk Optimizer 2024

Blend of flue gas from a methane-fueled gas turbine power plant and syngas from biomass gasification process to feed a novel trigeneration application: Thermodynamic-economic study and optimization 2023 (4)

Multi-objective study and optimization of a solar-boosted geothermal flash cycle integrated into an innovative combined power and desalinated water production process: Application of a case study 2023 (43)

Enhanced Whale Optimization Algorithm for Improved Transient Electromagnetic Inversion in the Presence of Induced Polarization Effects 2023 (2).

Yongwu Peng – Energy and Environmental Engineering – Best Researcher Award

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Yongwu Peng - Energy and Environmental Engineering - Best Researcher Award

Zhejiang University of Technology - China

AUTHOR PROFILE

Scopus
Google Scholar

EARLY ACADEMIC PURSUITS

Dr. Yongwu Peng embarked on his academic journey with a PhD from Shanghai JiaoTong University in 2013, under the guidance of Prof. Yong Cui. This foundational period laid the groundwork for his subsequent research endeavors in Energy and Environmental Engineering.

PROFESSIONAL ENDEAVORS

In September 2019, Dr. Peng transitioned to an independent career as a Full Professor at the College of Materials Science and Engineering at Zhejiang University of Technology (ZJUT). His professional trajectory underscores a commitment to advancing knowledge in the field of porous crystalline materials and their hybrid counterparts, particularly focusing on energy- and environmental-related applications.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Peng's research focuses on designing and synthesizing porous crystalline materials, including covalent organic frameworks and their hybrid materials, for applications in catalysis, separation, smart devices, and energy- and environmental-related fields. His work has contributed significantly to advancing knowledge in these areas, as evidenced by his extensive publication record.

IMPACT AND INFLUENCE

With over 60 articles published in prestigious journals and citations exceeding 6100, Dr. Peng's research has made a substantial impact on the scientific community. His insights into structural design, synthesis methods, and applications of porous materials have garnered recognition and acclaim from peers and experts in the field.

ACADEMIC CITES

Dr. Peng's publications in renowned journals such as Nature Communications, Journal of the American Chemical Society, and Angewandte Chemie reflect the depth and significance of his contributions to Energy and Environmental Engineering. His work has been cited extensively, underscoring its relevance and influence in the scientific community.

LEGACY AND FUTURE CONTRIBUTIONS

As a recipient of prestigious awards and recognition, including the Qianjiang Talent Program and the Yunhe Scholar award, Dr. Peng's legacy is marked by excellence and innovation in materials science and engineering. His future contributions are poised to further advance the frontiers of Energy and Environmental Engineering, driving impactful solutions to pressing global challenge.

NOTABLE PUBLICATION

Insights into sensing applications of fluorescent covalent organic frameworks 2024

Multifunctional coatings of graphene oxide: New membranes for proton permeation and salt rejection 2024

Transparent, Self-Healing, and Defogging Wearable Devices Enabled by Plasmonic Silver Nanoparticle-Embedded Covalentā€“Organic Framework Nanosheets 2024 (1)

Revolutionizing the structural design and determination of covalentā€“organic frameworks: principles, methods, and techniques 2023 (2)

Da Xu – Urban power system planning – Best Researcher Award

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Da Xu - Urban power system planning - Best Researcher Award

China University of Geosciences - China

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Da Xu's academic journey reflects a commitment to excellence in electrical engineering, beginning with his Bachelor's degree in Automation from Wuhan University of Technology and culminating in a Doctor of Philosophy from Hunan University. Under the guidance of esteemed supervisors, Xu honed his skills and developed a strong foundation in his field.

PROFESSIONAL ENDEAVORS

As an Associate Professor at China University of Geosciences, Wuhan, and a former Post-Doctoral Fellow at the University of Macau, Xu has demonstrated a dedication to academic research and teaching. His diverse experiences, including a research assistantship at The Hong Kong Polytechnic University, have enriched his perspective and contributed to his expertise in urban power system planning.

CONTRIBUTIONS AND RESEARCH FOCUS

Xu's research interests revolve around the planning and operation of smart grids with renewable energy sources, as well as multi-carrier energy systems. His innovative work has led to advancements in the optimization of energy systems, with a focus on promoting sustainability and resilience in urban power infrastructure.

IMPACT AND INFLUENCE

Through his extensive publication record in prestigious journals and his participation in academic conferences, Xu has made a significant impact on the field of electrical engineering. His research findings have practical implications for the development of efficient and sustainable energy solutions, influencing policymakers and industry professionals alike.

ACADEMIC CITES

Xu's scholarly contributions have garnered attention within the academic community, as evidenced by the citations his publications have received. His work serves as a cornerstone for further exploration and development in the realm of urban power system planning and renewable energy integration.

LEGACY AND FUTURE CONTRIBUTIONS

As Xu continues his academic journey, his focus on urban power system planning remains central to his research agenda. Through ongoing projects and collaborations, he seeks to address pressing challenges in energy sustainability and contribute to the realization of a cleaner and more resilient energy future. His legacy will be defined by his dedication to advancing knowledge and fostering innovation in the field of electrical engineering.

NOTABLE PUBLICATION

Fixed-time/Preassigned-time Dynamic Surface Control of Power Systems with Capacitive-coupled STATCOM 2024

A Cascaded Multilevel Battery Energy Storage Based Parallel Dynamic Voltage Compensator for Medium Voltage Industrial Distribution Systems 2024 (1)

Peer-to-Peer Transactive Computationā€“Electricity Trading for Interconnected Virtual Power Plant Buildings 2023

A Centralized Battery Energy Storage-Based Medium-Voltage Multiwinding DVC for Balance and Unbalance Operations 2023 (3)

Ruiheng Li – Environmental sustainable development – Best Researcher Award

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Ruiheng Li - Environmental sustainable development - Best Researcher Award

Hubei Key Laboratory of Digital Finance Innovation - China

AUTHOR PROFILE

Scopus

ORCID

 

EARLY ACADEMIC PURSUITS

Ruiheng Li's academic journey reflects a deep commitment to advancing knowledge in geophysics and electromagnetic modeling. With a focus on transient electromagnetic (TEM) methods, Li has contributed significantly to the development of innovative inversion techniques and their applications in understanding subsurface structures.

PROFESSIONAL ENDEAVORS

From his research on enhancing the Whale Optimization Algorithm for improved electromagnetic inversion to developing denoising methods for ground-penetrating radar signals, Ruiheng Li has established himself as a leading figure in geophysical exploration and modeling. His work spans diverse domains, including geoelectric imaging, seismicity analysis, and hydrogeological characterization.

CONTRIBUTIONS AND RESEARCH FOCUS

Li's research primarily revolves around developing and refining computational algorithms and models to extract meaningful information from geophysical data. His contributions to transient electromagnetic inversion, magnetotelluric imaging, and seismic structure analysis have broad implications for understanding geological processes and resource exploration.

IMPACT AND INFLUENCE

Through his publications in reputable journals and conferences, Ruiheng Li has disseminated valuable insights and methodologies to the scientific community. His research has not only advanced the state-of-the-art in geophysical modeling but also facilitated practical applications in mineral exploration, environmental monitoring, and hazard mitigation.

ACADEMIC CITES

The impact of Li's work is evident from the numerous citations his publications have received, reflecting their significance in the field of geophysics and electromagnetic modeling. His contributions have spurred further research and innovation, shaping the discourse on subsurface imaging and characterization.

LEGACY AND FUTURE CONTRIBUTIONS

As Li continues his academic and professional journey, his focus on environmental sustainable development underscores his commitment to addressing pressing societal and environmental challenges. Through ongoing research and collaborative efforts, he is poised to make enduring contributions to the advancement of geophysics and its applications in sustainable resource management and hazard mitigation.

NOTABLE PUBLICATION

Employing RNN and Petri Nets to Secure Edge Computing Threats in Smart Cities 2024

Using Adaptive Chaotic Grey Wolf Optimization for the daily streamflow prediction 2024 (1)

Neighborhood constraint extraction for rapid modeling of point cloud scenes in large-scale power grid substations 2024

U-shaped convolutional transformer GAN with multi-resolution consistency loss for restoring brain functional time-series and dementia diagnosis 2024

Blend of flue gas from a methane-fueled gas turbine power plant and syngas from biomass gasification process to feed a novel trigeneration application: Thermodynamic-economic study and optimization 2023 (4)

Ali Omidkar – Green Processes – Best Researcher Award

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Ali Omidkar - Green Processes - Best Researcher Award

University of Calgary - Canada

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Ali Omidkar's academic journey in chemical engineering has been marked by excellence, culminating in an MSc from the University of Calgary. His research interests focus on green processes, particularly in catalysis, reactor design, and CO2 utilization. With a strong foundation in both theoretical and practical aspects of chemical engineering, Ali has consistently demonstrated his dedication to advancing sustainable technologies.

PROFESSIONAL ENDEAVORS

As a process engineer at the South Pars Gas Complex in Iran, Ali gained valuable experience in techno-economic assessment, process optimization, and shift supervision. His work in evaluating projects for sustainability and efficiency aligns with his academic focus on green processes and underscores his commitment to implementing environmentally friendly solutions in the industry.

CONTRIBUTIONS AND RESEARCH FOCUS

Ali's research contributions span a wide range of topics in chemical engineering, with a common thread of promoting sustainability and environmental stewardship. His investigations into biomass conversion, CO2 utilization, and machine learning-guided upgrading of biocrude highlight his innovative approach to addressing global challenges in energy and environmental conservation.

IMPACT AND INFLUENCE

Through his publications and collaborations, Ali has made significant contributions to advancing the field of green processes. His research findings have been recognized and cited in reputable journals, indicating their relevance and impact in academia and industry. By integrating cutting-edge technologies like machine learning and computational modeling, Ali's work has the potential to reshape the landscape of chemical engineering towards a more sustainable future.

ACADEMIC CITES

Ali's research publications have garnered attention in the scientific community, with citations in prominent journals and book chapters. His interdisciplinary approach, combining experimental and computational techniques, has enriched the field of chemical engineering and paved the way for future advancements in green processes and sustainable technologies.

LEGACY AND FUTURE CONTRIBUTIONS

As Ali continues to expand his research portfolio and professional endeavors, his focus on green processes will remain central to his contributions. By leveraging his expertise in catalysis, reactor design, and AI applications, he aims to develop innovative solutions that address pressing environmental challenges while driving progress towards a more sustainable and resilient future.

NOTABLE PUBLICATION

MXenes as electrocatalysts for hydrogen production through the electrocatalytic water splitting process: A mini reviewĀ  2024

Machine learning assisted techno-economic and life cycle assessment of organic solid waste upgrading under natural gas 2024 (3)

Non-thermal plasma catalysis driven sustainable pyrolysis oil upgrading to jet fuel under near-ambient conditionsā€ Ā  2024 (1)

p-n heterojunction of nickel oxide on titanium dioxide nanosheets for hydrogen and value-added chemicals coproduction from glycerol photoreforming 2023 (5)

Mallika Saha – sustainable development – Excellence in Research

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Mallika Saha - sustainable development - Excellence in Research

University of Barishal - Bangladesh

EARLY ACADEMIC PURSUITS

Mallika Saha's academic journey commenced with a Bachelor's in Business Administration from West Bengal University of Technology, India, in 2009. She furthered her studies with an MBA, majoring in Finance, from the University of Pune, India, in 2012, followed by another MBA with a major in Accounting & Information Systems from the University of Dhaka, Bangladesh, in 2014. Her academic pursuits culminated in a PhD in Finance from Zhongnan University of Economics and Law, China, in 2021, with a dissertation titled "Financial inclusion, stability and macroprudential policy: Role of governance."

PROFESSIONAL ENDEAVORS

Mallika Saha's professional journey is marked by her dedication to academia and research. She has served as a lecturer, assistant professor, and currently as an associate professor in the Department of Accounting & Information Systems at the University of Barisal, Bangladesh. Additionally, she gained practical experience as a Management Trainee Officer at BRAC Bank Limited, Bangladesh.

CONTRIBUTIONS AND RESEARCH FOCUS

Mallika Saha's research interests center around financial economics, sustainable development, and financial technology. Her scholarly contributions have been published in reputable journals, focusing on topics such as the nexus between financial inclusion and stability, the impact of governance on financial development, and the role of macroprudential policy in crisis management.

IMPACT AND INFLUENCE

Mallika Saha's research has made a significant impact on academia and policymaking, particularly in the realm of sustainable development. Her findings contribute to a deeper understanding of the dynamics between financial systems, governance, and sustainable economic growth, thereby informing policy decisions and fostering more resilient and inclusive financial systems.

ACADEMIC CITES

Mallika Saha's research has been cited extensively in academic literature, reflecting the relevance and impact of her contributions to the field of sustainable development. Her publications in prestigious journals have garnered attention from scholars and practitioners alike, facilitating further discourse and research in related areas.

LEGACY AND FUTURE CONTRIBUTIONS

Mallika Saha's legacy lies in her dedication to advancing knowledge and understanding in financial economics and sustainable development. Through her ongoing research and academic endeavors, she continues to shape the discourse surrounding sustainable economic growth, financial inclusion, and governance. Her future contributions are expected to further enrich scholarly understanding and inform policy interventions aimed at promoting sustainable development.

NOTABLE PUBLICATION

Does financial development cause sustainable development? A PVAR approach.

Role of governance in the nexus between financial development and sustainable development.

Does governance quality matter in the nexus of inclusive finance and stability?.

Na Chen – carbon energy – Best Researcher Award

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Na Chen - carbon energy - Best Researcher Award

Beijing Normal University School of Government - China

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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