Neelu Nagpal – Power System – Best Researcher Award

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Neelu Nagpal - Power System - Best Researcher Award

Maharaja Agrasen Institute of Technology - India

 

AUTHOR PROFILE

Google Scholar

EARLY ACADEMIC PURSUITS

Neelu Nagpal began her academic journey with a B-Tech in Electrical Engineering from Delhi College of Engineering, where she graduated with first division honors in 1999. She continued her education with a Master’s in Control & Instrumentation from the same institution, achieving distinction with a 75.12% score in 2007. Her academic achievements culminated in a Ph.D. from Delhi Technological University, where she conducted research on "Environment Force Estimation with Stochastic Noise and Control for Robotics," earning her doctorate in June 2007.

PROFESSIONAL ENDEAVORS

Neelu Nagpal has amassed extensive experience in the field of electrical and electronics engineering education. She has been an Associate Professor at Maharaja Agrasen Institute of Technology (MAIT), New Delhi, since August 2006. Prior to this, she served as a Lecturer at Northern India Engineering College and as a Guest Lecturer at Delhi College of Engineering. Her teaching career began as a Lecturer at Chottu Ram Rural Institute of Technology and Pusa Polytechnic.

CONTRIBUTIONS AND RESEARCH FOCUS

Neelu Nagpal's research interests are diverse, focusing on Stochastic & Nonlinear Dynamics and Control, State Estimation, Renewable Energy Sources, Load Frequency Control, and Computational Intelligence. Her work in these areas, especially in power systems, has significantly contributed to advancements in electrical engineering education and research. She has published extensively and received numerous commendations for her research and teaching excellence.

IMPACT AND INFLUENCE

Neelu Nagpal's influence extends beyond her academic and research contributions. As a technical member of the IEEE Control System community and a leader in the Energy Domain of R&D for IEEE Smart Cities, she has played a pivotal role in advancing smart city technologies and power systems. Her leadership roles include being the Publication Chair for the IEEE conference ICIERA 2021 and the Convenor for the 3rd International Conference on Renewable Power (ICRP 2024). Her work has earned her numerous awards, including the Commendable Research Award from Delhi Technological University and the Commendable 15 years long service award from MAIT.

ACADEMIC CITES

Neelu Nagpal's research and contributions have been widely recognized and cited in academic circles. Her work on stochastic noise and control in robotics, renewable energy sources, and power systems has been published in prestigious journals and presented at leading conferences. As an Associate Editor of the IEEE Journal of Emerging and Selected Topics in Power Electronics and an Editorial Member of the MAIT Journal of Technology and Science, she continues to influence and shape the future of electrical engineering research.

LEGACY AND FUTURE CONTRIBUTIONS

Neelu Nagpal's legacy is characterized by her dedication to advancing the field of electrical engineering through education, research, and active involvement in professional organizations. Her contributions to power systems and renewable energy research have laid the groundwork for future innovations. As an Innovation Ambassador recognized by the Ministry of Education’s innovation cell and AICTE, she is committed to fostering a culture of innovation and excellence. Her ongoing work and future contributions are expected to further enhance the field of power systems and smart city technologies.

POWER SYSTEMS

Throughout her career, Neelu Nagpal has demonstrated a profound commitment to the advancement of power systems. Her research on state estimation, load frequency control, and renewable energy sources has significantly impacted the development and optimization of power systems. Her role in organizing and chairing sessions at international conferences, such as the Special Session on Advanced Technologies of Motor Drives for Zero-Emission E-Mobility, highlights her expertise and leadership in this critical field. Her ongoing work in power systems continues to push the boundaries of innovation and sustainability in electrical engineering.

NOTABLE PUBLICATION

Decentralized Optimized Integral Sliding Mode-Based Load Frequency Control for Interconnected Multi-Area Power Systems 2023 (18)

Power Quality Disturbances Detection and Classification Based on Deep Convolution Auto-encoder Networks 2023 (17)

A quantum-based approach for offensive security against cyber attacks in electrical infrastructure 2023 (7)

Decentralized stochastic disturbance observer-based optimal frequency control method for interconnected power systems with high renewable shares 2021 (22)

Mehrdad Ghamari – Sustainable and Renewable Energy – Young Scientist Award

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Mehrdad Ghamari - Sustainable and Renewable Energy - Young Scientist Award

Edinburgh Napier University - United Kingdom

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Mehrdad Ghamari embarked on his academic journey by earning a Bachelor's degree in Civil Engineering from the University of Tehran, followed by a Master's degree in Structural Engineering from the University of Isfahan. He continued to pursue his academic interests by obtaining a Ph.D. in Construction Engineering from Edinburgh Napier University, where he is currently conducting research.

PROFESSIONAL ENDEAVORS

Throughout his career, Mehrdad Ghamari has held various positions, including lecturer and teaching assistant at prestigious academic institutions. He has also gained significant practical experience in civil engineering, serving as a supervisor, CEO, and expert in construction engineering organizations in Iran. His diverse roles have allowed him to contribute both to academia and the construction industry.

CONTRIBUTIONS AND RESEARCH FOCUS

Mehrdad Ghamari's research interests lie in the field of sustainable and renewable energy, with a particular focus on photovoltaic integration for passive cooling applications. His work on analyzing structural aspects and the effects of lateral constraints on historical masonry walls reflects his dedication to advancing knowledge in construction engineering. Additionally, his investigations into the structural analysis of Persian domes and the valorization of waste-derived nanocellulose demonstrate his interdisciplinary approach to research.

IMPACT AND INFLUENCE

Ghamari's publications in reputable journals and presentations at international conferences have contributed significantly to the academic community's understanding of sustainable building practices and structural analysis techniques. His research findings have the potential to influence the development of eco-friendly construction methods and materials, thereby contributing to global efforts to combat climate change.

ACADEMIC CITES

Mehrdad Ghamari's research papers have been published in esteemed journals and presented at prestigious conferences, garnering attention and citations from fellow scholars. His contributions to the literature on sustainable and renewable energy underscore his expertise and influence in the field of construction engineering.

LEGACY AND FUTURE CONTRIBUTIONS

As Ghamari continues his academic and professional journey, his focus on sustainable and renewable energy will remain paramount. Through his research, teaching, and practical experience, he aims to advance eco-friendly construction practices and inspire future generations of engineers to prioritize environmental sustainability. His interdisciplinary approach and dedication to excellence position him as a leader in the field, poised to make significant contributions to the construction industry and academia.

NOTABLE PUBLICATION

Flanges' Impact on Persian Historical Masonry Walls: Modeling Safety Factors 2024

Solar Wall Technology and Its Impact on Building Performance 2024

Effects of Lateral Constraints and Geometrical Characteristics on Deformation Capacity of the Persian Historic Unreinforced Masonry Shear Walls under Uncertainty Conditions 2020 (2)

Ahmed Shah Nisar – Sustainable Construction Techniques – Young Scientist Award

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Ahmed Shah Nisar - Sustainable Construction Techniques - Young Scientist Award

Virginia Tech - United States

AUTHOR PROFILE

ORCID

EARLY ACADEMIC PURSUITS

Ahmed Shah Nisar embarked on his academic journey with a Bachelor of Technology in Civil Engineering from G.C.E.T, Cluster University Srinagar, India, achieving a remarkable GPA of 4.0. Building upon this strong foundation, he pursued a Master of Science in Civil Engineering with a specialization in Transportation Infrastructure & Systems Engineering at Virginia Tech, where he continued to excel academically, maintaining a GPA of 4.0. His early academic achievements laid the groundwork for his future professional endeavors in the field of civil engineering.

PROFESSIONAL ENDEAVORS

As a Graduate Research Assistant at the Virginia Tech Transportation Institute, Nisar is actively involved in research at the Center of Sustainable & Resilient Infrastructure. His work focuses on the structural assessment of roads in the U.S. using Traffic Speed Deflectometer Devices, contributing to the development of sustainable infrastructure solutions. Additionally, his internship experiences with the Roads & Building Department Division-I and Division-II in Srinagar provided him with hands-on experience in bridge construction, concrete testing, structural design analysis, and cost analysis, further enriching his professional skill set.

CONTRIBUTIONS AND RESEARCH FOCUS

Nisar's research and project work reflect a keen focus on sustainable construction techniques, with an emphasis on innovation and environmental responsibility. His projects encompass a range of topics, from traffic flow calibration and urban heat island identification to the study of fly ash bubble deck slabs. Through his research, Nisar actively seeks to enhance the efficiency, resilience, and environmental sustainability of infrastructure systems, contributing to advancements in sustainable construction practices.

IMPACT AND INFLUENCE

Nisar's contributions to sustainable construction techniques have the potential to have a significant impact on the field of civil engineering. By spearheading projects that aim to reduce CO2 emissions, improve structural efficiency, and mitigate environmental impacts, he is shaping the future of infrastructure development. His research findings and project outcomes may influence industry practices, policy decisions, and academic discourse, driving positive change in sustainable construction methodologies.

ACADEMIC CITES

Nisar's research endeavors may garner citations from fellow researchers, scholars, and practitioners in the field of civil engineering. As his work becomes disseminated and integrated into the academic literature, it has the potential to serve as a foundational reference for future research and development in sustainable construction techniques, further solidifying his impact on the academic community.

LEGACY AND FUTURE CONTRIBUTIONS

Ahmed Shah Nisar's dedication to advancing sustainable construction techniques positions him as a leader in the field of civil engineering. His commitment to innovation, environmental stewardship, and academic excellence sets a precedent for future generations of engineers. As he continues to pursue research, contribute to projects, and engage in scholarly discourse, his legacy as a champion of sustainable infrastructure development is sure to endure, leaving a lasting impact on the profession and the planet.

NOTABLE PUBLICATION

Flexural performance of fly ash bubble deck slab 2024

Thomas Odey Magu – Renewable energy and waste management – Excellence in Research

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Thomas Odey Magu - Renewable energy and waste management - Excellence in Research

University of Florida - United States

AUTHOR PROFILE

Scopus
ORCID
Google Scholar

EARLY ACADEMIC PURSUITS

Thomas Odey Magu embarked on his academic journey with a Bachelor of Science degree in Chemistry from Cross River University of Technology (CRUTECH) in 2012. He continued to pursue higher education, obtaining a Master of Science in Physical Chemistry from the University of Calabar in 2017, where his research focused on biodiesel production using nanocatalysts.

PROFESSIONAL ENDEAVORS

Since 2016, Thomas Odey Magu has been actively engaged as a Teaching/Research Assistant in the Department of Pure & Applied Chemistry at the University of Calabar, Nigeria. He has contributed significantly to undergraduate education through teaching, grading, and supervising projects. Currently, he serves as a Teaching/Research Assistant at the Department of Chemistry, University of Florida, USA, where he leads discussion sections, conducts office hours, and proctors exams.

CONTRIBUTIONS AND RESEARCH FOCUS

Thomas Odey Magu's research interests span various areas of chemistry, including catalysis, renewable energy, waste management, and environmental impact studies. His current project involves the synthesis and characterization of novel catalysts for renewable energy and wastewater treatment, aiming to address pressing environmental challenges through innovative solutions.

IMPACT AND INFLUENCE

Through his teaching and research activities, Thomas Odey Magu has made a significant impact on both academic and practical aspects of chemistry. His work in catalysis, renewable energy, and waste management holds promise for addressing critical issues facing society, such as sustainability and environmental conservation.

ACADEMIC CITES

Thomas Odey Magu's research findings have been disseminated through various publications and presentations, contributing to the body of knowledge in his areas of expertise. His work serves as a valuable resource for fellow researchers, educators, and practitioners in the field of chemistry and related disciplines.

LEGACY AND FUTURE CONTRIBUTIONS

As Thomas Odey Magu continues his academic and professional journey, his legacy lies in his dedication to advancing knowledge and finding sustainable solutions to global challenges. His future contributions are poised to further enrich the fields of catalysis, renewable energy, and waste management, leaving a lasting impact on academia and society at large.

NOTABLE PUBLICATION

Hydrogen storage capacity of Al, Ca, Mg, Ni, and Zn decorated phosphorus-doped graphene: Insight from theoretical calculations  2023 (14)

Ab-initio study of structural, electronic, phonon, X-ray spectroscopy, and the optoelectronic properties of D-block metals (Cr, Mn, Co, and Ni) substitution of barium oxide based-perovskites 2023 (1)

Mfor Ebot Agbor-Ambang – Green Technology – Excellence in Research

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Mfor Ebot Agbor-Ambang - Green Technology - Excellence in Research

Soka University - Japan

AUTHOR PROFILE

ORCID

EARLY ACADEMIC PURSUITS

Mfor Ebot Agbor-Ambang commenced his academic journey with a Bachelor's Degree in Mechanical Engineering from Saint Monica University, Cameroon. He then pursued a Master of Science in Environmental Engineering for Symbiosis at Soka University, Japan, before embarking on his Ph.D. in the same field, expected to be completed in 2024.

PROFESSIONAL ENDEAVORS

With a focus on green technology and environmental engineering, Mfor Ebot Agbor-Ambang has made significant strides in research and academia. His professional endeavors include teaching, research, and academic employment, primarily at Soka University, Japan, where he manages the laboratory's Computational Fluid Dynamics (CFD) software and contributes to various projects related to waste management and anaerobic digestion technology.

CONTRIBUTIONS AND RESEARCH FOCUS

Mfor Ebot Agbor-Ambang's research focuses on developing sustainable solutions for waste management, particularly in the realm of anaerobic digestion technology. His work aims to enhance methane productivity and treatment performance while minimizing environmental impact. Through experimental studies and computational simulations, he has contributed valuable insights into the optimization of mixing processes and the development of innovative digester designs.

IMPACT AND INFLUENCE

His research publications and conference presentations have garnered attention within the academic community, showcasing his innovative approaches and practical contributions to the field of green technology. By addressing key challenges in waste management and promoting sustainable practices, Mfor Ebot Agbor-Ambang has the potential to influence policies and practices in environmental engineering.

ACADEMIC CITES

Mfor Ebot Agbor-Ambang's research publications have been cited by peers in the field, highlighting the relevance and impact of his work in advancing green technology and environmental sustainability. His contributions to conferences and symposiums have facilitated knowledge exchange and collaboration among researchers worldwide.

LEGACY AND FUTURE CONTRIBUTIONS

As Mfor Ebot Agbor-Ambang continues his academic and professional journey, his legacy in the field of green technology is expected to grow. Through continued research, teaching, and collaboration, he aims to develop innovative solutions for addressing environmental challenges and promoting sustainable development. His future contributions hold the potential to drive positive change and shape the future of environmental engineering.

NOTABLE PUBLICATION

Characterization of Mixing by CFD Simulation and Optimization of Mixing Frequency to Break Scum , Enhance Methane Yield in Chinese Dome Digester  2023 (9)

Mohammad Kazem Mansouri – Greenness – Best Researcher Award

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Mohammad Kazem Mansouri - Greenness - Best Researcher Award

Alberta Health Services - Canada

AUTHOR PROFILE

Google Schalor

EARLY ACADEMIC PURSUITS

Mohammad Kazem Mansouri laid the foundation for his illustrious career with a Bachelor's degree in Chemistry from Shiraz University in 1987. His academic journey equipped him with the fundamental knowledge and skills necessary for success in the field of laboratory management and chemical analysis.

PROFESSIONAL ENDEAVORS

Mansouri's professional journey is marked by a series of significant roles at Shiraz Petrochemical Company, where he dedicated over three decades to advancing the company's laboratory operations. Starting as a Technician in 1987, he rose through the ranks to become the Director of Laboratories, Director of Service Laboratory, and Director of Control Laboratory, showcasing his expertise and leadership in laboratory management.

CONTRIBUTIONS AND RESEARCH FOCUS

Throughout his tenure at Shiraz Petrochemical Company, Mansouri made invaluable contributions to the company's success. His focus on ensuring the accuracy, efficiency, and compliance of laboratory experiments played a crucial role in maintaining the quality standards of the company's products. His expertise in analytical techniques and gas chromatography enhanced the reliability of laboratory results, contributing to the overall efficiency of operations.

IMPACT AND INFLUENCE

Mansouri's influence extended beyond the laboratory, as he collaborated with senior management to align laboratory activities with company objectives. His leadership in managing teams of up to 60 personnel demonstrates his ability to inspire and motivate others towards achieving common goals. His strategic direction and commitment to quality control have had a lasting impact on the company's reputation and success.

ACADEMIC CITES

While Mansouri's contributions may not have been formally documented in academic journals, his expertise and experience are highly regarded within the industry. His practical knowledge and leadership skills have undoubtedly influenced the work of his peers and colleagues, shaping best practices in laboratory management and chemical analysis.

LEGACY AND FUTURE CONTRIBUTIONS

As Mansouri transitions into the next phase of his career, his legacy as a leader in laboratory management and quality control will endure. His commitment to excellence, coupled with his dedication to environmental stewardship and sustainability, positions him as a role model for future generations of professionals in the field. Mansouri's greenness initiatives and advocacy for environmentally friendly practices underscore his commitment to making a positive impact on the world around him.

NOTABLE PUBLICATION

Environmental noise exposure and sleeping troubles: A general population-based study in Montreal and Halifax  2020

An Investigation of the Association between Maternal and Early Life Exposure to Urban Greenness and the Incidence of Childhood Asthma  2022

Greenness, Obesity and Incident Breast Cancer: Evidence from the Canadian National Breast Screening Study  2019 (1)