HARPREET AASI | Engineering | Women Researcher Award

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HARPREET AASI | Engineering | Women Researcher Award

Dr HARPREET AASI, INDIAN INSTITUTE OF TECHNOLOGY BOMBAY, India

Dr. Harpreet Aasi is a Postdoctoral Fellow in Thermal Engineering at IIT Bombay (2024–present). He holds a Ph.D. in Thermal Engineering from IIT Roorkee (2014–2020), an M.Tech. from NIT Raipur, and a B.E. in Mechanical Engineering. His expertise lies in heat transfer enhancement, particularly using ultrasound in electronic cooling systems, involving both numerical (ANSYS Fluent) and experimental methods. A recipient of multiple awards, including the Silver Medal at NIT Raipur, Dr. Aasi has contributed to prestigious projects sponsored by CSIR and DST. He is also an active reviewer for high-impact journals and has published extensively in heat exchanger optimization. 📚💡

Publication Profile

Scopus

Education

Dr. Harpreet Aasi is a distinguished researcher specializing in thermal engineering. Currently, he is pursuing a Postdoctoral Fellowship at the Indian Institute of Technology Bombay (March 2024 – present). He earned his Ph.D. with honors in Thermal Engineering from IIT Roorkee (2014-2020) and completed an M.Tech. in Thermal Engineering with an impressive CPI of 8.96/10 at NIT Raipur (2011-2013). His academic journey began with a B.E. in Mechanical Engineering from New Government Engineering College Raipur, achieving a stellar CPI of 8.99/10 (2006-2010). Dr. Aasi’s dedication to academics is reflected in his strong foundations, scoring 76% in Intermediate (2005-2006) and 85% in Matriculation (2003-2004). 📚✨

Experience

Dr. Aasi conducted numerical (Ansys Fluent) and experimental studies (non-intrusive optical techniques) on single-phase and two-phase flow boiling processes for electronic cooling systems. This research explored the effect of ultrasound parameters, demonstrating its potential for enhancing heat transfer. Ph.D. Research: Investigations on Three-fluid Compact Plate-fin Heat Exchanger 🌡️📊 Dr. Aasi performed extensive experimental and numerical investigations (MATLAB coding) under transient and steady states, addressing flow maldistribution, inlet temperature non-uniformity, and ambient heat interaction. Innovative modeling optimized geometrical attributes for diverse plate-fin types. M.Sc. Research: Parametric Study of Orthotropic Annular Fin with Contact Resistance 🌀🛠️ Dr. Aasi developed a 2D dimensionless steady-state model to assess the thermal performance of orthotropic annular fins, focusing on polymer matrix composites with axis-dependent properties.

Award and Scholarships

Dr. Harpreet Aasi has an impressive academic record, including a Silver Medal at the National Institute of Technology (NIT) Raipur in 2012-2013 🥈. He received the Academic Excellence Award at NIT Raipur in 2011-2012 🎓. Ranked 10th in the Chhattisgarh Swami Vivekanand Technical University state toppers list, he was 1st in New Government Engineering College Raipur in 2010 🏆. Dr. Aasi secured prestigious fellowships, including the Institute Postdoctoral Fellowship at IIT Bombay in 2024 🧑‍🔬 and MHRD scholarships for his Ph.D. (2014-2019) and M.Tech. (2011-2013) 📚. Additionally, he earned state-level merit scholarships during his B.E. studies (2007-2010) 🏅.

Project contribution

Dr. Harpreet Aasi has conducted groundbreaking research on optimizing the performance of three-fluid heat exchangers through both numerical and experimental investigations. Sponsored by CSIR, this research aims to improve heat transfer efficiency and system performance. Additionally, his study on the effect of temperature and flow nonuniformities on three-fluid compact heat exchangers, sponsored by DST, delves into understanding how such factors influence overall efficiency. These contributions are crucial in advancing thermal management systems, with potential applications in various industries, from energy to manufacturing. 🌡️🔧

Research focus

Dr. Harpreet Aasi’s research primarily focuses on the thermo-hydraulic performance and optimization of multi-fluid heat exchangers, particularly three-fluid systems. His work investigates the effects of flow non-uniformity, ambient heat ingression, and temperature nonuniformity on the efficiency and dynamic behavior of cross-flow and plate-fin heat exchangers. Using advanced techniques like Artificial Neural Networks (ANN) and second law analysis, he aims to improve heat exchanger designs for enhanced thermal management in various engineering applications. His research is crucial for energy efficiency and thermal optimization in industries such as cryogenics, power generation, and heat recovery. 🔥🔧⚙️💡

Publication top notes

Investigation on cross-flow three-fluid compact heat exchanger under flow non-uniformity: an experimental study with ANN prediction

The impact of ambient heat ingression on performance of cryogenic three-fluid cross-flow compact heat exchanger

Experimental investigation and ANN modelling on thermo-hydraulic efficacy of cross-flow three-fluid plate-fin heat exchanger

Detailed design optimization of three-fluid parallel-flow plate-fin heat exchanger using second law analysis

Influence of flow non-uniformity on the dynamic behaviour of three-fluid cross-flow compact heat exchanger

A novel equivalence approximate model for second law based optimization of three-fluid cross-flow plate-fin heat exchanger using genetic algorithm

 

Wuxiong Chen | Engineering | Best Researcher Award

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Dr. Wuxiong Chen | Engineering | Best Researcher Award

department manager,  CABR Shenzhen Construction Technology Corporation, Ltd. China

Wuxiong Chen is a highly qualified civil engineer with a Master’s degree from Shenzhen University and over eight years of professional experience at CABR Shenzhen Construction Technology Corporation. Currently a department manager, he has steadily advanced in his career, demonstrating strong leadership and expertise in engineering inspection. Wuxiong has published five research papers in reputable journals, focusing on innovative topics like carbon emissions and structural design. His involvement in significant research projects funded by the National Natural Science Foundation of China highlights his commitment to advancing the field. Additionally, Wuxiong has earned several patents, including those for construction inspection devices, and received a Grand Prize Achievement for his low-carbon vibration-damping system. His blend of academic excellence, professional growth, and innovation makes him a strong candidate for the Research for Best Researcher Award, recognizing his contributions to civil engineering and infrastructure safety.

Profile: 

Educations

Wuxiong Chen has a solid educational background in civil engineering. He obtained both his undergraduate and master’s degrees in Civil Engineering from Shenzhen University. His academic journey began in 2008, when he enrolled in Shenzhen University for his bachelor’s degree, which he completed in July 2012. Following this, he pursued a master’s degree at the same institution, graduating in June 2015. During his academic career, Wuxiong consistently excelled, gaining a comprehensive understanding of civil engineering principles, which laid the foundation for his professional success. His formal education, along with the skills and knowledge he developed, has been critical in shaping his career path as a department manager and senior engineer at CABR Shenzhen Construction Technology Corporation. Wuxiong’s academic achievements reflect his dedication to learning and his passion for contributing to advancements in civil engineering. His strong educational foundation positions him as a highly qualified professional in his field.

 

Research Skills

Wuxiong Chen demonstrates exceptional research skills in the field of civil engineering, with a focus on structural design, seismic retrofitting, and sustainable construction technologies. Over the last five years, he has contributed to five key research papers in reputable journals, covering topics such as carbon emissions from urban infrastructure and retrofitting of large-span concrete structures. His expertise is further evidenced by his involvement in major research projects funded by the National Natural Science Foundation of China, where he leads in developing emergency repair technologies for underground stations. In addition to his scholarly work, Wuxiong holds seven patents for innovative devices used in construction inspections, showcasing his ability to apply research to real-world challenges. His ability to bridge academic research with practical applications underscores his significant contributions to the advancement of civil engineering, making him a leader in the field. These skills establish Wuxiong as a highly capable and impactful researcher.

 

Professional Experiences

Wuxiong Chen has over eight years of professional experience in civil engineering, starting his career at CABR Shenzhen Construction Technology Corporation, Ltd., as an Assistant Engineer in the Inspection Department. Over the years, he has risen through the ranks, holding positions such as Engineer and Intermediate Engineer before becoming the Department Manager. His work primarily focuses on structural inspection, design analysis, and retrofitting of large-scale civil engineering projects. Currently serving as a Senior Engineer and Department Manager, Wuxiong leads critical projects in infrastructure safety, utilizing advanced technologies to enhance structural integrity. His leadership in managing teams and overseeing inspections has made significant contributions to the field, particularly in the areas of seismic safety and sustainable construction. Wuxiong’s continuous commitment to professional growth is evidenced by his steady progression in the industry, making him a distinguished leader in the civil engineering sector.

Award And Recognition

Wuxiong Chen has demonstrated exceptional expertise in civil engineering, earning widespread recognition for his innovative research and contributions to the field. With a Master’s degree from Shenzhen University and over eight years of professional experience, he has risen to a senior managerial position at CABR Shenzhen Construction Technology Corporation. His scholarly achievements include five published papers and leadership roles in key research projects funded by the National Natural Science Foundation of China. Wuxiong’s groundbreaking work has been further recognized with a Grand Prize Achievement in 2022 and seven patents for his technological advancements in construction inspection and reinforcement methods. His dedication to advancing sustainable construction technologies and engineering innovation highlights his commitment to improving industry practices. Wuxiong Chen’s contributions continue to drive progress in civil engineering, earning him the respect of his peers and making him a worthy candidate for the Research for Best Researcher Award.

Conclusion

Wuxiong Chen is a highly qualified candidate for the Research for Best Researcher Award. With a solid academic foundation in civil engineering and over eight years of professional experience, he has steadily advanced in his career, currently holding a senior managerial position at CABR Shenzhen Construction Technology Corporation. His research contributions are substantial, with five published papers and involvement in key scientific projects related to infrastructure repair and design. Wuxiong has also been recognized with a prestigious Grand Prize Achievement and holds seven patents, reflecting his innovative solutions in construction technology. His work not only advances academic knowledge but also has practical implications in improving safety and efficiency in civil engineering. Overall, Wuxiong Chen’s combination of professional expertise, research excellence, and impactful innovations make him a deserving candidate for the Research for Best Researcher Award.

Publication Top Notes

  • Carbon-mechanic dual-control design decision model of prefabricated structural components
    • Authors: Chen, K., He, Q., Qiu, T., Bao, X., Lai, Y.
    • Journal: Energy and Buildings
    • Year: 2024
    • Volume/Issue/Page: Volume 323, Article 114831
    • Citations: 0
  • Review of Research on Embodied Carbon Emissions in Urban Rail Transit Infrastructure | 城市轨道交通基础设施隐含碳排放研究综述
    • Authors: Chen, X., Chen, K., Qiu, T., Chen, W., Fu, Y.
    • Journal: Modern Tunnelling Technology
    • Year: 2024
    • Volume/Issue/Page: Volume 61, Issue 4, Pages 1–13
    • Citations: Not specified yet

George Nnanna | Engineering | Best Researcher Award

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Prof Dr. George Nnanna | Engineering | Best Researcher Award

Prof Dr. George Nnanna, The University of Texas Permian Basin, United States

Based on the provided information, Prof. Dr. George Nnanna would be a suitable candidate for the Research for Best Researcher Award due to his extensive contributions in academia, strategic planning, and research leadership. Below is an analysis of his achievements:

Publication profile

Strategic Planning and Leadership

Prof. Dr. Nnanna has demonstrated a strong capacity for strategic planning, having led the development of four strategic plans and actively participated in two university-level strategic plans. His leadership in these initiatives, such as targeting increased graduation rates amidst challenges due to the local economic climate, highlights his ability to navigate complex issues and implement effective strategies.

Fundraising and Resource Management

Dr. Nnanna’s experience in managing a substantial budget of nearly $21 million and collaborating on major fundraising efforts totaling $9.74 million underscores his capability in financial stewardship and resource allocation. His involvement in the $55 million Engineering Building project further reflects his skills in securing and managing large-scale investments.

Research Funding and Grants

With over $14 million in external grants generated as a Principal Investigator (PI) or Co-Principal Investigator (Co-PI), Dr. Nnanna’s success in securing diverse funding sources—federal, industry, city, and state—demonstrates his expertise in research proposal writing and his ability to attract significant research support.

Academic Achievements and Honors

His academic background, including a Ph.D. in Mechanical Engineering from The University of Texas at Arlington and executive leadership training from Harvard University and Oxford University, positions him as a well-rounded scholar and leader. His numerous honors, including a fellowship with the American Society of Mechanical Engineers and recognition by the Carnegie African Diaspora Fellowship, further affirm his stature in the academic community.

Contributions to Education and Accreditation

Prof. Dr. Nnanna’s role as Founding Dean and his leadership in ABET accreditation processes for engineering programs demonstrate his commitment to maintaining high educational standards. His involvement in teaching advanced engineering courses and advancing student learning experiences emphasizes his dedication to academic excellence.

Publication Top Notes

  • Enhanced solar-driven evaporation and mineral extraction from hypersaline produced water using low-cost microporous photothermal foam 🧪🌞
    • Nnanna, A.G.A., Nnanna, N.A., Heliyon, 2024, 10(8), e29321.
    • Cited by: 0
  • Compositional Analysis of Conventional and Unconventional Permian Basin-Produced Waters: A Simple Tool for Predicting Major Ion Composition 💧🔍
    • Ogbuji, B., Agwu Nnanna, A.G., Engle, M., Amesquita, R., SPE Production and Operations, 2022, 37(3), pp. 383–396.
    • Cited by: 6
  • A novel activated carbon enabled steam generation system under simulated solar light 🌞🔋
    • Mishra, A., Nnanna, A.G.A., Journal of Electronic Packaging, 2019, 141(3), 031015.
    • Cited by: 0
  • Optimization of Water Consumption in Hybrid Evaporative Cooling Air Conditioning Systems for Data Center Cooling Applications 🌬️💻
    • Ndukaife, T.A., Nnanna, A.G.A., Heat Transfer Engineering, 2019, 40(7), pp. 559–573.
    • Cited by: 19
  • Enhancement of Performance and Energy Efficiency of Air Conditioning System Using Evaporatively Cooled Condensers ❄️⚡
    • Ndukaife, T.A., Nnanna, A.G.A., Heat Transfer Engineering, 2019, 40(3-4), pp. 375–387.
    • Cited by: 10
  • Membrane fouling mitigation in water filtration using piezoelectrics 💧📊
    • Aronu, O., Abramowitz, H., Nnanna, A.G., ASME International Mechanical Engineering Congress and Exposition, 2019, 8.
    • Cited by: 0
  • Net-zero water (NZW) reuse desiccant assisted evaporative cooling system for data centers 🌱💧
    • Okposio, D., Agwu Nnanna, A.G., Abramowitz, H., ASME International Mechanical Engineering Congress and Exposition, 2019, 8.
    • Cited by: 1
  • High-Resolution Large-Ensemble Nanoparticle Trapping with Multifunctional Thermoplasmonic Nanohole Metasurface 🧲🔬
    • Ndukaife, J.C., Xuan, Y., Nnanna, A.G.A., Wereley, S.T., Boltasseva, A., ACS Nano, 2018, 12(6), pp. 5376–5384.
    • Cited by: 46
  • Development of a low cost self-sustaining water distillation system using activated carbon nanofluids 💧🔥
    • Mishra, A., Nnanna, A.G.A., ASME International Mechanical Engineering Congress and Exposition, 2018, 6B-2018.
    • Cited by: 0
  • Smartphone-based device for monitoring chemical pollutants in water 📱🧪
    • Ozeh, S., Nnanna, A.G.A., Ndukaife, J.C., ASME International Mechanical Engineering Congress and Exposition, 2018, 3.
    • Cited by: 1

Conclusion

Prof. Dr. George Nnanna’s strategic vision, leadership in resource management, successful acquisition of research funding, and commitment to academic and educational excellence make him a strong contender for the Research for Best Researcher Award. His multifaceted contributions to engineering education and his proactive approach to overcoming institutional challenges highlight his significant impact in the field.