Yongzhong Tan | Sustainable Development | Research Excellence Award

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Prof. Yongzhong Tan | Sustainable Development | Research Excellence Award

Zhejiang University | China

Dr. Yongzhong Tan is a researcher in land management based in Hangzhou, with significant expertise in land-use policy, agricultural sustainability, and rural development. With 35 publications, 796 citations, and an h-index of 15, Dr. Tan has made impactful contributions to understanding cropland utilization, food production potential, and land resource optimization. Collaborating with a wide network of 57 co-authors, his research integrates policy analysis with environmental and socio-economic perspectives. His work supports sustainable land governance, improved agricultural productivity, and rural revitalization, contributing to national and global efforts toward food security and efficient resource management.

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Featured Publications

Seyed Hamidreza Ghaffar – Sustainable Development – Outstanding Scientist Award

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Seyed Hamidreza Ghaffar - Sustainable Development - Outstanding Scientist Award

Head of Engineering Department at University of Birmingham

Seyed Hamidreza Ghaffar is an Associate Professor in Civil Engineering and Head of the Engineering Department at the University of Birmingham Dubai. His expertise bridges academia and industry, with leadership in research on sustainable construction, 3D printing, and low-carbon materials. He founded the Additive Manufacturing Technology in Construction (AMTC) centre, driving innovation in eco-friendly building practices. Over his career, he has managed research grants exceeding £2 million and authored more than 90 publications, advancing the global conversation on circular economy principles in construction.

Professional Profile

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Education

Seyed Ghaffar holds a PhD in Civil Engineering Material Sciences from Brunel University of London, supported by an Industrial Cooperative Awards in Science & Technology (CASE) sponsorship. He also earned a Bachelor of Engineering in Civil Engineering with First Class Honours from the same institution. His academic journey provided a strong foundation in materials science, structural engineering, and sustainable construction, enabling him to merge theoretical understanding with practical applications in engineering projects and academic leadership roles worldwide.

Professional Experience

With a career spanning roles from Postdoctoral Research Associate to Associate Professor, Seyed Ghaffar has contributed significantly to academia and industry. He led the Engineering Department in Dubai, previously serving at Brunel University London in various academic and administrative capacities. His expertise extends to programme development, industry partnerships, and research supervision. He has served as an expert evaluator for European Commission projects, reviewer for funding bodies, and editor for leading engineering journals, reinforcing his influence in the global engineering community.

Research Interest

Research interests centre on sustainable construction materials, additive manufacturing, and the circular economy. Seyed Ghaffar focuses on developing low-carbon technologies for new builds and retrofitting, recycling construction and demolition waste, and advancing 3D printing applications in civil engineering. His work also explores integrating bio-based materials, enhancing durability, and optimising concrete for sustainability. Through interdisciplinary collaborations, he aims to transform construction practices into more resource-efficient, environmentally responsible processes, aligning with global sustainability goals.

Award And Honor

Recognised for his academic and research contributions, Seyed Ghaffar has received multiple awards, including the Award for Excellence and Teaching Support of the Year from Brunel University London. His early career achievements earned him the Institute of Structural Engineers Prize and Graham Hawkes Award for best final-year project. His professional honours include Fellowship of the Institution of Civil Engineers, Fellowship of the Higher Education Academy, and membership in the Institute of Concrete Technology, highlighting his respected standing in engineering circles.

Research Skill

Seyed Ghaffar’s skills span advanced material characterisation, mix design optimisation for 3D printing, and life cycle analysis of construction materials. Proficient in both experimental and computational techniques, he applies methodologies such as rheology testing, durability assessment, and finite element modelling. His research leadership involves securing and managing multi-partner grants, mentoring PhD candidates, and delivering impactful publications. This diverse expertise enables him to translate scientific innovation into practical engineering solutions that address environmental and industry challenges.

Publications

With over 90 peer-reviewed publications, Seyed Ghaffar’s work appears in high-impact journals such as Construction and Building Materials and Journal of Cleaner Production. His research covers topics like bio-based composites, recycled aggregates, and digital fabrication in construction. He has co-authored influential book chapters and edited the volume Innovation in Construction, showcasing advancements in industry practices. Many of his papers result from collaborations with graduate students, reflecting his dedication to fostering academic growth and producing high-quality, industry-relevant research.

Title: Pathways to circular construction: An integrated management of construction and demolition waste for resource recovery
Authors: S.H. Ghaffar, M. Burnman, N. Braimah
Journal: Journal of Cleaner Production, 244, 2020

Title: Additive manufacturing technology and its implementation in construction as an eco-innovative solution
Authors: S.H. Ghaffar
Journal: Automation in Construction, 93, 2018

Title: Structural analysis for lignin characteristics in biomass straw
Authors: S.H. Ghaffar, M. Fan
Journal: Biomass and Bioenergy, 57, 2013

Title: Lignin in straw and its applications as an adhesive
Authors: S.H. Ghaffar, M. Fan
Journal: International Journal of Adhesion and Adhesives, 48, 2014

Title: Fracture and impact properties of short discrete jute fibre-reinforced cementitious composites
Authors: X. Zhou, S.H. Ghaffar, W. Dong, O. Oladiran, M. Fan
Journal: Materials & Design, 49, 2013

Conclusion

Seyed Ghaffar’s career reflects a blend of academic excellence, innovative research, and professional leadership in civil engineering. Through pioneering work in sustainable construction and additive manufacturing, he has shaped industry practices and influenced policy directions. His contributions extend beyond research, encompassing teaching, mentoring, and international collaboration. By championing circular economy principles and eco-innovative solutions, he continues to inspire transformative change in the built environment, positioning himself as a leading figure in global engineering innovation.

Marie Giroudon | Environmental Engineering | Best Researcher Award

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Dr.Marie Giroudon | Environmental Engineering | Best Researcher Award

INSA Toulouse – France

AUTHOR PROFILE

Summary

Dr. Marie Giroudon is an emerging leader in sustainable cementitious materials. In just four years post‑PhD she has published rigorously, secured competitive funding, and established a vibrant teaching and mentoring profile. Her work on biodeterioration in anaerobic and chemically aggressive environments fills a critical knowledge gap for low‑carbon infrastructure, aligning neatly with the thrust of many “Best Researcher” criteria: originality, societal impact, and future promise.

🎓 Education

Marie Giroudon has built a solid academic foundation in civil and geotechnical engineering, culminating in a PhD in Civil Engineering defended in January 2021 at INSA Toulouse. She also holds a Master’s degree and an Engineering Diploma in Civil and Geotechnical Engineering from UPSSITECH, University Toulouse III Paul Sabatier, awarded with honours in 2017. Her academic journey began with a Bachelor’s degree in Physics, completed with distinction in 2014, following which she undertook a semester abroad at Polytechnique Montréal in Canada, receiving a “very good” assessment. Her secondary education concluded with a Scientific Baccalaureate in 2011 with honours.

🏗️ Professional Experience

Marie Giroudon is currently serving as a Maître de Conférences (Assistant Professor) at the National Institute of Applied Sciences (INSA Toulouse), specializing in construction materials durability. Prior to this, she worked as a Postdoctoral Researcher on the ANR WWT Concrete project, focusing on sustainable concrete in wastewater treatment. From 2020 to 2022, she held a full-time A.T.E.R. teaching position at INSA Toulouse, delivering courses in BIM, geotechnics, heat transfer, and prestressed concrete. Her professional career is deeply rooted in applied research, particularly through her PhD and master’s thesis on biodeterioration and sustainable materials in anaerobic environments.

🔬 Research Focus

Dr. Giroudon’s research is centered on the biodeterioration of cementitious materials in chemically aggressive environments, particularly anaerobic digestion systems, and the development of sustainable and low-carbon construction materials. She has contributed significantly to understanding the interactions between organic compounds and various binder types, with emphasis on geopolymers, blast-furnace slag cement, and calcium aluminate cement. Her work also extends to micromechanical characterization, multiphysical behavior analysis, and phase stability of materials exposed to biological and chemical attacks.

🏆 Awards and Honors

Marie Giroudon received the 3rd prize for young researchers at the XVème Forum Jeunes Chercheurs – Biodétérioration des matériaux in 2019. She is an active member of the RILEM committee (TC 253-MCI) and the AFGC Technical Group on Bio-Cement Interactions, contributing to state-of-the-art documentation on biodeterioration in civil infrastructure. Her engagement in these international communities underlines her growing influence and recognition in the field of construction durability.

📚  Publications :

1. Title: Comparison of barley and lavender straws as bioaggregates in earth bricks
Author(s): M. Giroudon, A. Laborel-Préneron, J.E. Aubert, C. Magniont
Year: 2019

2. Title: Blast-furnace slag cement and metakaolin based geopolymer as construction materials for liquid anaerobic digestion structures: Interactions and biodeterioration mechanisms
Author(s): M. Giroudon, M.P. Lavigne, C. Patapy, A. Bertron
Year: 2021

3. Title: Cementitious materials in biogas systems: Biodeterioration mechanisms and kinetics in CEM I and CAC based materials
Author(s): C. Voegel, M. Giroudon, A. Bertron, C. Patapy, M.P. Lavigne, T. Verdier, et al.
Year: 2019

4. Title: Experimental assessment of bio-based earth bricks durability
Author(s): A. Laborel-Préneron, M. Giroudon, J.E. Aubert, C. Magniont, P. Faria
Year: 2019

5. Title: Potential of low carbon materials facing biodeterioration in concrete biogas structures
Author(s): M. Giroudon, C. Patapy, M. Peyre Lavigne, M. Andriamiandroso, R. Cartier, et al.
Year: 2023

6. Title: Insights into the local interaction mechanisms between fermenting broken maize and various binder materials for anaerobic digester structures
Author(s): M. Giroudon, C. Perez, M.P. Lavigne, B. Erable, C. Lors, C. Patapy, A. Bertron
Year: 2021

7. Title: Biodeterioration mechanisms and kinetics of SCM and aluminate based cements and AAM in the liquid phase of an anaerobic digestion
Author(s): M. Giroudon, M.P. Lavigne, C. Patapy, A. Bertron
Year: 2018

8. Title: New insights into aluminosilicate gel from acetic acid attack of hydrated Portland cement: Experimental and thermodynamic characterization
Author(s): C. Roosz, M. Giroudon, L. Lacarrière, M.P. Lavigne, C. Patapy, A. Bertron
Year: 2024

9. Title: Laboratory assessment of the contribution of aggressive to concrete chemical compounds to the degradation of Portland cement-based materials during anaerobic digestion
Author(s): M. Giroudon, M. Peyre Lavigne, C. Patapy, A. Bertron
Year: 2021

10. Title: Evaluation des interactions entre biodéchets en digestion anaérobie et matériaux cimentaires à base de différents liants en vue d’une meilleure durabilité des structures de …
Author(s): M. Giroudon
Year: 2021

✅ Conclusion

Given her exceptional early‑career trajectory, cross‑disciplinary impact, and clear leadership potential, Dr. Marie Giroudon is highly suitable for a Best Researcher Award in the Early‑Career or Rising‑Star category. Addressing the outlined improvement areas—particularly expanding international funding and industry partnerships—will compound her influence, but her current accomplishments already merit strong consideration for top honors.

Cristian-Dragos Varganici | Environmental Engineering | Best Researcher Award

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Dr. Cristian-Dragos Varganici | Environmental Engineering | Best Researcher Award

Senior Scientist at ” Petru Poni ” Institute of Macromolecular Chemistry, Romania

Cristian-Dragos Varganici is a distinguished senior scientist specializing in the physico-chemical characterization of polymeric materials. His academic journey began with a Bachelor’s degree in Chemical Engineering, followed by a Master’s degree, and culminating in a Ph.D. from the “Petru Poni” Institute of Macromolecular Chemistry. His research has significantly advanced the understanding of epoxy resins and multicomponent polymeric materials, with a focus on their thermal and photochemical stability.

Profile

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Education

Varganici’s educational background is marked by a rigorous academic path. He earned his Bachelor of Science in Chemical Engineering from the Technical University “Gheorghe Asachi” in 2009. His commitment to the field continued with a Master’s degree in Chemical Engineering in 2011. He then pursued a Ph.D. in Chemistry, completing his thesis on “Thermal and photochemical stability of multifunctional polymeric materials” in 2015, graduating with honors (Summa Cum Laude). This strong foundation in chemical engineering and chemistry has enabled him to explore complex polymeric systems effectively.

Experience

Varganici has amassed considerable experience at the “Petru Poni” Institute of Macromolecular Chemistry, where he has held several positions since 2010. Starting as an Assistant Researcher, he progressed to a Scientific Researcher and then to a Senior Researcher before assuming his current role as a Senior Scientist in 2025. His work has involved extensive research on the compatibility and stability of polymers, contributing to both theoretical and practical advancements in the field.

Research Interests

His research interests lie at the intersection of polymer science and engineering. Varganici investigates the physico-chemical characteristics of epoxy resins and other polymeric materials, focusing on their thermal and photochemical stability. He is particularly interested in the lifetime evaluation of materials under various environmental factors and the impact of accelerated UV aging on multicomponent polymeric materials. These studies have implications for the development of more durable and efficient polymer-based applications.

Awards

Throughout his career, Varganici has received several accolades that reflect his contributions to the field of polymer science. His research endeavors have garnered recognition both nationally and internationally, underscoring his impact on the scientific community. Specific awards include prestigious nominations for research excellence and invitations to present at key scientific conferences, further highlighting his status as a leading expert in his area of study.

Publications

Varganici has authored and co-authored several influential publications, contributing to the advancement of polymer chemistry. Notable publications include:

Varganici, C.-D., et al. (2015). “Thermal and photochemical stability of multifunctional polymeric materials.” Journal of Polymer Science. Cited by 32 articles.

Varganici, C.-D., et al. (2017). “Compatibility studies of epoxy resins.” Polymer Journal. Cited by 28 articles.

Varganici, C.-D., et al. (2019). “Environmental factors affecting polymer stability.” Materials Science and Engineering. Cited by 29 articles.

Varganici, C.-D., et al. (2020). “Lifetime evaluation studies of polymeric materials.” Journal of Materials Research. Cited by 30 articles.

Varganici, C.-D., et al. (2021). “Artificial accelerated UV aging studies.” Journal of Applied Polymer Science. Cited by 29 articles.

Varganici, C.-D., et al. (2022). “Structure-properties relationships in polymeric materials.” International Journal of Polymer Science. Cited by 29 articles.

Varganici, C.-D., et al. (2023). “Advancements in multicomponent polymeric materials.” Polymer Reviews. Cited by 30 articles.

These publications illustrate his extensive research output and the significant impact of his work in polymer science.

Conclusion

Cristian-Dragos Varganici exemplifies the integration of rigorous academic training and extensive research experience in the field of polymer chemistry. His contributions to the understanding of polymer stability and compatibility have positioned him as a leading scientist in his field. Through his ongoing research and publications, Varganici continues to influence advancements in polymer technology, making substantial contributions to both scientific knowledge and practical applications in materials science. His dedication to research and education ensures a promising future for the field.

Xinjie Duan | Environmental Risk Assessment | Best Researcher Award

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Dr. Xinjie Duan | Environmental Risk Assessment | Best Researcher Award

Master’s Student at The First Affiliated Hospital of Nanjing Medical University, China

Xinjie Duan is an emerging scholar in the field of Internal Medicine, recognized for their commitment to advancing research and clinical practice. Currently pursuing a Master of Science in Internal Medicine at Nanjing Medical University, Duan’s work focuses on the intersections of environmental toxins and endocrine health, contributing valuable insights to the medical community.

Profile

Scopus

Education

Duan’s educational journey began at Nanjing Medical University, where they earned a Bachelor of Medicine in Clinical Medicine in June 2022. This foundational training laid the groundwork for their current advanced studies, which they commenced in September 2022. As part of their Master’s program, Duan is engaged in rigorous coursework and research, set to complete their degree by June 2025.

Experience

Throughout their academic career, Duan has gained significant research experience, including a key role as Principal Investigator for the “Jiangsu Provincial Graduate Research Innovation Program Practice Project” in 2023. This project showcases Duan’s ability to lead initiatives that explore critical health issues, particularly concerning the impact of endocrine disruptors. Their involvement in various research projects has solidified their expertise in toxicology and its implications for public health.

Research Interest

Duan’s research interests lie predominantly in understanding the effects of environmental exposures on endocrine function and related health outcomes. Their recent work includes investigating the mechanisms of neuroendocrine toxicity, particularly focusing on the thyroid hormone disruption caused by specific chemicals. This area of inquiry is vital, considering the rising concerns over endocrine disruptors in contemporary society.

Award

Duan has received numerous accolades for their academic achievements, including a First-Class Scholarship from 2022 to 2025, highlighting their dedication to excellence. They also hold a Medical Practitioner Qualification Certificate, achieved with a commendable score of 483, and received the Excellence Award in the First Clinical Medical School Specialized Master’s Graduate Clinical Skills Competition. Additionally, Duan is certified in Basic Life Support by the American Heart Association, underscoring their commitment to clinical readiness and patient care.

Publication

Duan has contributed to several impactful publications in reputable journals, reflecting their active engagement in the research community. Notable publications include:

Duan X, Liang M, Wei B, Gu J, Zhao Q, Ji G, Jin S, Chen H. “Internal Bisphenol Analogue Exposure in an Elderly Chinese Population: Knowledge from Dietary Exposure.” Toxics. 2025; 13(4):259. (Impact Factor: 3.9)

Duan X, Wang J, Wang Z, Chen H. “Research Progress on the Relationship Between Endocrine Disruptors and Thyroid Disease.” Journal of Nanjing Medical University (Natural Science Edition). 2023; 43(03):427-431.

Wu L, Gu J, Duan X, Ge F, Ye H, Kong L, Liu W, Gao R, Jiao J, Chen H, Ji G. “Insight into the Mechanisms of Neuroendocrine Toxicity Induced by 6:2FTCA via Thyroid Hormone Disruption.” Chemosphere. 2023 Nov; 341:140031. DOI: 10.1016/j.chemosphere.2023.140031 (Impact Factor: 8.2).

These publications have garnered attention in the field, with several being cited extensively, reflecting the significance of Duan’s research contributions.

Conclusion

In conclusion, Xinjie Duan is a dedicated and accomplished individual whose academic and research pursuits are shaping the future of Internal Medicine. Their robust educational background, coupled with their research experience and scholarly publications, positions them as a rising star in the field. With a clear focus on addressing critical health issues related to environmental exposures, Duan’s work promises to contribute significantly to both scientific knowledge and clinical practice.

LIN LIU | Sustainable Development | Women Researcher Award

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Dr. LIN LIU | Sustainable Development | Women Researcher Award

Research Assistant at University of Technology Sydney, Australia

Lin Liu is a dedicated researcher and educator specializing in electrical engineering, particularly in the design optimization of electrical machines and drive systems. Currently, she serves as a Research Assistant at the University of Technology Sydney (UTS), where she collaborates with esteemed faculty members on cutting-edge projects in her field. With a robust educational background and extensive research experience, Liu has established herself as a key contributor to advancements in electromagnetic device design and efficiency.

Profile

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Education

Liu’s academic journey began with a Bachelor of Engineering in Control and Computer Engineering at North China Electric Power University (NCEPU), followed by a Master of Engineering, where she also earned honors at South Ural State University (SUSU) in Russia. She pursued her Doctoral degree at UTS, under the supervision of leading researchers, focusing on innovative solutions in electrical engineering. Liu is currently a Research Assistant at UTS, where her work is characterized by a commitment to academic excellence and the application of advanced technologies in engineering.

Experience

Liu’s professional experience encompasses a range of research projects and teaching roles. She has been involved in significant research initiatives, including the characterization of amorphous metal materials as part of an Australian Research Council project, and has contributed to wind power forecasting and predictive maintenance algorithms. In addition to her research endeavors, she has served as a Casual Academic Assistant at UTS, where she facilitated lab sessions and tutorials, receiving commendations for her teaching effectiveness and student engagement.

Research Interests

Liu’s research interests are centered around the optimization of electrical machines and drive systems, the modeling of magnetic materials, and the application of artificial intelligence algorithms in engineering. Her innovative approach combines theoretical modeling with experimental validation, leading to significant advancements in energy efficiency and performance in electrical devices.

Awards

Throughout her academic career, Liu has received numerous accolades, reflecting her commitment to excellence. Notable achievements include the SEDE Outstanding Casual Academic Award from UTS, recognition as an Outstanding Reviewer for IEEE Transactions on Industrial Electronics, and several scholarships for academic excellence at NCEPU. These awards underscore her exceptional contributions to both research and education.

Publications

Liu has made substantial contributions to scholarly literature, with several publications in reputable journals. Her key works include:

Liu, L., Ba, X., Guo, Y., Lei, G., Sun, X., & Zhu, J. (2022). “Improved iron loss prediction models for interior PMSMs considering coupling effects of multiphysics factors.” IEEE Transactions on Transportation Electrification, DOI: 10.1109/TTE.2022.3189504. (Cited by 25)

Liu, L., Guo, Y., Yin, W., Lei, G., Sun, X., & Zhu, J. (2024). “Efficient design optimization of PMSM drive systems using improved equivalent-circuit-based loss minimization control.” IEEE Transactions on Industrial Electronics. (Accepted)

Liu, L., Guo, Y., Lei, G., & Zhu, J. (2023). “Designing High-Power-Density Electric Motors for Electric Vehicles with Advanced Magnetic Materials.” World Electric Vehicle Journal, 14(4), article 114. (Cited by 15)

Liu, L., Guo, Y., & Zhu, J. (2021). “Iron loss calculation for high-speed permanent magnet machines considering rotating magnetic field and thermal effects.” IEEE Transactions on Applied Superconductivity, 31(8), 1-5. (Cited by 10)

Conclusion

Lin Liu stands out as a promising researcher in the field of electrical engineering, driven by a passion for innovation and a commitment to advancing technology. Her academic accomplishments, coupled with her practical experience and leadership in student organizations, position her as a key figure in shaping the future of electromagnetic device design and optimization. Liu’s dedication to her research and her ability to mentor and inspire students reflect her potential for significant contributions to the field in the years to come.

Gaurav Priyadarshi | Environmental Engineering | Best Researcher Award

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Mr Gaurav Priyadarshi | Environmental Engineering | Best Researcher Award

Research Scholar, NIT ROURKELA, India

Gaurav Priyadarshi is a dedicated researcher and Ph.D. scholar in Mechanical Engineering at the National Institute of Technology (NIT) Rourkela, specializing in Fluid & Thermal Engineering. With a strong academic foundation, including an M.E. from BIT Mesra and a B.E. from Dayananda Sagar College of Engineering, he has consistently excelled in his field. His doctoral research focuses on the design and development of a novel desiccant-coated fin tube heat exchanger for air conditioning applications. Gaurav has a profound interest in AI/ML applications, thermal energy storage, and renewable energy systems. He has contributed significantly to the field with multiple high-impact publications, patents, and conference presentations. Recognized for his innovative research, he has received accolades such as the Best Paper Award at CIME 2022. Gaurav is also an active member of ISHRAE and has participated in international collaborations, including a visiting researcher role at Université Paris-Saclay.

Professional Profile

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Orcid

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Education 🎓

  • Ph.D. in Mechanical Engineering (2024, NIT Rourkela): Specialization in Fluid & Thermal Engineering, focusing on desiccant-coated heat exchangers for air conditioning. CGPA: 9.17.
  • M.E. in Mechanical Engineering (2018, BIT Mesra): Specialization in Fluid & Thermal Engineering. Percentage: 81.9%.
  • B.E. in Mechanical Engineering (2015, Dayananda Sagar College of Engineering): Percentage: 66.2%.
  • XII (HSC) (2011, Surendranath Centenary School): Subjects: Physics, Chemistry, Mathematics. Percentage: 71.2%.
  • X (SSC) (2009, DAV Public School): Major Subjects: Mathematics, Science, Social Studies. Percentage: 84.6%.
    Gaurav’s academic journey reflects a strong foundation in engineering, with a focus on thermal systems, AI/ML, and renewable energy technologies.

Experience 💼

  • R&D Engineer and Project In-charge (Oct 2024 – Present): New Leaf Dynamic Technologies, Greater Noida, India. Leading innovative projects in thermal energy systems.
  • Visiting Doctoral Researcher (Jan-Feb 2024): Université Paris-Saclay, France. Worked on AI/ML models for refrigeration systems.
  • Teaching Assistant (2016-2018): Conducted labs for I.C. Engines, Strength of Materials, Heat Transfer, and Fluid Mechanics during M.E. and Ph.D.
  • Research Assistant (2019-2024): MHRD-funded research at NIT Rourkela, focusing on desiccant-coated heat exchangers and AI/ML applications.
    Gaurav’s professional experience spans research, teaching, and industry, with a strong emphasis on thermal systems, AI/ML, and sustainable energy solutions.

Awards and Honors 🏆

  • Best Paper Award at CIME 2022 for research on desiccant-coated heat exchangers.
  • Visiting Researcher at Université Paris-Saclay, France (2024).
  • GATE Qualified (2016): 94.51 percentile with a score of 513.
  • Research Assistantship from MHRD, Govt. of India (2019-2024).
  • Teaching Assistantship from MHRD, Govt. of India (2016-2018).
  • K-12 Student Activity Chair at ISHRAE Bhubaneswar (2022-2023).
    Gaurav’s achievements highlight his excellence in research, innovation, and leadership in the field of thermal engineering and AI/ML applications.

Research Focus 🔍

Gaurav’s research focuses on AI/ML applications in thermal systemssolid desiccant dehumidificationrenewable energy integration, and heat exchanger optimization. His work includes:

  • Designing novel desiccant-coated fin tube heat exchangers for air conditioning.
  • Thermal energy storage using phase change materials (PCMs).
  • AI/ML-driven performance prediction and optimization of thermal systems.
  • Solar-driven thermal systems and indoor air quality enhancement.
  • Carbon capture and heat pump technologies.
    His interdisciplinary approach combines experimental, numerical, and AI/ML techniques to advance sustainable energy solutions.

Publication Top Notes 📚

  1. Experimental Study of Novel Desiccant Coated Energy Exchanger Employing PCM – Silica Gel Working Pair for Air Conditioning and Thermal Energy Storage Application.
  2. Experimental and Numerical Studies on Moisture Adsorption/Desorption Characteristics Across the Circular Fin Tube Desiccant Coated Heat Exchanger.
  3. Parametric Investigation and Optimization of Phase Change Material-Based Thermal Energy Storage Integrated Desiccant Coated Energy Exchanger Through Physics Informed Neural Networks.
  4. Desiccant Coated Fin Tube Energy Exchanger Design Optimization Implementing KNN-ML Tool and Adsorption/Desorption Kinetics Analysis Using Finite Difference Based Transient Model.
  5. Performance Potentiality Analysis of Desiccant Coated Energy Exchanger for M− Cooler Based Air Conditioning and Solar Driven Drying Systems.
  6. Design and Performance Prediction of Desiccant Coated Heat Exchanger Using ANFIS–AI Tool and Dynamic Model.
  7. Implementation of Adaptive Neuro-Fuzzy Inference System in Design and Process Optimization of Latent Heat Storage System.
  8. Performance Characteristics Assessment of Hollow Fiber Membrane-Based Liquid Desiccant Dehumidifier for Drying Application.
  9. A Novel Similarity Solution Approach Based Thermal Performance Prediction and Environmental Analysis of Evacuated U-Tube Solar Collector Employing Different Mono/Hybrid Nanofluids.
  10. Evaluation of Thermal Kinetics of Microencapsulated PCM for Low-Temperature Thermal Energy Storage Application.
  11. Application of Artificial Intelligence Models for Assessing the Performance of Closed Vertical Refrigerated Display Cabinet.
  12. Heat Exchanger Design (Indian Patent).

Conclusion 🌟

Gaurav Priyadarshi is a highly accomplished researcher with expertise in thermal systems, AI/ML, and renewable energy. His innovative contributions, including patents, high-impact publications, and international collaborations, demonstrate his commitment to advancing sustainable energy solutions. With a strong academic background, professional experience, and numerous accolades, Gaurav is poised to make significant contributions to the field of mechanical engineering and beyond.

Zhang Xihua | Environmental Engineering | Best Researcher Award

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Assoc. Prof. Dr Zhang Xihua | Environmental Engineering | Best Researcher Award

Associate Professor at Shanghai Polytechnic University, china

Dr. Xihua Zhang is a distinguished researcher affiliated with Shanghai Polytechnic University. With an extensive background in materials science and environmental engineering, Dr. Zhang has significantly contributed to the field of lithium-ion battery recycling and sustainable resource management. His research has been instrumental in advancing mechanochemical methods for metal recovery, selective lithium extraction, and sustainable recycling practices. Over the years, he has published numerous high-impact journal articles, demonstrating his expertise and commitment to addressing critical challenges in resource sustainability.

profile

ORCID

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Education

Dr. Zhang has a strong academic foundation in materials science and environmental technology. His educational background has equipped him with advanced knowledge in chemical engineering, sustainable material processing, and waste management, which have been pivotal in shaping his research career. Throughout his academic journey, he has developed expertise in mechanochemical and hydrometallurgical processes, focusing on enhancing the efficiency of metal extraction from spent lithium-ion batteries.

Experience

With years of experience in academia and research, Dr. Zhang has collaborated with several leading institutions and experts in the field. His work spans interdisciplinary domains, including energy storage materials, circular economy practices, and green chemistry. He has served as a reviewer for multiple high-impact journals and has contributed to the development of innovative recycling technologies. His research findings have been widely cited, reflecting his influence in advancing environmentally friendly metal recovery processes.

Research Interests

Dr. Zhang’s research interests primarily focus on sustainable materials processing and recycling technologies. His work includes mechanochemical methods for extracting valuable metals from spent lithium-ion batteries, selective recovery of lithium, and environmentally friendly leaching processes. He is also interested in exploring the role of nickel recycling in new energy vehicle industries and the optimization of closed-loop battery recycling methods. His contributions aim to enhance the efficiency and sustainability of battery recycling to support the growing demand for energy storage materials.

Awards

Dr. Zhang has been recognized for his contributions to battery recycling and sustainable resource management. His research has received accolades from academic and industrial communities, reflecting the significance of his work in advancing environmental sustainability. His awards and honors highlight his dedication to pioneering innovative and efficient recycling techniques that align with global efforts to minimize electronic waste and promote a circular economy.

Publication Top Notes

“Mechanism and technological method of leaching metals from waste lithium-ion batteries by synergistic action of natural organic reductants and mechanochemical method” – Published in Separation and Purification Technology, Jan 2025. (Cited: 1)

“Material flow analysis on the critical resources from spent power lithium-ion batteries under the framework of China’s recycling policies” – Published in Waste Management, Nov 2023. (Cited: 6)

“A mechanochemical method for one-step leaching of metals from spent LIBs” – Published in Waste Management, Apr 2023. (Cited: 12)

“Recovery of Li and Co from Spent Li-Ion Batteries by Mechanochemical Integration with NH4Cl” – Published in ACS Sustainable Chemistry & Engineering, May 2022. (Cited: 11)

“Selective Recovery of Lithium from Spent Lithium-ion Batteries Synergized by Carbon and Sulfur Elements” – Published in Acta Chimica Sinica, Aug 2021. (Cited: 5)

“The role of nickel recycling from nickel-bearing batteries on alleviating demand-supply gap in China’s industry of new energy vehicles” – Published in Resources, Conservation and Recycling, Jul 2021. (Cited: 36)

“Recycling of LiNi1/3Co1/3Mn1/3O2 cathode materials from spent lithium-ion batteries using mechanochemical activation and solid-state sintering” – Published in Waste Management, Feb 2019. (Cited: 144)

Conclusion

With a strong publication record, high citation impact, and groundbreaking research in sustainable battery recycling, Dr. Xihua Zhang is a highly deserving candidate for the Best Researcher Award. His work not only advances scientific knowledge but also plays a pivotal role in promoting sustainable and environmentally responsible practices in energy storage and recycling industries

Huma Iftikhar | Environmental Management | Best Researcher Award Huazhong

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Ms Huma Iftikhar | Environmental Management | Best Researcher Award

Postdoc Researcher, University of Science and Technology, Wuhan, China

Huma Iftikhar is an academic and researcher specializing in business administration, financial technology, and sustainable development. She completed her PhD in Business Administration at Huazhong University of Science and Technology, China, where her research focused on the impact of financial technology and business-centric tourism on inclusive green growth. Previously, she earned an MS in Enterprise Management from the same institution and a BS in Electronic Engineering from the International Islamic University, Islamabad. With a professional background in IT operations at Telenor Pakistan, she has gained industry experience in enterprise technical support. Currently, she serves as an Assistant Professor (Postdoctoral Researcher Track) at Huazhong University of Science and Technology. Her research contributions are published in high-impact journals, exploring themes of sustainable development, regional integration, and green growth.

PROFESSIONAL PROFILE

Orcid

Scopus

EDUCATION 🎓

Huma Iftikhar obtained her PhD in Business Administration from Huazhong University of Science and Technology, China (2020-2024), with a dissertation on the role of financial technology and business-centric tourism in inclusive green growth. She also completed an MS in Enterprise Management (2018-2020) from the same university, focusing on corporate diversification’s impact on environmental performance. Her bachelor’s degree in Electronic Engineering (2008-2012) from the International Islamic University, Islamabad, included a final year project on interactive smart room technology for individuals with disabilities. Her academic journey demonstrates a multidisciplinary approach, blending business, finance, sustainability, and engineering principles.

EXPERIENCE 💼

Currently, Huma Iftikhar is an Assistant Professor (Postdoctoral Researcher Track) at Huazhong University of Science and Technology, where she focuses on sustainable business practices and financial technology. Previously, she worked at Telenor Pakistan (2013-2017) as an Enterprise IT Technical Support Operations Officer, managing IT services and collaborating with senior management. Her tenure at Telenor provided her with expertise in IT support, system maintenance, and enterprise-level technical operations. This blend of academic and industry experience positions her as a dynamic researcher in financial technology and business sustainability.

AWARDS AND HONORS 🏆

Huma Iftikhar has received recognition for her academic excellence and research contributions. She secured a prestigious doctoral fellowship at Huazhong University of Science and Technology. Her scholarly work on sustainable development and fintech has been published in high-impact journals, earning her recognition within the academic community. She has actively participated in international conferences, presenting her research on business sustainability and the Belt and Road Initiative’s economic impacts.

RESEARCH FOCUS 🔬

Her research revolves around financial technology, business-centric tourism, and sustainable development. She examines the intersection of fintech and regional economic integration, particularly in the context of the Belt and Road Initiative. Additionally, she explores the role of corporate governance, institutional quality, and environmental regulations in achieving green growth. Her work provides valuable insights into how digital finance and tourism policies can contribute to sustainable economic progress.

PUBLICATION TOP NOTES 📚

📌 Paving towards the sustainable development goals: Analyzing the nexus of financial technology, business-centric-tourism, and green growth – Journal of Environmental Management (Dec 2024)
📌 Renewable energy transition and regional integration: Energizing the pathway to sustainable development – Energy Policy (Oct 2024)
📌 From regional integrated development toward a sustainable future: Evaluating the Belt and Road Initiative’s spillover impact between tourism, fintech, and inclusive green growth – Clean Technologies and Environmental Policy (June 2024)
📌 Impact of tourism on sustainable development in BRI countries: The moderating role of institutional quality – PLOS ONE (April 2022)

CONCLUSION 🌟

Huma Iftikhar is an accomplished researcher whose work bridges financial technology, business sustainability, and green growth. Her contributions to academia and industry highlight her expertise in fintech, tourism, and sustainable development. As an Assistant Professor, she continues to shape the future of business research with her innovative insights. 🚀

Eliseu Monteiro | Energy | Best Researcher Award

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Assist. Prof. Dr Eliseu Monteiro | Energy | Best Researcher Award

Asssitant Professor, University of Porto, Portugal

Eliseu Leandro Magalhães Monteiro is a distinguished academic and researcher in the field of mechanical engineering and energy systems. With a strong background in combustion, gasification, and renewable energy technologies, he has made significant contributions to the field of sustainable energy solutions. Currently serving as an Assistant Professor at the Universidade do Porto Faculdade de Engenharia, Portugal, Eliseu has a rich history of teaching and research across various prestigious institutions in Portugal. His work focuses on the development of innovative energy recovery systems, particularly through gasification processes, aiming to address global energy challenges and promote environmental sustainability.

Professional Profile

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Scopus

Education 🎓

Eliseu Monteiro holds a Ph.D. in Engineering Sciences from the Universidade de Trás-os-Montes e Alto Douro, Portugal, where he conducted groundbreaking research on the combustion of mixtures resulting from the gasification of forest biomass. He also earned a Master’s degree in Engineering Technologies, specializing in numerical modeling of solidification in casting, and a Bachelor’s degree in Mechanical Engineering from the same university. His academic journey is marked by a commitment to excellence, earning distinctions and accolades for his research and academic performance.

Experience 💼

Eliseu Monteiro has a wealth of experience in both academia and research. He has held various teaching positions, including Assistant Professor roles at the Universidade do Porto and Universidade de Coimbra. Additionally, he has served as an Adjunct Teacher at the Instituto Politécnico de Portalegre. His research career includes significant contributions to projects funded by the Fundação para a Ciência e a Tecnologia, focusing on gasification processes and renewable energy systems. His work has been instrumental in advancing the understanding and application of gasification technologies for sustainable energy production.

Awards and Honors 🏆

Eliseu Monteiro has received numerous awards and honors throughout his career, recognizing his contributions to the field of engineering and renewable energy. His Ph.D. thesis was awarded with distinction and praise, highlighting the innovative nature of his research. He has also been recognized for his teaching excellence and his role in advancing sustainable energy technologies through various research grants and projects. His work has been published in high-impact journals, further cementing his reputation as a leading figure in his field.

Research Focus 🔬

Eliseu Monteiro’s research focuses on the development and optimization of gasification processes for sustainable energy production. His work encompasses the study of biomass gasification, plasma gasification, and the co-gasification of various waste materials. He is particularly interested in the production of hydrogen-rich syngas and the application of computational modeling to optimize these processes. His research aims to provide innovative solutions for energy recovery from waste materials, contributing to the global transition towards renewable energy sources.

Publication Top Notes 📚

  1. “Energy recovery from infectious hospital waste and its safe neutralization”
  2. “Hydrogen-Rich Syngas Production Based on a Co-Gasification Process Coupled to a Water–Gas Shift Reactor Without Steam Injection”
  3. “Fundamental designs of gasification plants for combined heat and power”
  4. “Hydrogen-Rich Syngas Production from Gasification of Sewage Sludge: Catalonia Case”
  5. “Analysis of Forest Residues pretreatment using solar photovoltaic”
  6. “Air-Blown Biomass Gasification Process Intensification for Green Hydrogen Production: Modeling and Simulation in Aspen Plus”
  7. “Hydrogen supply chain: Current status and prospects”
  8. “Numerical analysis of plasma gasification of hazardous waste using Aspen Plus”
  9. “Some Perspectives for the Gasification Process in the Energy Transition World Scenario”
  10. “On the operating parameters for hydrogen-rich syngas production in a plasma co-gasification process of municipal solid wastes and polypropylene using a constrained model in Aspen plus”
  11. “On the green hydrogen production through gasification processes: A techno-economic approach”
  12. “Parametric studies over a plasma co-gasification process of biomass and coal through a restricted model in Aspen Plus”
  13. “Gasification of Solid Recovered Fuels with Variable Fractions of Polymeric Materials”
  14. “Plasma gasification process using computational fluid dynamics modeling”
  15. “Biomass pre-treatment techniques for the production of biofuels using thermal conversion methods: A review”
  16. “Optimizing the operating conditions for hydrogen-rich syngas production in a plasma co-gasification process of municipal solid waste and coal using Aspen Plus”
  17. “Performance assessment of the co-gasification for sustainable management of municipal solid waste: Moroccan Case”
  18. “A Review on Plasma Gasification of Solid Residues: Recent Advances and Developments”
  19. “Improvement of the Crude Glycerol Purification Process Derived from Biodiesel Production Waste Sources through Computational Modeling”
  20. “Modeling and simulation of a fixed bed gasification process for thermal treatment of municipal solid waste and agricultural residues”
  21. “Numerical modeling of plasma gasification process of polychlorinated biphenyl wastes”
  22. “Techno-economic study for a gasification plant processing residues of sewage sludge and solid recovered fuels”
  23. “Effects of dry and hydrothermal carbonisation on the properties of solid recovered fuels from construction and municipal solid wastes”
  24. “A Comprehensive Review on Biomass Gasification Modified Equilibrium Models”
  25. “Parametric studies in the gasification agent and fluidization velocity during oxygen-enriched gasification of biomass in a pilot-scale fluidized bed: Experimental and numerical assessment”
  26. “Numerical investigation of optimum operating conditions for syngas and hydrogen production from biomass gasification using Aspen Plus”
  27. “Characterization of Municipal, Construction and Demolition Wastes for Energy Production Through Gasification – A Case Study for a Portuguese Waste Management Company”
  28. “Co-Gasification of Sewage Sludge Mixed with Waste Wood in Different Proportions”
  29. “Plasma fixed bed gasification using an Eulerian model”
  30. “Experimental and Modeling Analysis of Brewers´ Spent Grains Gasification in a Downdraft Reactor”
  31. “An Eulerian model for forest residues gasification in a plasma gasifier”
  32. “Numerical approaches and comprehensive models for gasification process: A review”
  33. “Experimental Analysis of Brewers’ Spent Grains Steam Gasification in an Allothermal Batch Reactor”
  34. “A Holistic Review on Biomass Gasification Modified Equilibrium Models”
  35. “A review on occupational risk in gasification plants processing residues of sewage sludge and refuse-derived fuel”
  36. “Energetic valorisation of lignocellulosic and industrial wastes by thermal gasification”
  37. “Modelling higher heating value of different separated fractions from municipal and construction and demolition wastes”
  38. “Solidificação de Metais: Modelação e Simulação”
  39. “Environmental impact and occupational risk in gasification plants processing residues of sewage sludge and refuse-derived fuel: a review”
  40. “Assessment of Municipal Solid Wastes Gasification Through CFD Simulation”
  41. “Fluid dynamics model on fluidized bed gasifier using agro-industrial biomass as fuel”
  42. “Co-gasification and recent developments on waste-to-energy conversion: A review”
  43. “Experimental and modeling studies of Portuguese peach stone gasification on an autothermal bubbling fluidized bed pilot plant”
  44. “REMEDIATION OF A LANDFILL LEACHATE BY ADSORPTION USING ASHES AND BIOCHARS FROM DIFFERENT LIGNOCELLULOSIC RESIDUES WASTES: Solutions, Treatments and Opportunities”
  45. “Biomass resources in Portugal: Current status and prospects”
  46. “Remediation of a landfill leachate by adsorption using ashes and biochars from different lignocellulosic residues”
  47. “An experimental and numerical study on the Miscanthus gasification by using a pilot scale gasifier”
  48. “Assessment of the miscanthus gasification in a semi-industrial gasifier using a CFD model”
  49. “Pulsating Flow Effects on Hydrodynamics in a Desalination Membrane Filled with Spacers”
  50. “Hydrogen production using plasma gasification with steam injection”

Conclusion 🌍

Eliseu Leandro Magalhães Monteiro is a leading figure in the field of mechanical engineering and renewable energy, with a career marked by significant contributions to the development of sustainable energy technologies. His research on gasification processes and computational modeling has provided innovative solutions for energy recovery from waste materials, contributing to the global transition towards renewable energy sources. Through his teaching and research, Eliseu continues to inspire and educate the next generation of engineers, driving forward the field of sustainable energy and environmental conservation.