Kristina Radinović | Water Resources Engineering | Best Researcher Award

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Dr . Kristina Radinović | Water Resources Engineering | Best Researcher Award

Research Associate at Faculty of Physical Chemistry , Serbia

Kristina Radinović is an outstanding candidate for the Best Researcher Award, recognized for her exceptional scientific contributions, including receiving the Serbian Chamber of Commerce Award for one of the best doctoral dissertations in 2024. Her research, focused on electrochemical sensors, environmental monitoring, and energy materials, has been published in high-impact journals such as Talanta, Electrochimica Acta, and Fuel, demonstrating both academic excellence and real-world relevance. With numerous international collaborations and conference presentations, she has established a strong global presence in her field. Her work addresses critical issues like arsenic detection in water and sustainable energy, aligning with national and global priorities. While her collaborative achievements are impressive, further focus on independent research leadership, securing grants, and exploring interdisciplinary or applied research areas could enhance her profile. Overall, Radinović’s contributions to science and her impact on the national economy make her a highly deserving candidate for this prestigious award.

Professional Profile 

Education🎓

Kristina Radinović has an extensive and impressive educational background. She completed her Doctoral Studies in Chemistry at the University of Belgrade, where her dissertation focused on electrochemical sensors and their applications in environmental monitoring. Her work earned her the Serbian Chamber of Commerce Award for one of the best doctoral dissertations in 2024, highlighting both the scientific depth and national relevance of her research. Radinović’s academic journey is further complemented by numerous collaborations with esteemed researchers internationally, contributing to her broad understanding and expertise in fields like electrochemistry, nanomaterials, and environmental science. Throughout her education, she has consistently demonstrated a passion for research, reflected in her impressive publication record and her participation in prestigious conferences worldwide. This robust educational foundation has shaped her into a skilled and innovative scientist, committed to addressing pressing global challenges through her work.

Professional Experience📝

Kristina Radinović has gained significant professional experience through her work as a researcher in the fields of electrochemistry, environmental monitoring, and materials science. She is currently involved in high-level research at the University of Belgrade, where she conducts studies focused on the development of electrochemical sensors for detecting environmental contaminants like arsenic in water. Over the years, Radinović has co-authored numerous impactful publications in top-tier journals such as Talanta and Electrochimica Acta, establishing herself as a leading figure in her field. Additionally, her research has led to active collaborations with international researchers, showcasing her ability to engage in cross-border scientific endeavors. Radinović has also presented her findings at major global conferences, strengthening her professional network and further solidifying her reputation in the scientific community. Her expertise in developing nanomaterials for environmental applications and her ongoing contributions to the scientific community highlight her significant professional accomplishments.

Research Interest🔎

Kristina Radinović’s research interests primarily lie in the areas of electrochemistry, environmental sensing, and nanomaterials. She is particularly focused on developing advanced electrochemical sensors for the detection of harmful substances, such as arsenic in aqueous solutions, with an emphasis on improving sensitivity, stability, and accuracy. Her work explores the integration of reduced graphene oxide and metal nanocomposites to enhance sensor performance. Additionally, Radinović investigates energy materials, including the design of electrocatalysts for efficient oxygen reduction and evolution reactions, which have significant applications in fuel cells and metal-air batteries. Her research aims to address global environmental challenges by advancing technology for detecting toxic pollutants and improving energy storage systems. With an interdisciplinary approach, she also explores the development of sustainable materials for environmental protection and energy conversion, contributing to both scientific innovation and real-world applications. Her work holds great promise for environmental monitoring and clean energy solutions.

Award and Honor🏆

Kristina Radinović has received several prestigious awards and honors in recognition of her exceptional scientific contributions. Notably, she was awarded the Serbian Chamber of Commerce Award in 2024 for one of the best doctoral dissertations, acknowledging her significant scientific impact and the relevance of her work to the national economy. This prestigious honor highlights her innovative research in electrochemistry and environmental sensing. Additionally, Radinović has consistently been recognized for her contributions to the scientific community through numerous publications in high-impact journals such as Talanta, Electrochimica Acta, and Fuel, further solidifying her reputation in her field. Her work has also been acknowledged at various international conferences, where she has presented her findings on environmental monitoring and energy materials. These awards and honors demonstrate Radinović’s dedication to advancing scientific knowledge and her active role in addressing global challenges through her research.

Research Skill🔬

Kristina Radinović possesses a diverse set of advanced research skills that make her a highly capable scientist in the fields of electrochemistry, materials science, and environmental sensing. She is proficient in synthesizing nanomaterials such as reduced graphene oxide and metal nanocomposites, which are essential for creating high-performance electrochemical sensors. Radinović is highly skilled in electrochemical analysis techniques, including cyclic voltammetry, impedance spectroscopy, and chronoamperometry, which she uses to evaluate sensor performance and electrocatalytic behavior. Her expertise extends to the design and development of electrocatalysts for energy conversion applications like oxygen reduction and evolution reactions, critical for fuel cells and metal-air batteries. She is also adept at data analysis and statistical modeling, ensuring that her research is robust and reproducible. Furthermore, her ability to collaborate internationally and present findings at leading conferences demonstrates her strong communication skills and commitment to scientific dissemination.

Conclusion💡

In conclusion, Kristina Radinović is a highly accomplished and innovative researcher whose work has made a significant impact in the fields of electrochemistry, materials science, and environmental sensing. Her contributions, including the development of advanced electrochemical sensors and sustainable materials for energy conversion, have earned her numerous prestigious awards, including the Serbian Chamber of Commerce Award for her exceptional doctoral dissertation. With a strong publication record in high-impact journals and a demonstrated ability to collaborate internationally, Radinović has proven herself to be a leader in her field. Her research addresses pressing global challenges, such as environmental pollution and energy efficiency, with practical applications that hold great potential for societal advancement. As she continues to build on her research skills and expand her influence within the scientific community, Radinović is well-positioned to make even more groundbreaking contributions to both scientific knowledge and real-world solutions.

Publications Top Noted✍

Title: Facile synthesis of Co/rGO, Au/rGO, and CoAu/rGO nanocomposites for precise determination of Arsenic(III) in water systems

Authors: Kristina Radinović, Jadranka Milikić, Nemanja Gavrilov, Dalibor Stanković, Aleyna Basak, Önder Metin, Biljana Šljukić

Year: 2024

Citation: Electrochimica Acta 507 (2024) 145147

 

Koorosh Goudarzi | Water Resources Engineering | Best Researcher Award

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Assoc. Prof. Dr. Koorosh Goudarzi | Water Resources Engineering | Best Researcher Award

Mechanical Engineering at Yasouj University, Iran

Kourosh Goudarzi is currently serving as an Associate Professor in the Department of Mechanical Engineering at Yasouj University. He has cultivated a distinguished academic and research career focused on mechanical engineering, particularly in the areas of energy conversion and heat transfer systems. His teaching and research efforts have significantly contributed to advancements in thermal energy utilization and computational fluid dynamics. Through his numerous publications and active involvement in educational development, he has established himself as a respected figure in Iran’s engineering academia.

Profile

Scopus

EDUCATION:

Dr. Goudarzi holds a Bachelor’s degree in Mechanical Engineering with a focus on Heat and Fluids from Persian Gulf University, awarded in 2001. His undergraduate project explored the aerodynamics of vehicles and their effect on fuel consumption. He earned his Master’s degree in 2003 in Mechanical Engineering with a specialization in Energy Conversion from Iran University of Science and Technology, where he worked on numerical simulations of flow in spark-ignition internal combustion engines. In 2008, he completed his Ph.D. in Mechanical Engineering at the same university, with a dissertation centered on experimental and analytical studies of contact heat transfer in internal combustion engines.

EXPERIENCE:

Dr. Goudarzi has extensive teaching experience across various institutions, including Iran University of Science and Technology, Arak University of Technology, and Yasouj University. He has taught a wide range of undergraduate and graduate courses such as Applied Thermodynamics, Heat Transfer, Internal Combustion Engines, Turbo-machinery, Thermal Systems, and Computational Fluid Dynamics. Beyond classroom teaching, he has actively supervised over 120 undergraduate projects, more than 35 master’s theses, and has contributed as an advisor and co-advisor on doctoral dissertations. He has also conducted numerous workshops on software tools and energy management for academic and industrial audiences.

RESEARCH INTERESTS:

Dr. Goudarzi’s research is rooted in thermal sciences, with primary interests in thermal energy systems, heat transfer (including thermal radiation), and energy efficiency in industrial systems. He has a strong focus on the recovery of waste heat and optimization of energy consumption, reflecting both theoretical and applied approaches. His recent work also delves into computational fluid dynamics (CFD) and its application to energy systems and internal combustion engine performance. Additionally, he has contributed to solar thermal energy research, especially in enhancing the efficiency of heat transfer in evacuated tube collectors using magnetic nanofluids.

AWARDS:

Dr. Goudarzi’s achievements have garnered institutional recognition, particularly for his role in supervising award-winning theses and advancing energy-related research projects. He was nominated for institutional honors at Yasouj University for excellence in research and mentoring, as well as for his contributions to the field of thermal energy systems. His academic service and impactful scientific work have placed him in nomination for the Award Nomination Application Form under the category of “Best Researcher in Mechanical Engineering.”

PUBLICATIONS:

Dr. Goudarzi has authored and co-authored several peer-reviewed journal articles that reflect his expertise in energy and thermal sciences. Notable recent publications include:

  1. “Potential of condensate as a water source from air conditioning systems: A thermodynamic analysis,” published in the Journal of Applied Research in Water and Wastewater (JARWW), 2024 — cited by 5 articles.

  2. “Numerical investigation of the performance improvement of instantaneous gas water heater by introducing new geometries for the heat exchanger,” in the Journal of Building Engineering, Volume 89, 2024 — cited by 7 articles.

  3. “Experimental analysis of contact heat transfer in IC engines using different cylinder materials,” Journal of Mechanical Science and Technology, 2022 — cited by 11 articles.

  4. “CFD simulation of radiative heat transfer in solar thermal systems,” Applied Thermal Engineering, 2021 — cited by 14 articles.

  5. “Energy optimization of industrial systems through waste heat recovery,” Energy Reports, 2020 — cited by 10 articles.

  6. “Use of magnetic nanofluids in thermal collectors: a case study,” Renewable Energy, 2019 — cited by 9 articles.

  7. “Thermal radiation modeling in high-temperature gas heaters,” Heat and Mass Transfer, 2018 — cited by 13 articles.

CONCLUSION:

Dr. Kourosh Goudarzi embodies the ideal candidate for the Best Researcher Award, demonstrating a robust academic foundation, diverse teaching portfolio, extensive research contributions, and dedicated service to scientific advancement. His work in energy systems optimization and applied thermodynamics significantly contributes to both academic knowledge and practical industry solutions, validating his suitability for this prestigious recognition.

 

Lin Lang | Civil Engineering | Best Researcher Award

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Assoc. Prof. Dr Lin Lang | Civil Engineering | Best Researcher Award

Associate professor, Xihua University, China

Dr. Lin Lang is an Associate Professor in the School of Architecture and Civil Engineering at Xihua University in Chengdu, China, with a strong focus on rock mechanics, fracture mechanics, and dynamic material behavior. He has a deep interest in the study of crack propagation, fatigue, and dynamic fracture processes in brittle materials. Dr. Lang is well-known for his research on environmental rock mechanics and the application of fracture mechanics principles to solve real-world engineering problems, particularly under dynamic loading conditions. He has authored several highly regarded publications in prominent scientific journals and has contributed to the advancement of understanding the crack arrest mechanisms and dynamic behavior of materials under impact loading. Dr. Lang’s work is integral to improving the safety and reliability of structures subjected to extreme conditions, such as earthquakes, explosions, and other dynamic impacts.

Profile

Orcid

Strengths for the Award

Dr. Lin Lang is a highly qualified and experienced researcher in the field of fracture mechanics, rock mechanics, and environmental rock mechanics. His work on crack propagation, dynamic fracture behavior, and crack arrest mechanisms has made significant contributions to advancing understanding in these critical areas of material science and civil engineering. His research on the dynamic behavior of materials under impact loading, particularly his studies on concrete and brittle materials, is vital for improving structural resilience against extreme events such as earthquakes or explosions. His publications in top-tier journals, including Fatigue & Fracture of Engineering Materials & Structures, Engineering Fracture Mechanics, and Construction and Building Materials, underscore his ability to lead cutting-edge research. Additionally, Dr. Lang’s role as an Associate Professor at Xihua University and his involvement in multidisciplinary projects further highlight his leadership in the academic community.

Areas for Improvement

While Dr. Lang’s research has made a significant impact, one area for improvement could be the expansion of his research into more interdisciplinary collaborations. While his work is robust in the field of fracture mechanics, exploring new areas of applied material science or integrating his research with emerging fields such as smart materials or renewable energy infrastructure could provide valuable new insights and broaden the scope of his impact. Furthermore, while his publication record is strong, increasing the number of citations and enhancing visibility in global research networks could further strengthen his profile as a leading researcher.

Additionally, Dr. Lang may benefit from a more pronounced focus on developing practical engineering solutions that translate his research into real-world applications. Further outreach and engagement with industry could help ensure that his findings are implemented in infrastructure projects worldwide, enhancing both their scientific and practical value.

Education 

Dr. Lin Lang completed his academic education in China, earning his degrees in Civil Engineering with a specialization in Rock Mechanics and Structural Engineering. He obtained his undergraduate and postgraduate education at Sichuan University, where he developed a keen interest in the study of dynamic fracture and crack propagation in brittle materials. During his doctoral studies, he conducted research on dynamic fracture mechanics and crack arrest mechanisms, focusing on the behavior of concrete and other brittle materials under impact loading. His deep theoretical understanding of material behavior, combined with extensive laboratory research, laid the foundation for his career as a researcher and educator. As an academic, Dr. Lang continues to expand his knowledge and expertise in environmental rock mechanics, using his education to tackle modern engineering challenges in civil and environmental engineering.

Experience 

Dr. Lin Lang has extensive experience in both academia and research, currently serving as an Associate Professor at Xihua University in Chengdu, China. Prior to this, he was a faculty member at Sichuan University, where he contributed to the research and development of dynamic fracture mechanics. His academic experience includes teaching undergraduate and graduate courses in structural mechanics, material science, and rock mechanics. Dr. Lang has worked on numerous research projects focusing on crack propagation, fracture toughness, and dynamic fracture behaviors in materials, particularly under impact and fatigue loading conditions. His work has significant implications in the fields of civil engineering and materials science, helping to improve the understanding of how materials behave under extreme loading conditions. Dr. Lang is also an active member of several international research collaborations and has contributed to many well-regarded publications in leading engineering journals.

Awards and Honors 

Dr. Lin Lang has earned recognition for his pioneering research in rock mechanics and fracture mechanics, particularly in the study of crack propagation and dynamic fracture behaviors. His research has been widely cited in top-tier journals, demonstrating the impact of his work on the field of engineering mechanics. While Dr. Lang has not yet received a specific individual “Best Researcher Award,” his accomplishments are recognized through his growing reputation as a leading researcher in dynamic fracture mechanics and his contributions to engineering safety and sustainability. His work on dynamic crack arrest and material behavior under impact loading is considered groundbreaking in the field of structural engineering, and it has garnered attention in both academic and industry circles. Dr. Lang’s ongoing research and commitment to advancing engineering knowledge continue to pave the way for future recognition in the form of awards and honors in the coming years.

Research Focus 

Dr. Lin Lang’s research focuses primarily on the study of dynamic fracture mechanics, crack propagation, and crack arrest techniques in brittle materials, particularly under impact loading conditions. His work addresses fundamental aspects of material behavior under dynamic stresses, such as those encountered during earthquakes, explosions, or high-velocity impacts. Dr. Lang is particularly interested in understanding the mechanisms that control crack propagation speed, fracture toughness, and energy release rates in concrete and other brittle materials. In addition to his research on crack propagation, Dr. Lang explores the development of innovative techniques for crack arrest, aimed at improving the safety and durability of civil infrastructure. His studies are integral to advancing environmental rock mechanics, with applications in improving the resilience of structures such as dams, tunnels, and bridges. Dr. Lang’s interdisciplinary approach combines theoretical modeling with experimental methods to provide comprehensive solutions for engineering challenges.

Publication Top Notes

  • Study of Crack Arrest Mechanism and Dynamic Behaviour Using Arc-Bottom Specimen Under Impacts
    Lin Lang, Zheming Zhu, Shuai Deng, Caoyuan Niu, Duanying Wan, Fatigue & Fracture of Engineering Materials & Structures, 2020-09 💥🔬
  • Effect of Loading Rates on Crack Propagating Speed, Fracture Toughness and Energy Release Rate Using Single-Cleavage Trapezoidal Open Specimen Under Impact Loads
    Lin Lang, Journal of Central South University, 2020-08 ⚡🪶
  • Study on the Arresting Mechanism of Two Arrest-Holes on Moving Crack in Brittle Material Under Impacts
    Lin Lang, Engineering Fracture Mechanics, 2020-04 💔⚒️
  • Investigation of Crack Dynamic Parameters and Crack Arresting Technique in Concrete Under Impacts
    Lin Lang, Construction and Building Materials, 2019-02 🏗️💥

Conclusion

Dr. Lin Lang is a promising and highly skilled researcher whose work on fracture mechanics and crack arrest techniques is critical to the field of structural engineering and materials science. His research contributes significantly to understanding the dynamic behavior of materials under impact, which has practical implications for enhancing the safety and durability of structures exposed to extreme loading conditions. Given his solid academic background, impactful research, and leadership at Xihua University, Dr. Lang is certainly a strong contender for the Best Researcher Award. As he continues to build on his strengths and explore new interdisciplinary opportunities, his potential for further academic and industry recognition remains high. By expanding his research scope and fostering more direct applications, Dr. Lang could significantly enhance his contribution to global engineering challenges, making him an even more influential figure in the field.

Sijung Choi | Water Resources Planning and Assessment | Best Researcher Award

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Dr Sijung Choi | Water Resources Planning and Assessment | Best Researcher Award

Researcher, Korea Institute of Civil Engineering and Building Technology, South Korea

Dr. Sijung Choi is a prominent researcher at the Korea Institute of Civil Engineering and Building Technology (KICT) in Goyang, South Korea. With a focus on hydrology and water resource management, he has made significant contributions to understanding and addressing water-related challenges in urban and agricultural contexts. His work is characterized by a multidisciplinary approach that integrates engineering, environmental science, and data analysis. Dr. Choi’s innovative methodologies and collaborative projects have garnered recognition in both academic and practical domains, establishing him as a key figure in civil engineering and water management research.

Profile

SCOPUS

Strengths for the Award

Dr. Sijung Choi demonstrates exceptional expertise in hydrology and water resource management, evidenced by his impactful publications and a robust citation count of 95 across 14 documents. His interdisciplinary approach, incorporating AI and remote sensing techniques, showcases innovation in tackling contemporary water challenges. Notably, his work on drought risk assessment and water supply reliability is critical in addressing climate change impacts. His collaboration with various institutions enhances the relevance of his research, making significant contributions to sustainable water management practices.

Areas for Improvement

While Dr. Choi’s research is commendable, expanding his outreach through public engagement and community-based projects could further amplify the impact of his work. Additionally, exploring collaborative opportunities with international researchers could enhance the diversity of perspectives in his studies, potentially leading to more comprehensive solutions in water resource management.

Education

Dr. Choi earned his Ph.D. in Civil Engineering from a prestigious university, specializing in hydrology and water resources. He completed his Master’s degree in Environmental Engineering, focusing on sustainable water management practices. Throughout his academic journey, he engaged in various research projects and internships, allowing him to develop a strong foundation in both theoretical and applied aspects of civil engineering. His educational background has equipped him with the skills necessary to tackle complex water management issues, paving the way for his influential career.

Experience

With over a decade of experience in the field, Dr. Choi has worked on numerous projects related to water resource assessment, drought risk analysis, and climate change impacts on hydrology. He has collaborated with governmental agencies, NGOs, and academic institutions, contributing to the development of policies and practices aimed at improving water management. His roles have ranged from project leader to research collaborator, demonstrating his versatility and leadership skills. Dr. Choi’s extensive experience ensures that his research is not only academically rigorous but also practically relevant to real-world challenges.

Awards and Honors

Dr. Choi has received several awards for his outstanding contributions to civil engineering and hydrology. He was honored with the Best Paper Award at an international conference on water resources and has been recognized by various organizations for his innovative research methodologies. His work has significantly impacted policy discussions and water management practices in South Korea, earning him respect and recognition in both academic and professional circles.

Research Focus

Dr. Choi’s research primarily focuses on hydrological modeling, water demand prediction, and drought risk assessment in changing climates. He employs advanced statistical techniques and artificial intelligence to analyze water systems and develop sustainable management practices. His interdisciplinary approach combines engineering principles with environmental considerations, addressing critical challenges in water resource management. By focusing on socio-economic factors and climate impacts, Dr. Choi aims to enhance the resilience of water systems against future uncertainties.

Publication Top Notes

  1. Hydrological Drought Evaluation in Upstream Inje Region 🌧️
  2. A Study on Developing an AI-Based Water Demand Prediction and Classification Model for Gurye Intake Station 🤖
  3. Estimation of Crop Water Productivity Using GIS and Remote Sensing Techniques 🌾
  4. Evaluation and Decomposition of Factors Responsible for Alteration in Streamflow in Lower Watersheds of the Han River Basin Using Different Budyko-Based Functions 📊
  5. Assessment of water supply reliability in the Geum River Basin using univariate climate response functions: a case study for changing instreamflow managements 💧
  6. Drought risk assessment considering regional socio-economic factors and water supply system 📉
  7. Projected drought risk assessment from water balance perspectives in a changing climate 🌍
  8. Drought risk assessment for future climate projections in the Nakdong River Basin, Korea ⛈️
  9. Development and application of hydro-economic optimal water allocation and management model 💼
  10. Incorporating the logistic regression into a decision-centric assessment of climate change impacts on a complex river system 🔍

Conclusion

Dr. Sijung Choi is a highly qualified candidate for the Research for Best Researcher Award. His commitment to advancing the field of hydrology, combined with his innovative methodologies and collaborative spirit, positions him as a leader in water resource management. Recognizing his contributions will not only honor his achievements but also inspire future researchers in the field.

Florindo Gaspar | Civil Engineering | Best Researcher Award

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Mr. Florindo Gaspar | Civil Engineering | Best Researcher Award

Professor, Polytechnic Institute of Leiria, Portugal

🌍 Florindo Gaspar is a Professor at the Civil Engineering Department, School of Technology and Management (Polytechnic Institute of Leiria – IPLeiria). With a strong academic and professional background, he is also a researcher at the Centre for Rapid and Sustainable Product Development (CDRsp). His work is dedicated to wood and masonry structures, as well as innovative building processes, making substantial contributions to the field of Civil Engineering.

Publication Profile

Strengths for the Award:

Florindo Gaspar is highly suitable for the Research for Best Researcher Award due to several key strengths:

  • Diverse Research Portfolio: His work spans various areas including sustainable construction materials, rehabilitation of wood and masonry structures, and 3D printing technologies. This demonstrates versatility and relevance to modern civil engineering challenges.
  • Extensive Publication Record: With over 122 works, including journal articles and patents, his research impact is broad, covering material science, sustainable construction, and additive manufacturing. Recent publications in prestigious journals like Construction and Building Materials and Sustainability reinforce his scientific authority.
  • Research Leadership: He has been involved in various large-scale, international projects, such as Forest for the Future and CircularSeas, showcasing his capability to lead and contribute to high-impact research initiatives.
  • Innovative Contributions: His research in developing sustainable materials (e.g., thermal insulation from natural fibers and geopolymer mortars) directly contributes to eco-friendly construction practices, which are critical in today’s environmental context.
  • Active Collaborations and Funding: He has secured significant research funding from national and international agencies, reflecting his ability to attract resources to advance his research.

Areas for Improvement:

  • International Visibility: Although he has been involved in notable European projects, further collaborations or leadership roles in international, cross-disciplinary consortia could enhance his global presence.
  • Outreach and Industry Applications: While his consultancy work and practical projects show applied research, increasing engagement in public dissemination (through workshops, conferences, or industry white papers) would further highlight the societal impact of his work.

 

Education

🎓 Florindo holds a Ph.D. in Civil Engineering (2010) and a MSc in Construction (2006) from the Instituto Superior Técnico at the University of Lisbon. He completed his Graduation in Civil Engineering in 2000 from the University of Coimbra, and earlier obtained a Bachelor’s degree from the Polytechnic Institute of Lisbon in 1996.

Experience

🏗️ Florindo has been a Professor at IPLeiria since 2001, teaching subjects related to wood and masonry structures, building materials, and construction processes. He has also held roles as a Technical Manager at Gasmenfil, Project Designer, and Construction Supervisor in various firms, accumulating a wealth of hands-on industry experience.

Research Focus

🔬 His research focuses on the monitoring, rehabilitation, and conservation of wood and masonry structures, with a keen interest in sustainability and innovative construction techniques. He has supervised multiple MSc projects in these areas, contributing to practical advancements in civil engineering.

Awards and Honours

🏆 Florindo has been involved in numerous research and consultancy projects, securing funding from prestigious organizations like the European Social Fund and Agência Nacional de Inovação SA. His commitment to advancing civil engineering is recognized in the various contracts and projects he’s participated in.

Publication Top Notes

Rheology Assessment of Mortar Materials for Additive Manufacturing – Published in Current Materials Science, 2024. DOI: 10.2174/2666145417666230801093723

Thermal Insulation Materials Based on Eucalyptus Bark Fibres – Published in Construction and Building Materials, 2024. DOI: 10.1016/j.conbuildmat.2024.138559

Optimization of Formulation Ratios of Geopolymer Mortar Based on Metakaolin and Biomass Fly Ash – Published in Construction and Building Materials, 2024. DOI: 10.1016/j.conbuildmat.2023.134846

Recycling Ophthalmic Lens Wastewater in a Circular Economy Context: A Case Study with Microalgae Integration – Published in Materials, 2023. DOI: 10.3390/ma17010075

Comprehensive Design Methodology for 3D Printing Mortars – Published in Construction and Building Materials, 2023. DOI: 10.1016/j.conbuildmat.2023.132804

Conclusion:

Florindo Gaspar’s robust academic and research profile, combined with his contributions to sustainable construction and innovation in civil engineering, makes him a strong contender for the Best Researcher Award. Expanding his global outreach and continuing his innovative work in sustainable materials will only enhance his standing in the research community.

Yi Yan – Environmental Engineering – Best Researcher Award

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Yi Yan - Environmental Engineering - Best Researcher Award

Shandongjianzhu University - China

AUTHOR PROFILE

SCOPUS

EDUCATION AND ACADEMIC ACHIEVEMENTS

Dr. Yi Yan, a distinguished scholar, is currently a teacher at Shandong Jianzhu University. He has played a pivotal role in advancing scientific knowledge by presiding over and participating in four projects funded by the National Natural Science Foundation of China (NSFC). His academic prowess is further evidenced by his contribution to more than ten SCI and EI papers in the past five years, alongside authorizing over ten national invention patents. Dr. Yan is highly regarded in the academic community, serving as an evaluation expert for the NSFC and as a reviewer for top international and domestic journals, including Applied Energy and Energy and Building.

RESEARCH AND DEVELOPMENT CONTRIBUTIONS

Dr. Yan's primary research focus is on the marketization of distributed integrated energy systems and operation optimization. His innovative work includes constructing a market participation method for multilayer community integrated energy systems. By addressing multiple types of energy subjects in an independent source-load-storage-station framework through a multilayer game model, Dr. Yan has broken the bottleneck of independent market participation for energy storage subjects. His research emphasizes fairness in market-based energy systems, paving the way for more equitable and effective energy system market participation.

INNOVATIVE APPROACHES

Dr. Yan's research has introduced groundbreaking methods to enhance the efficiency and fairness of energy systems. His work on multilayer game models and market participation methods stands out as a significant contribution to the field. These innovations not only optimize energy systems operations but also ensure a more balanced and fair market environment for all energy stakeholders.

IMPACTFUL PUBLICATIONS

Dr. Yan has a robust portfolio of impactful publications in top-tier journals. His research findings have been published in renowned journals such as Applied Energy and Energy, showcasing his commitment to advancing the field of energy systems. These publications highlight the practical implications of his research and its potential to transform energy markets.

EXTENSION ACTIVITIES AND COMMUNITY ENGAGEMENT

Beyond his research, Dr. Yan is actively involved in extension activities that bridge the gap between academia and industry. His engagement in State Grid's scientific and technological projects underscores his dedication to applying research findings to real-world challenges. Through these activities, Dr. Yan contributes to the development of practical solutions that enhance the performance and sustainability of energy systems.

TECHNICAL SKILLS AND EXPERTISE

Dr. Yan's expertise extends to various technical skills essential for energy systems research and development. His proficiency in modeling, simulation, and optimization techniques enables him to tackle complex problems and develop innovative solutions. These skills are crucial for advancing the efficiency and sustainability of integrated energy systems.

FUTURE DIRECTIONS AND GOALS

Looking ahead, Dr. Yan aims to continue his research on optimizing energy systems and enhancing market participation fairness. His future work will likely focus on developing new models and methods to further improve the performance and equity of energy markets. Dr. Yan's commitment to innovation and excellence ensures that his contributions will remain impactful and relevant in the evolving field of energy systems.

NOTABLE PUBLICATION

  • Multi-layer Game Theory Based Operation Optimisation of ICES Considering Improved Independent Market Participant Models and Dedicated Distributed Algorithms
    • Authors: Yan, Y., Liu, M., Tian, C., Li, J., Li, K.
    • Year: 2024
    • Article: 123691
  • Transfer Learning Based Hybrid Model for Power Demand Prediction of Large-scale Electric Vehicles
    • Authors: Tian, C., Liu, Y., Zhang, G., Yan, Y., Li, C.
    • Year: 2024
    • Article: 131461
  • Improved YOLOv8-GD Deep Learning Model for Defect Detection in Electroluminescence Images of Solar Photovoltaic Modules
    • Authors: Cao, Y., Pang, D., Zhao, Q., Wang, F., Li, J.
    • Year: 2024
    • Journal: Engineering Applications of Artificial Intelligence
    • Article: 107866
  • Joint Forecasting of Source-load-price for Integrated Energy System Based on Multi-task Learning and Hybrid Attention Mechanism
    • Authors: Li, K., Mu, Y., Yang, F., Yan, Y., Zhang, C.
    • Year: 2024
    • Journal: Applied Energy
    • Article: 122821
  • Distributed Low-carbon Operational Optimization Model of an Integrated Energy System Based on Ladder Carbon Trading and Integrated Demand Response
    • Authors: Yan, Y., Liu, M., Li, S., Li, K., Wang, X.
    • Year: 2024
    • Journal: International Journal of Green Energy
    • Pages: 1324-1344

Water Resources Engineering

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Water Resources Engineering

Introduction to Water Resources Engineering: Water resources engineering is a specialized field of civil engineering dedicated to the sustainable management, development, and conservation of water resources. It involves the planning, design, and implementation of infrastructure and strategies to address the challenges related to water supply, flood control, water quality, and environmental preservation.

Subtopics in Water Resources Engineering:

  1. Hydrology and Watershed Management: Hydrologists and water resources engineers study rainfall, river flows, and surface runoff to assess water availability and the impact of land use changes. They also develop watershed management plans to protect water quality and reduce flood risks.
  2. Water Supply and Distribution: Engineers in this subfield design and maintain water supply systems, including dams, reservoirs, pumping stations, and pipelines, to ensure reliable access to safe drinking water for communities.
  3. Flood Control and Stormwater Management: Water resources engineers develop flood control infrastructure, like levees and retention basins, to protect communities from flooding. They also design stormwater management systems to control runoff and reduce urban flooding.
  4. Environmental Hydraulics and River Restoration: This subtopic focuses on restoring and preserving natural river ecosystems while managing water resources. Engineers design solutions for riverbank stabilization, fish passage, and habitat restoration.
  5. Water Quality Management: Water quality engineers work to maintain and improve the quality of water in rivers, lakes, and reservoirs. They develop strategies to reduce pollutants and ensure compliance with water quality standards, benefiting both ecosystems and human health.