Student, China three gorges university, China

Lilian Momburi is an emerging researcher and student at China Three Gorges University, specializing in hydraulic and environmental engineering. With a passion for addressing global environmental challenges, Lilian is dedicated to advancing knowledge in water resources management, hydrodynamic modeling, and flood risk assessment. Currently pursuing academic excellence, Lilian has contributed to impactful research projects, including studies on dam safety and flood behavior. Despite being early in her career, she has already co-authored a peer-reviewed journal article that explores the flooding behavior and discharge from Karot Dam in the event of a breach. Lilian’s commitment to both environmental sustainability and engineering innovation positions her as a promising figure in the field of hydraulic engineering.

Profile

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Strengths for the Award

Lilian Momburi, currently a student at China Three Gorges University, has already demonstrated significant potential in the field of hydraulic and environmental engineering. Her research, “Study of Flooding Behavior and Discharge from Karot Dam in the Event of a Possible Breach by Using the Hydrodynamic Model”, published in Water in October 2024, showcases her ability to tackle complex, real-world issues related to flood risk and dam safety. This research addresses the critical concerns of dam breach scenarios and their potential environmental impacts, an area of vital importance in today’s climate-aware engineering landscape. Her work highlights not only her technical skill in using hydrodynamic models but also her ability to contribute to improving the safety and resilience of large-scale infrastructure systems. With her collaborative work with experts like Changwen Li and Frank N. M. Masami, Lilian has shown promise as an emerging leader in her field.

Areas for Improvement

While Lilian has made an impressive start to her research career, she is still in the early stages of her academic journey. As a student, her research output is currently limited to a single published article. To strengthen her profile for the Best Researcher Award, Lilian should aim to expand her research portfolio with more peer-reviewed publications that demonstrate the depth and breadth of her expertise in hydraulic and environmental engineering. Additionally, it would be beneficial for her to engage in more interdisciplinary research collaborations, integrating her knowledge of hydrodynamics with areas such as sustainable infrastructure design, climate change adaptation, or water resource management. A broader research focus will allow her to reach a wider audience and address a more diverse set of global challenges.

Education

Lilian Momburi is currently a student at China Three Gorges University in Yichang, China, pursuing a degree in Hydraulic and Environmental Engineering. Her academic journey is focused on mastering key aspects of fluid dynamics, water resources management, and environmental engineering, with a particular emphasis on flood modeling and risk management. Lilian’s educational foundation is built on a strong understanding of both theoretical and practical aspects of engineering, and she is eager to apply this knowledge to real-world challenges in dam safety and water resource sustainability. Through her studies, she is developing expertise in hydrodynamic modeling and the use of computational tools to simulate environmental systems. Her rigorous academic training prepares her to contribute significantly to research that tackles pressing environmental issues, such as flood mitigation, water security, and sustainable infrastructure design.

Experience

As a student at China Three Gorges University, Lilian Momburi is gaining hands-on experience in hydraulic and environmental engineering, focusing on water systems, flood risk, and dam safety. Her research experience includes significant contributions to a project that explores the flooding behavior and discharge dynamics from Karot Dam in the event of a breach. This research is crucial for understanding the potential impacts of dam failures on surrounding communities and environments. Through her academic work, Lilian has become proficient in using hydrodynamic models to assess flood risks and inform mitigation strategies. In addition to her technical skills, Lilian is developing a strong ability to work collaboratively with interdisciplinary teams of engineers, researchers, and environmental experts. Her growing expertise in hydraulic modeling and environmental impact analysis positions her for a successful career in addressing global challenges related to water resources and environmental sustainability.

Awards and Honors

While Lilian Momburi is still early in her academic career, her work has already been recognized in the field of hydraulic and environmental engineering. She has co-authored a journal article published in the Water journal in October 2024, titled “Study of Flooding Behavior and Discharge from Karot Dam in the Event of a Possible Breach by Using the Hydrodynamic Model”. This publication demonstrates her ability to contribute meaningfully to complex environmental engineering topics. As a student, Lilian has also been involved in various research projects, collaborating with experts in hydrodynamics and environmental safety, which has positioned her as a promising emerging scholar in her field. While she has not yet received formal awards, Lilian’s work and research output indicate a future filled with recognition for her contributions to environmental and hydraulic engineering.

Research Focus

Lilian Momburi’s research focuses primarily on hydraulic and environmental engineering, with a particular emphasis on flood behavior, dam safety, and water resources management. Her work uses hydrodynamic models to assess the potential impacts of dam failures, focusing on how breaches could lead to catastrophic flooding. By simulating various breach scenarios, Lilian’s research aims to understand the flooding behavior and discharge dynamics from large dams, such as Karot Dam, in order to better prepare for and mitigate risks. Her research is also concerned with improving flood forecasting, environmental impact assessments, and developing safer, more resilient water management systems. In the long term, Lilian is interested in contributing to sustainable water infrastructure design and enhancing the capacity of communities to manage water-related disasters. Her work is at the intersection of engineering, environmental science, and public safety, addressing pressing global challenges in water security and disaster risk reduction.

Publication Top Notes

Study of Flooding Behavior and Discharge from Karot Dam in the Event of a Possible Breach by Using the Hydrodynamic Model
Lilian Momburi, Changwen Li, Frank N. M. Masami, Minglei Ren, Isaac Otoo, Water, 2024-10-14 🌊🔬

Conclusion

Lilian Momburi is a promising young researcher in the field of hydraulic and environmental engineering. Her work on flood modeling and dam safety is timely and highly relevant, particularly as the world faces increasingly complex challenges related to water security and climate change. While her research output is currently modest due to her status as a student, the quality of her work suggests a bright future ahead. With further development of her research portfolio and greater interdisciplinary engagement, Lilian has the potential to emerge as a leading expert in her field. Her passion for addressing environmental risks and her ability to work on impactful, real-world problems position her as a strong contender for the Best Researcher Award in the years to come.

Mahasakti Mahamaya | Geoenvironmental Engineering | Best Researcher Award

Posted on 07/11/202407/11/2024 by ScienceFather

Dr Mahasakti Mahamaya | Geoenvironmental Engineering | Best Researcher Award

Assistant Professor, OP Jindal University,Raigarh,Chhattishgarh,India

Dr. Mahasakti Mahamaya is a distinguished faculty member at OP Jindal University, specializing in geotechnical engineering, sustainable structures, and mining. With a strong emphasis on environmental sustainability, her work integrates innovative approaches in soil stabilization, waste management, and the use of industrial by-products. Dr. Mahamaya has authored several influential publications on geotechnical materials, biopolymers, and eco-friendly construction materials. Her research aims to optimize geotechnical properties while minimizing environmental impact. She collaborates extensively with experts in the field and contributes actively to advancing the geotechnical engineering domain through research, publications, and industry partnerships. 🌍🛠️🔬

Profile

Google Scholar

Scopus

Strengths for the Award

Innovative and Impactful Research:
Dr. Mahasakti Mahamaya’s work focuses on critical issues such as sustainable construction, soil stabilization, and waste utilization, all of which are highly relevant to contemporary environmental challenges. Her publications, especially in journals like the Journal of Cleaner Production and the International Journal of Geosynthetics and Ground Engineering, demonstrate a strong commitment to addressing both environmental sustainability and practical engineering applications. 🌍♻️
Interdisciplinary Collaboration:
Dr. Mahamaya has collaborated with multiple experts in various fields such as geotechnics, mining, and environmental engineering, producing high-impact research with multiple citations. Her work on biopolymers, fly ash, and ferrochrome slag for soil stabilization and sustainable material design positions her as a thought leader in geoenvironmental engineering. 🤝🔬
Cited Works and Recognition:
Several of her publications, such as those on artificial intelligence techniques for predicting soil strength and the use of alkali-activated materials, have been widely cited. This indicates not only the quality but also the global relevance of her research. Her citation count demonstrates recognition from the international scientific community. 🌐📈
Commitment to Sustainability:
Dr. Mahasakti’s consistent focus on sustainable construction materials and her work on mining waste and biopolymer stabilization aligns well with global trends toward sustainability in civil engineering. Her emphasis on eco-friendly solutions to minimize environmental pollution in construction is a major strength. 🌱🏗️

Areas for Improvement

Broader Dissemination in Popular Science:
While Dr. Mahamaya has numerous publications in reputable academic journals, her research could reach a broader audience by focusing more on outreach and public science communication. Publishing in high-impact journals like Nature Sustainability or engaging in industry-oriented platforms could further expand her influence. 🌍📣
Cross-Disciplinary Integration:
Although Dr. Mahasakti has made notable contributions within geotechnical engineering, her work might benefit from even more cross-disciplinary collaboration, particularly with sociologists or policy experts to better align her research with sustainable policy-making and community-level impact. Such collaboration could further enhance the real-world applicability of her research. 💬🔄
Focus on Emerging Technologies:
Given the growing importance of AI and machine learning in material prediction, Dr. Mahasakti could expand her work to integrate advanced computational methods with experimental studies, allowing for more data-driven insights into soil stabilization and material characterization. 📊🤖

Education

Dr. Mahasakti Mahamaya holds a PhD in Geotechnical Engineering, focusing on sustainable material development and geotechnical stability. She also completed a Master’s in Civil Engineering, specializing in geotechnics. Over the years, she has participated in numerous national and international conferences to stay updated on the latest research trends and innovations. Her academic training has been complemented by research on stabilization techniques for expansive soils and industrial waste utilization in construction. 📚🎓🌍

Experience

Dr. Mahasakti Mahamaya has over a decade of experience in academia and industry, contributing significantly to geotechnical research and sustainable infrastructure development. She has worked on various projects involving the stabilization of soils and industrial by-products, including fly ash, red mud, and mining waste, for geotechnical applications. In addition to her academic work, she has been part of several interdisciplinary research initiatives aimed at environmental remediation and resource optimization. Dr. Mahasakti is also a sought-after consultant for sustainable construction practices. 🛠️🌱💡

Awards and Honors

Dr. Mahasakti Mahamaya has received numerous accolades for her pioneering research in geotechnical engineering and sustainability. Her work has been widely cited, earning her recognition in international journals. She has also been honored with research grants and fellowships for her contributions to the field. Her excellence in research and innovation has earned her awards at international conferences, and she has been recognized for advancing eco-friendly construction technologies and sustainable geotechnical practices. 🏅🏆🌍

Research Focus

Dr. Mahasakti Mahamaya’s research focuses on geotechnical sustainability, soil stabilization, and industrial waste utilization in construction. She is particularly interested in using biopolymers, geopolymers, and fly ash as alternative materials for soil and waste stabilization. Her work aims to mitigate environmental pollution by developing low-cost, effective, and eco-friendly materials for infrastructure. She also investigates the engineering properties of materials derived from mining and industrial by-products, emphasizing their role in sustainable construction. 🌱🔬🧪

Publications

Prediction of maximum dry density and unconfined compressive strength of cement stabilised soil using artificial intelligence techniques – International Journal of Geosynthetics and Ground Engineering (2016)
Stabilization of an expansive soil using alkali activated fly ash based geopolymer – Advances in Characterization and Analysis of Expansive Soils and Rocks (2018)
Interaction of biopolymer with dispersive geomaterial and its characterization: An eco-friendly approach for erosion control – Journal of Cleaner Production (2021)
Coal mine overburden soft shale as a controlled low strength material – International Journal of Mining, Reclamation and Environment (2020)
Characterization of ferrochrome slag as a controlled low-strength structural fill material – International Journal of Geotechnical Engineering (2020)
Characterization of mine overburden and fly ash as a stabilized pavement material – Particulate Science and Technology (2017)
Stabilization of pond ash using biopolymer – Procedia Earth and Planetary Science (2015)
Stabilization of dispersive soil using biopolymer – Contemporary Issues in Geoenvironmental Engineering (2018)
Multi-objective feature selection (MOFS) algorithms for prediction of liquefaction susceptibility of soil based on in situ test methods – Natural Hazards (2020)
Engineering properties of cementless alkali activated CLSM using ferrochrome slag – Journal of Materials in Civil Engineering (2023)
Prediction of UCS and CBR values of cement stabilised mine overburden and fly ash mixture – Procedia Earth and Planetary Science (2015)
Estimation of thermal migration around buried coolant ducts with engineered backfill material – Procedia Earth and Planetary Science (2015)
Development and characterization of sustainable geomaterial using mining and industrial wastes – (2018)
Liquefaction susceptibility of soil using multi objective feature selection – Earthquake Geotechnical Engineering for Protection and Development (2019)
Characterization of ferrochrome slag as a controlled low strength material – Transportation Research Board 97th Annual Meeting (2018)
Characterization and design of coal-reject as a Highway Pavement Material – Indian Highways (2016)
Development and characterization of alkali activated controlled low strength material using mining waste – Construction and Building Materials (2024)
Effect of Biopolymer on Water Retention Property of Red Mud – International Conference on Trends and Recent Advances in Civil Engineering (2022) 🌍🛠️📘

Conclusion

Dr. Mahasakti Mahamaya is highly deserving of the Best Researcher Award due to her innovative research in sustainable construction, waste management, and environmentally friendly geotechnical practices. Her strong academic background, consistent publication record, and increasing international recognition make her a leader in her field. While there is room for growth in terms of broader dissemination of her work and interdisciplinary collaborations, her contributions to sustainable infrastructure and materials are both cutting-edge and highly impactful.

SIMRAN KAUR DHILLON | Chemical and Environmental engineering | Best Researcher Award

Posted on 04/11/202404/11/2024 by ScienceFather

Dr SIMRAN KAUR DHILLON | Chemical and Environmental engineering | Best Researcher Award

Postdoctoral Fellow, University of Alberta, Canada

Simran Kaur Dhillon is a dedicated researcher and academic based at the University of Alberta in Edmonton, Canada. With a focus on environmental sustainability and energy generation, she has made significant contributions to the field of microbial fuel cells and electrochemical sensors. Her innovative research combines cutting-edge technology with practical applications, aiming to enhance bioenergy generation and improve environmental monitoring. Dhillon’s work is characterized by her commitment to addressing critical environmental challenges, making her a valuable asset to the scientific community.

Profile

Google Scholar

Scopus

Strengths for the Award

Simran Kaur Dhillon has demonstrated significant contributions to the field of environmental science and bioenergy generation, with a particular focus on microbial fuel cells and electrochemical sensors. With 9 publications and a commendable citation count of 98, her research has made a measurable impact in her area of expertise. Dhillon’s work on innovative materials for enhancing the efficiency of microbial fuel cells showcases her ability to blend theoretical knowledge with practical applications. Furthermore, her recent publications in high-impact journals indicate her active engagement in cutting-edge research. Her collaborative spirit, evidenced by her numerous co-authored papers, reflects a commitment to advancing collective scientific knowledge.

Areas for Improvement

While Dhillon’s publication record is impressive, expanding her research scope to include more interdisciplinary studies could further enhance her impact. Additionally, increasing her outreach through presentations at more international conferences could elevate her visibility in the global research community. Engaging with more public-facing science communication initiatives would also help disseminate her findings beyond academic circles, fostering broader community awareness of her work.

Education

Simran Kaur Dhillon completed her undergraduate studies in Chemical Engineering at a prestigious institution, followed by a Master’s degree in Environmental Engineering. She is currently pursuing her Ph.D. at the University of Alberta, where her research centers on developing advanced materials for microbial fuel cells and their applications in renewable energy. Her educational background has provided her with a solid foundation in both theoretical knowledge and practical skills, enabling her to excel in her research endeavors.

Experience

Dhillon has gained extensive research experience through various academic and industry collaborations. She has worked on several projects focused on enhancing the efficiency of microbial fuel cells using innovative materials and methodologies. Her roles have included conducting experiments, analyzing data, and publishing her findings in reputable journals. In addition to her research, she is actively involved in mentoring undergraduate students and collaborating with peers on interdisciplinary projects, further enriching her professional experience.

Awards and Honors

Throughout her academic career, Simran Kaur Dhillon has received multiple awards and honors recognizing her outstanding research contributions. She was awarded a graduate research scholarship from the University of Alberta and received recognition for her publications in high-impact journals. Additionally, Dhillon has been invited to present her work at various national and international conferences, showcasing her commitment to advancing knowledge in her field.

Research Focus

Simran Kaur Dhillon’s research primarily focuses on microbial fuel cells, electrochemical sensors, and sustainable energy solutions. She investigates innovative materials to improve the efficiency and performance of bioenergy generation systems. Her work also explores the application of these technologies in environmental monitoring, particularly in detecting pollutants and enhancing water quality. Through her research, Dhillon aims to contribute to the development of sustainable energy solutions that address global environmental challenges.

Publication Top Notes

Detecting naphthenic acids in oil sands process water with microbial electrochemical sensor: Impact of inoculum sources and quorum sensing autoinducer 🌊🔬
Endothelial Cell-Derived Soluble CD200 Determines the Ability of Immune Cells to Cross the Blood–Brain Barrier 🧠💉
Transition metal sulfide/oxide nanoflowers decorated on poly (aniline-2-sulfonic acid) modified polyacrylamide derived carbon cathode catalyst for bioenergy generation in microbial fuel cells ⚡🌱
Functionalised graphite felt anodes for enhanced power generation in membrane-less soil microbial fuel cells 🌍⚙️
Copper nanoparticles embedded in polyaniline derived nitrogen-doped carbon as electrocatalyst for bio-energy generation in microbial fuel cells 🔋🍃
Magnesium Cobaltite Embedded in Corncob-Derived Nitrogen-Doped Carbon as a Cathode Catalyst for Power Generation in Microbial Fuel Cells 💡🌽
1-D semiconducting TiO2 nanotubes supported efficient bimetallic Co-Ni cathode catalysts for power generation in single-chambered air-breathing microbial fuel cells 🧪🔋
Development of polypyrrole nanotube coated with chitosan and nickel oxide as a biocompatible anode to enhance the power generation in microbial fuel cell 🌱🔋
Polyaniline interweaved iron embedded in urea–formaldehyde resin-based carbon as a cost-effective catalyst for power generation in microbial fuel cell 🌿⚙️

Conclusion

In conclusion, Simran Kaur Dhillon is a strong candidate for the Research for Best Researcher Award due to her innovative contributions to environmental research, her active participation in scientific discourse, and her collaborative approach. By addressing areas for improvement, she can further amplify her impact in the field, making her a promising choice for recognition in this competitive arena. Her research not only advances scientific understanding but also contributes to sustainable solutions for pressing environmental challenges.

Ilaria Sebastiani | Structural Engineering | Best Researcher Award

Posted on 05/10/202405/10/2024 by ScienceFather

Mrs. Ilaria Sebastiani | Structural Engineering | Best Researcher Award

Structural engineering, Freelance, Italy

Ilaria Sebastiani is a dedicated Civil Engineer with a focus on project management and structural design. Born on May 10, 1995, in Italy, she has developed expertise in managing complex construction projects, integrating advanced technologies like BIM for improved project outcomes. Her commitment to innovation and sustainability in civil engineering has made her a prominent figure in her field. 🌍🏗️

Publication Profile

ORCID

Strengths for the Award

Educational Background:Ilaria has a strong educational foundation, holding a Master’s degree in Civil Engineering with a perfect score and a Master’s in Project Management with BIM, showcasing her expertise in both technical and managerial aspects of engineering projects.
Professional Experience:With extensive hands-on experience as a Designer and Project Manager at Studio Masciotta s.r.l., Ilaria has been involved in significant projects, including seismic verifications and hydraulic tunnel improvements. This practical experience adds to her research credibility.
Research Contributions:Ilaria has contributed to important research projects and has co-authored publications that address contemporary challenges in construction, such as energy analysis and material reusability. Her work is presented at significant conferences, indicating her active participation in the research community.
Technical Skills:Proficiency in structural calculation software and energy analysis tools demonstrates her capability to handle complex engineering problems, which is essential for impactful research.
Certification and Training:Ongoing professional development, evidenced by certifications in confined space work, PPE usage, and open LCA, reflects her commitment to safety and sustainable practices in engineering.

Areas for Improvement

Language Skills:Ilaria’s proficiency in English is at a B1 level. Improving her English language skills could enhance her ability to engage with a broader international research community and present her work more effectively.
Broader Research Experience:While she has solid experience in civil engineering and construction, exploring interdisciplinary research areas or collaborating on projects outside her immediate field could diversify her research portfolio and broaden her impact.
Publication Output:Increasing the number of publications in high-impact journals and participating in more international conferences could elevate her visibility and recognition in the research community.
Networking and Professional Associations:Engaging more with professional associations and attending workshops or seminars could enhance her networking opportunities, leading to potential collaborations and innovative research ideas.

Education

Ilaria obtained her Master’s in Project Management in Construction Works with BIM from Politecnico di Milano in May 2024, achieving a top grade of 110/110. Prior to this, she earned her Master’s Degree in Civil Engineering – Structures (110/110 laude) and her Bachelor’s in Civil Engineering (102/110) from Sapienza University of Rome. She is also registered as a professional engineer in Rome and holds a certification as a Fire Prevention Professional. 🎓✨

Experience

Currently, Ilaria serves as a Project Manager at Studio Masciotta s.r.l., where she oversees various projects, including the seismic verification of dams and the management of construction activities. Her role involves coordinating site activities, liaising with clients, and conducting technical analyses. Previously, she interned at Eurac Research, where she contributed to EU-funded projects focused on energy efficiency in building renovations. 🏢🔧

Research Focus

Ilaria’s research interests lie in energy analysis, thermal bridge impact assessments, and innovative façade systems. She has actively contributed to projects aimed at enhancing building performance through sustainable design and construction practices, emphasizing the importance of integrating environmental considerations into engineering solutions. 🔍📊

Awards and Honours

Ilaria has been recognized for her contributions to civil engineering through various certifications and participation in significant conferences. Her work on energy efficiency and sustainable construction has positioned her as a promising professional in her field. 🥇🎉

Publication Top Notes

Impact of Thermal Bridges on the Energy Response of Building

Timber-based Façades with Different Connections and Claddings: Assessing Materials’ Reusability, Water Use, and Global Warming Potential

Conclusion

Ilaria Sebastiani’s strong educational background, combined with her practical experience and active engagement in research, positions her as a strong candidate for the Best Researcher Award. By focusing on language skills, expanding her research scope, increasing publication output, and enhancing her professional network, she can further solidify her status as a leading researcher in her field. Her commitment to continuous learning and professional development underscores her potential to contribute significantly to civil engineering and sustainable construction practices.

Priscila Guaygua-Amaguaña | Environmental Engineering | Best Researcher Award

Posted on 04/10/2024 by ScienceFather

Ms. Priscila Guaygua-Amaguaña | Environmental Engineering | Best Researcher Award

PhD student | Université de Toulouse | France

🧬 Short Bio

Priscila Guaygua is an accomplished chemist and researcher from Ecuador, currently pursuing her PhD in environmental impact assessment of bio-based materials and eco-design at Toulouse INP in France. With a rich background in chemical engineering and green chemistry, she has worked on various innovative projects, focusing on sustainable processes, environmental impact analysis, and life cycle assessment. Her research interests lie in the valorization of agricultural by-products and eco-friendly materials.

👤 Profile

Orcid

🎓 Education

Priscila’s academic journey is marked by her commitment to green chemistry and eco-friendly innovation. In 2023, she began her PhD at Toulouse INP, focusing on the comparative evaluation of environmental impacts of bio-based materials. She holds a Master of Science in Green Chemistry and Processes for Biomass from the Institut National Polytechnique de Toulouse (2019-2021), and a Chemical Engineering degree from École Nationale Polytechnique in Ecuador (2014-2019).

💼 Experience

2024: Professeur de Chimie at Ipst-Cnam, Toulouse, France – Instructed students on chemical reactions, material quantification, aqueous solutions, and organic synthesis.
2022: Ingénieure Projet Innovation et Environnemental at Veso Concept, Fontenilles, France – Conducted life cycle assessments, eco-design initiatives, and managed R&D projects with a focus on environmental impacts.
2021: Research Assistant at Laboratoire de Génie Chimique, CNRS, Toulouse – Studied carbon dynamics in olive oil production using C-TOOL software.
2020: Research Assistant at Laboratoire de Chimie Agro-industrielle, INRA, Toulouse – Analyzed life cycle of olive pomace for biocomposite production using SimaPro.
2017: Research Assistant at Département de Métallurgie Extractive (DEMEX), EPN, Quito, Ecuador – Assisted in research on metallurgy.

🔬 Research Interest

Priscila’s research focuses on the life cycle assessment (LCA) of agricultural by-products, specifically olive pomace, and their integration into biocomposites. She is dedicated to developing sustainable materials and eco-friendly processes that reduce environmental impacts through innovative approaches in green chemistry and biomass valorization.

🏆 Awards

Priscila has been nominated for several awards in the field of environmental chemistry and eco-design due to her impactful contributions to green chemistry projects, but specific award details are not provided.

📚 Publications

Espadas-Aldana, G., Guaygua-Amaguaña, P., Vialle, C., Belaud, J-P., Evon, P., Sablayrolles, C. (2021). Life Cycle Assessment of Olive Pomace as a Reinforcement in Polypropylene and Polyethylene Biocomposite Materials: A New Perspective for the Valorization of This Agricultural By-Product. Coatings, 11(5), 525. Link.
Cited by 10 articles.
Prompt: Life Cycle Assessment of Olive Pomace Biocomposites published in Coatings, 2021.

📝 Conclusion

Priscila Guaygua is a passionate advocate for green chemistry and sustainable material development. Through her research and professional endeavors, she continues to push the boundaries of eco-friendly innovations, contributing significantly to the advancement of environmentally conscious scientific practices.

Mohammad Moghiman – Environmental Engineering – Best Researcher Award

Posted on 10/09/202410/09/2024 by ScienceFather

Mohammad Moghiman - Environmental Engineering - Best Researcher Award

Ferdowsi University of Mashhad - Iran

AUTHOR PROFILE

GOOGLE SCHOLAR

🌍 EXPERT IN AIR POLLUTION CONTROL FROM FOSSIL FUELS

Mohammad Moghiman is a distinguished researcher with a strong focus on the control of air pollution resulting from fossil fuel combustion. His work addresses one of the most pressing environmental challenges of our time, contributing to the development of cleaner combustion technologies that reduce harmful emissions. His research has paved the way for innovative methods to minimize pollution, making a significant impact in environmental protection and sustainability.

☀️ PIONEER IN SOLAR ENERGY UTILIZATION

With a keen interest in renewable energy, Mohammad has conducted extensive research on the use of solar energy for heating and cooling buildings, as well as for heating swimming pools. His work in this area promotes sustainable alternatives to conventional energy sources, showcasing the potential of solar energy to reduce our reliance on fossil fuels. His innovative designs and systems have helped improve the efficiency and effectiveness of solar energy applications.

🔥 INNOVATOR IN HYDROGEN PRODUCTION THROUGH SOLAR REACTORS

Mohammad’s research in hydrogen production stands out, particularly his work on the decomposition of natural gas in nozzle-type solar reactors. This process not only contributes to the development of alternative fuel sources but also aligns with global efforts to transition to a hydrogen-based economy. His contributions in this field aim to provide cleaner and more efficient energy solutions, reducing our carbon footprint and moving towards a more sustainable energy future.

🌀 EXPERTISE IN COMPUTATIONAL FLUID DYNAMICS (CFD) AND MATHEMATICAL MODELING

A key strength of Mohammad’s research lies in his deep expertise in Computational Fluid Dynamics (CFD) and mathematical modeling of radiation, turbulence, and combustion. His use of advanced simulation techniques has provided valuable insights into the behavior of combustion processes and fluid flow. His work has enhanced the design and performance of industrial furnaces and combustors, leading to more efficient and environmentally friendly combustion systems.

📚 NUMEROUS CONTRIBUTIONS TO SCIENTIFIC CONFERENCES AND PUBLICATIONS

Mohammad has made significant contributions to the academic community through his research presentations at international conferences and his numerous publications. His work on solid fuel combustion models, coal combustion behavior, and heat exchanger thermal analysis has been widely recognized and referenced in the field. His collaborative efforts with researchers worldwide have advanced knowledge in energy systems and combustion science.

📖 AUTHOR AND TRANSLATOR OF ENGINEERING TEXTBOOKS

In addition to his research, Mohammad has authored and translated several important textbooks on topics such as air conditioning, fluid mechanics, and combustion. His translations of key works, like "Numerical Heat Transfer and Fluid Flow" and "Combustion" by Irvin Glassman, have made essential knowledge more accessible to students and professionals. His own works, like "Fluid Mechanics for Engineers," are widely used in academic and professional settings.

🏗️ DEDICATED TO IMPROVING ENGINEERING EDUCATION

Through his extensive work in academia, Mohammad Moghiman has contributed greatly to the education and training of future engineers. His dedication to teaching and knowledge dissemination is reflected in his numerous publications and his involvement in university-level education. His contributions to both research and education continue to inspire the next generation of engineers and researchers in the field of energy and environmental engineering.

NOTABLE PUBLICATION

Title: Effects of wavy surface characteristics on natural convection heat transfer in a cosine corrugated square cavity filled with nanofluid
Authors: K.M. Shirvan, R. Ellahi, M. Mamourian, M. Moghiman
Journal: International Journal of Heat and Mass Transfer
Year: 2017

Title: Gasification of heavy fuel oils: A thermochemical equilibrium approach
Authors: M. Vaezi, M. Passandideh-Fard, M. Moghiman, M. Charmchi
Journal: Fuel
Year: 2011

Title: Effects of nano-additives on pollutants emission and engine performance in a urea-SCR equipped diesel engine fueled with blended-biodiesel
Authors: M. Mehregan, M. Moghiman
Journal: Fuel
Year: 2018

Title: Fully nonlinear viscous wave generation in numerical wave tanks
Authors: M. Anbarsooz, M. Passandideh-Fard, M. Moghiman
Journal: Ocean Engineering
Year: 2013

Title: A numerical study on the aerodynamic performance and the self-starting characteristics of a Darrieus wind turbine considering its moment of inertia
Authors: A. Arab, M. Javadi, M. Anbarsooz, M. Moghiman
Journal: Renewable Energy
Year: 2017

Yi Yan – Environmental Engineering – Best Researcher Award

Posted on 22/07/202422/07/2024 by ScienceFather

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

Ali Nazari – Sustainable Engineering – Best Scholar Award

Posted on 19/07/202419/07/2024 by ScienceFather

Ali Nazari - Sustainable Engineering - Best Scholar Award

Sharif University of Technology - Iran

AUTHOR PROFILE

SCOPUS

CURRENT ROLE AND EXPERIENCE

Ali Nazari is an experienced Teaching Assistant with a strong background in construction materials and structural analysis. He has served at prestigious institutions such as Sharif University of Technology in Tehran, Iran, where he assisted in teaching courses on Construction Materials and Concrete Technology under the supervision of Dr. Mohammadhasan Ramesht and Dr. Vahab Toufigh. He also held a Teaching Assistant position at the University of Mazandaran in Babolsar, Iran, focusing on Structural Analysis under the guidance of Dr. Mahdi Nematzadeh.

RESEARCH INTERESTS

Ali’s research interests are diverse and impactful, encompassing Rehabilitation and Strengthening Techniques for Existing Structures, Application of Fiber Reinforced Polymer (FRP), and Polymer Concrete. He is also dedicated to Nondestructive Testing and Structural Health Monitoring using Ultrasonic Techniques, Laboratory Testing of Structural Components, and the Application of Green Construction Materials. Additionally, Ali explores Structural Fire Engineering and the integration of Machine Learning into structural analysis.

HONORS AND ACHIEVEMENTS

Ali has been recognized for his academic excellence, ranking in the top 1% out of approximately 148,429 participants in the National Post-Secondary University Entrance Exam in Iran in September 2017. He also ranked 27th in the nationwide M.Sc. Civil Engineering program entrance exam among over 30,000 candidates in October 2021. His leadership skills were evident when he served as the Secretary of the University of Mazandaran Students' Scientific Association in the Department of Civil Engineering from December 2020 to August 2021.

RESEARCH CONTRIBUTIONS

Ali has made significant contributions to the field of civil engineering through his research. He co-authored a paper with Nematzadeh and Tayebi in 2022, titled “Post-fire impact behavior and durability of steel fiber-reinforced concrete containing blended cement–zeolite and recycled nylon granules as partial aggregate replacement,” published in the Archives of Civil and Mechanical Engineering. In 2024, he collaborated with Toufigh on a paper examining the effects of elevated temperatures and re-curing on concrete containing rice husk ash, which appeared in Construction and Building Materials. Ali also presented a conference paper on the compressive strength analysis of fly ash-based geopolymer concrete using a machine learning approach at the Second International Congress of Civil Engineering, Architecture, Building Materials, and Environment.

APPLICATION OF GREEN CONSTRUCTION MATERIALS

Ali is passionate about sustainable construction practices, particularly the application of green construction materials. His research focuses on developing eco-friendly solutions and incorporating materials like blended cement-zeolite and recycled nylon granules to enhance the durability and environmental impact of construction projects.

NONDSTRUCTIVE TESTING AND STRUCTURAL HEALTH MONITORING

Ali’s expertise extends to nondestructive testing and structural health monitoring, utilizing advanced ultrasonic techniques. His work in this area aims to improve the safety and longevity of structures by identifying and addressing potential issues without causing damage.

PERSONAL INTERESTS AND ACTIVITIES

Outside of his professional and academic pursuits, Ali enjoys a variety of activities that enrich his life. He is an avid reader and translator, enjoys computing, and has a keen interest in research. His hobbies also include swimming, bicycle riding, art, photography, and traveling, all of which contribute to his well-rounded personality and diverse skill set.

NOTABLE PUBLICATION

Effects of elevated temperatures and re-curing on concrete containing rice husk ash

Authors: Nazari, A., Toufigh, V.
Year: 2024
Journal: Construction and Building Materials, 439, 137277

Spatiotemporal deep learning approach for estimating water content profiles in soil layers

Authors: Fazel Mojtahedi, F., Ghaffari, M.A., Rahmati, S., Sadeghi, H., Vanapalli, S.K.
Year: 2023
Conference: E3S Web of Conferences, 382, 22003

Use of InSAR data for measuring land subsidence induced by groundwater withdrawal and climate change in Ardabil Plain, Iran

Authors: Ghorbani, Z., Khosravi, A., Maghsoudi, Y., Javadnia, E., Nazari, A.
Year: 2022
Journal: Scientific Reports, 12(1), 13998

Correction to: Comparison of Soil Strength Parameters in a Small and Large Scale Direct Shear Test (Advances in Science, Technology & Innovation, 10.1007/978-3-030-01665-4_41)

Authors: Mojtahedi, S.F.F., Rezvani, S., Nazari, A.
Year: 2019
Journal: Advances in Science, Technology and Innovation, pp. C1–C3

Correction to: Comparison of Soil Strength Parameters in a Small and Large Scale Direct Shear Test (Recent Advances in Geo-Environmental Engineering, Geomechanics and Geotechnics, and Geohazards, Advances in Science, Technology & Innovation, 10.1007/978-3-030-01665-4_41)

Authors: Mojtahedi, S.F.F., Rezvani, S., Nazari, A.
Year: 2018
Journal: Advances in Science, Technology and Innovation, pp. C1–C3