Reza Chamani | Sustainable Development | Best Researcher Award

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Dr. Reza Chamani | Sustainable Development | Best Researcher Award

Post Doctoral Researcher at Tarbiat Modares University in Iran

Dr. Reza Chamani is a dedicated researcher in Watershed Management Sciences & Engineering, currently serving as a Postdoctoral Researcher at Tarbiat Modares University (TMU), Tehran, Iran. With a passion for hydrological sustainability, Dr. Chamani’s work focuses on watershed health, climate resilience, and ecological security. He earned his Ph.D. from TMU, where he developed models to assess the effect of hydrologic service changes on watershed health. Over the past decade, he has been actively involved in the implementation, assessment, and design of watershed structures across South Khorasan. His research contributions include over 15 publications in reputed journals and affiliations with professional bodies like the Iran Watershed Association and the World Association for Soil and Water Conservation (WASWC). Dr. Chamani brings academic rigor, practical field experience, and visionary research on land degradation neutrality, making him a strong candidate for international recognition in sustainable water resource management.

Professional Profile

Education 

Dr. Reza Chamani holds a distinguished academic background in watershed and environmental management. He completed his Ph.D. in 2023 in Watershed Management Sciences & Engineering from Tarbiat Modares University (TMU), where his research focused on evaluating the impact of hydrologic service changes resulting from watershed management measures on watershed health. He is currently pursuing a postdoctoral fellowship at TMU, continuing his work on implementing land degradation neutrality-based action plans for Iran’s second-order priority watersheds. Prior to this, he earned his Master’s degree in 2015 from Ferdowsi University of Mashhad, studying the role of land use management in climate change adaptation, in collaboration with the University of Jena, Germany. His academic journey began with a Bachelor’s degree in 2010 from Zabol University, with a focus on pasture and watershed management. His education spans interdisciplinary and international experiences, setting a solid foundation for his applied research in sustainable watershed practices.

Experience

Dr. Reza Chamani brings a wealth of practical and research-based experience in watershed management. Between 2017 and 2019, he actively contributed to Iran’s Department of Natural Resources and Watershed Management in South Khorasan, where he participated in detailed design, planning, and implementation of dam and watershed rehabilitation projects across the Noferst and Bisheh watersheds. His hands-on involvement included detailed structure measurements and preparing regional status reports. At the academic level, Dr. Chamani has collaborated with national and international researchers and served under the supervision of eminent scientists like Prof. Dr. S.H. Sadeghi and Prof. Dr. Mehdi Vafakhah. His experience bridges fieldwork and scientific inquiry, making his contributions especially valuable to sustainable land and water resource projects. As a Postdoctoral Researcher, he now works on strategic watershed health plans, integrating policy-relevant models and global frameworks like Land Degradation Neutrality. His dual expertise in practice and theory amplifies the applicability and impact of his research.

Research Focus 

Dr. Chamani’s research focuses on the interdisciplinary study of watershed health, climate resilience, and sustainable water resource management. He applies cutting-edge models like the Pressure-State-Response (PSR) framework, and the Reliability–Resilience–Vulnerability (RRV) model, to assess watershed performance under environmental stressors such as drought and climate change. His current postdoctoral research targets land degradation neutrality-based planning for Iran’s second-order priority watersheds, a concept promoted by the United Nations Convention to Combat Desertification. Dr. Chamani also investigates the hydrological impacts of land use changes, evaluates ecological security through spatial modeling, and forecasts watershed behavior using GIS and remote sensing. His work is applied in scope, offering insights for policy development, infrastructure design, and adaptive land-use planning. Collaborating across institutions and disciplines, he aims to ensure that watershed interventions are both environmentally sustainable and socially responsible, contributing meaningfully to regional climate adaptation strategies and global sustainability goals.

Publication Top Notes

1. Watershed health and ecological security zoning throughout Iran

Authors: SH Sadeghi, R Chamani, MZ Silabi, M Tavosi, A Katebikord, …
Journal: Science of The Total Environment, Vol. 905, Article 167123
Cited by: 29 | Year: 2023
Summary: This study presents a comprehensive national-scale ecological zoning of Iran based on watershed health and ecological security. Using a multi-criteria decision-making approach, it identifies critical zones requiring immediate management interventions.

2. Changes in reliability–resilience–vulnerability-based watershed health under climate change scenarios in the Efin Watershed, Iran

Authors: R Chamani, M Vafakhah, SH Sadeghi
Journal: Natural Hazards, 116(2), 2457–2476
Cited by: 19 | Year: 2023
Summary: The paper evaluates watershed health in Efin under climate change using reliability, resilience, and vulnerability (RRV) indices. It highlights future risks and offers guidance for sustainable watershed management.

3. Assessment of the effect of climate change on the health status of Atrak watershed in Northeastern of Iran

Authors: R Chamani, M Vafakhah, M Tavosi, S Zare
Journal: Arabian Journal of Geosciences, 15(24), 1745
Cited by: 13 | Year: 2022
Summary: Investigates the impact of climate projections on the Atrak Watershed’s ecological health using scenario-based modeling. Findings suggest serious degradation under high-emission pathways.

4. Reliability, resilience, and vulnerability of Chalous Watershed based on drought index

Authors: R Chamani, SH Sadeghi, M Vafakhah, M Naghdi
Journal: Watershed Engineering and Management, 14(1), 65–75
Cited by: 9 | Year: 2022
Summary: This study evaluates the Chalous watershed’s response to drought conditions using RRV indices. Results provide insight into its adaptive capacity and inform drought mitigation strategies.

5. Flood‐oriented watershed health and ecological security conceptual modeling using pressure, state, and response (PSR) approach for the Sharghonj Watershed, South Khorasan

Authors: R Chamani, SH Sadeghi, S Zare, H Shekohideh, A Mumzaei, H Amini, …
Journal: Natural Resource Modeling, 37(1), e12385
Cited by: 7 | Year: 2024
Summary: Introduces a PSR-based conceptual model for assessing flood-induced impacts on watershed health. Emphasizes the need for proactive watershed and disaster management.

6. Effect of drought on temporal-spatial changes of the Efin Watershed health

Authors: R Chamani, M Vafakhah, SHR Sadeghi
Journal: Watershed Engineering and Management, 15(1), 1–12
Cited by: 7 | Year: 2023
Summary: Analyzes spatial and temporal drought effects on Efin Watershed health, proposing adaptive water management strategies.

7. Evaluation and variability of flood-oriented health of Shiraz Darwazeh Quran Watershed from watershed management structures

Authors: SH Sadeghi, M Tavoosi, S Zare, V Beiranvandi, H Shekohideh, …
Journal: Watershed Engineering and Management
Cited by: 6 | Year: 2022
Summary: Evaluates the effectiveness of structural measures on flood-related watershed health using empirical data and modeling.

8. Hydrological response to future climate changes in Chehelchay Watershed in Golestan Province

Authors: R Chamani, M Azari, S Kralisch
Journal: Watershed Engineering and Management, 12(1), 72–85
Cited by: 6 | Year: 2020
Summary: Assesses the impact of climate change on hydrological patterns in Chehelchay Watershed using SWAT model simulations.

9. Flood-oriented watershed health and ecological security conceptual modeling using PSR approach for the Sharghonj watershed, South Khorasan Province, Iran

Authors: R Chamani, SH Sadeghi, S Zare, H Shekohideh, A Mumzaei, H Amini, …
Journal: Natural Resource Modeling, Article e12385
Cited by: 5 | Year: 2023
Summary: Duplicate entry of #5 with minor variation in title. Focus remains on flood-driven ecological health modeling using the PSR framework.

10. Health variability based on SPI and estimating median and mean health indices in watersheds and townships of Kermanshah Province, Iran

Authors: SH Sadeghi, R Chamani, M Kalehhouei, K Haji
Journal: Environment, Development and Sustainability, 1–21
Cited by: 4 | Year: 2024
Summary: Uses the Standardized Precipitation Index (SPI) to evaluate watershed health across Kermanshah, providing a new method for spatial health estimation.

Conclusion

In conclusion, Dr. Reza Chamani is not only a qualified but also a highly deserving nominee for the Best Researcher Award. His innovative, data-driven contributions to watershed health, resilience modeling, and ecological security have significantly advanced both the scientific understanding and applied practices in watershed management in Iran and beyond. With a forward-looking research agenda and demonstrated scientific rigor, Dr. Chamani exemplifies the qualities of a modern environmental scientist and is a strong candidate to be honored with this distinction.

Raouf Hassan | Environmental Engineering | Best Academic Researcher Award

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Assoc. Prof. Dr. Raouf Hassan | Environmental Engineering | Best Academic Researcher Award 

Associate professor at Imam Mohammad Ibn Saud Islamic University ,Saudi Arabia

Dr. Raouf Ahmed Mohamed Hassan is an Associate Professor of Civil and at Imam Mohammad Ibn Saud Islamic University in Riyadh, Saudi Arabia. With a Ph.D. from Nantes University, France, he specializes in environmental engineering, particularly wastewater treatment, greywater recycling, and sustainable waste management. He began his academic journey in Egypt, earning his B.Sc. from South Valley University, and later pursued advanced studies in France. Dr. Hassan has contributed significantly to academia through his teaching, supervision of numerous undergraduate projects, and active participation in international conferences. His research integrates environmental sustainability with modern engineering solutions, using both experimental and AI-based methodologies. A recognized figure in his field, he has received several university awards for scientific publications and served as a reviewer for top-tier international journals. Multilingual and globally engaged, Dr. Hassan continues to promote eco-friendly solutions for water and waste challenges in arid and urban environments.

👨‍🔬 Professional Profile

✅ Strengths for the Award

  1. Robust Academic Foundation

    • Trained in both Egypt and France, Dr. Hassan brings an international academic background rooted in civil and environmental engineering.

    • His Ph.D. from Nantes University under a renowned lab (GEPEA) gives added credibility to his scientific formation.

  2. High-Impact Research Contributions

    • Over 40 peer-reviewed publications, many in reputable journals like Scientific Reports and Desalination and Water Treatment.

    • Research integrates AI, machine learning, and experimental design, showcasing innovation in predictive environmental modeling.

  3. Award-Winning Excellence

    • Multiple University Awards for Scientific Publications (both in Egypt and Saudi Arabia).

    • Recipient of Best Article Award (2024)—a recognition of the novelty and utility of his work.

  4. Applied Focus on Sustainable Solutions

    • Projects on greywater reuse, biochar-based CO₂ adsorption, and zero-liquid discharge show real-world applicability.

    • Research supports environmental sustainability in urban and arid zones, an urgent global priority.

  5. Academic Leadership and Teaching

    • 20+ years of academic service across leading institutions.

    • Extensive teaching in environmental impact assessment, wastewater engineering, and sustainability.

    • Mentored numerous student projects, showcasing commitment to future generations of engineers.

  6. Global Perspective

    • Multilingual (Arabic, English, French), internationally educated and active in collaborative research.

    • Participates in European research networks and funded projects, widening his scholarly impact.

🎓 Education

Dr. Raouf Hassan earned his B.Sc. in Civil Engineering from South Valley University, Egypt, where he developed a strong foundation in infrastructure and environmental systems. He pursued his M.Sc. and Ph.D. at Nantes University, France, specializing under the GEPEA Laboratory. His academic training in France equipped him with advanced knowledge in wastewater treatment technologies, anaerobic digestion, and gas-liquid mass transfer. During his postgraduate studies, Dr. Hassan was involved in European collaborative projects focused on sludge valorization and sustainable energy. His education provided interdisciplinary exposure to both engineering principles and practical environmental applications. Additionally, he has completed several professional development courses covering scientific research methodologies, teaching strategies, academic ethics, and educational technologies. Fluent in Arabic, English, and French, Dr. Hassan’s educational journey reflects a blend of local insight and international expertise, empowering him to address environmental challenges in both developing and developed contexts through innovative civil engineering solutions.

🧑‍🏫 Experience

Dr. Raouf Hassan has over two decades of academic and research experience in civil and environmental engineering. He currently serves as Associate Professor at Imam Mohammad Ibn Saud Islamic University, Saudi Arabia, a position he has held since 2025 after serving as Assistant Professor there since 2017. Earlier, he worked as a faculty member and department head at Aswan University and the Arab Academy for Science, Technology & Maritime Transport in Egypt. His teaching portfolio includes undergraduate and postgraduate courses such as water and wastewater treatment, environmental impact assessment, and hydraulic systems. Dr. Hassan has supervised numerous student projects addressing urban water infrastructure, air pollution, and waste management in Saudi Arabia and Egypt. Beyond teaching, he has led and participated in several research projects funded by the Saudi Ministry of Education. His experience also spans administrative leadership, curriculum development, and student advising, making him a vital contributor to engineering education and environmental innovation.

🏅 Awards and Honors

Dr. Raouf Hassan has received multiple accolades in recognition of his research excellence and academic contributions. He has been awarded the University Award for Scientific Publication by Aswan University for four consecutive years (2019–2022) and received the same recognition from Imam Mohammad Ibn Saud Islamic University in 2021 and 2022. In 2024, he was honored with the Best Article Award by the Desalination and Water Treatment journal, highlighting his impactful contributions to sustainable water management. He also held a postdoctoral fellowship in 2013 at Nantes University, supported by the Egyptian Ministry of Higher Education. In addition to these achievements, Dr. Hassan is a senior member of APCBEES and an active reviewer for prominent international journals and conferences in environmental engineering. His consistent recognition reflects both the quality and relevance of his research, which spans water treatment, greywater reuse, and waste-to-energy systems across regional and international contexts.

🔬 Research Focus on Environmental Engineering

Dr. Raouf Hassan’s research is centered on sustainable environmental engineering, particularly focusing on wastewater treatment, anaerobic digestion, sludge valorization, and solid waste management. He integrates conventional and advanced techniques such as biogas production, membrane filtration, and eco-friendly materials to address water and waste challenges in urban and arid environments. His recent projects have explored sustainable greywater management in mosques, techno-economic assessments of water purification systems, and AI-based models for predicting environmental parameters. Dr. Hassan is also deeply involved in developing zero-liquid discharge systems and reusing agricultural residues for water filtration. With over 40 peer-reviewed publications and participation in global research initiatives, his work blends experimental rigor with practical application, often involving interdisciplinary collaboration. His research is funded by major bodies like the Deanship for Research & Innovation and the Ministry of Education in Saudi Arabia. Dr. Hassan’s scientific endeavors aim to create resource-efficient, climate-resilient, and cost-effective environmental solutions for future-ready cities.

📚 Publication Top Notes

Predicting CO₂ adsorption in KOH-activated biochar using advanced machine learning techniques

Journal: Scientific Reports, 2025
Authors: [Author names not provided]
Summary:
This study develops advanced machine learning models to predict the CO₂ adsorption capacity of KOH-activated biochar. The researchers utilized various algorithms to analyze experimental data, enabling precise modeling of adsorption behavior. The results reveal key parameters influencing performance and demonstrate that machine learning can significantly enhance the accuracy and speed of material screening for carbon capture technologies.

Machine learning frameworks to accurately estimate the adsorption of organic materials onto resin and biochar

Journal: Scientific Reports, 2025
Authors: [Author names not provided]
Summary:
This research investigates the use of machine learning techniques to estimate the adsorption of organic compounds onto resin and biochar materials. The study employs several regression models trained on experimental data to predict adsorption efficiency. Findings show that machine learning offers a reliable and efficient alternative to traditional methods in evaluating adsorbent materials for applications in environmental remediation and water purification.

🧾 Conclusion

In conclusion, Dr. Raouf Ahmed Mohamed Hassan stands out as a distinguished scholar and practitioner in the realm of civil and environmental engineering. His academic qualifications, international training, and extensive teaching experience position him as a leader in both educational and research domains. His multidisciplinary approach bridges environmental sustainability with engineering innovation, addressing pressing issues such as wastewater treatment, solid waste management, and air quality assessment. Recognized with multiple university-level awards and international journal accolades, Dr. Hassan continues to contribute meaningfully to science and society. His dedication to student mentorship, administrative service, and global collaboration reflects his commitment to holistic academic excellence. Through his research, he not only addresses critical environmental challenges but also provides scalable, real-world solutions tailored to urban and arid environments. As the world grapples with climate change and resource scarcity, Dr. Hassan’s vision, expertise, and innovative thinking offer valuable pathways toward sustainable development and environmental resilience.

Liping Hao | Greenhouse Gas Emission | Best Researcher Award

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Dr. Liping Hao | Greenhouse Gas Emission | Best Researcher Award

Associate Professor, Tianjin University, China

Dr. Liping Hao is an Associate Professor at the Institute of Surface-Earth System Science, School of Earth System Science, Tianjin University, China. A pioneering researcher in environmental microbiology and greenhouse gas emission, Dr. Hao’s work bridges the gap between microbial ecology and sustainable environmental technologies. Her interdisciplinary approach integrates bioinformatics, anaerobic digestion, and climate science to mitigate greenhouse gas emissions and enhance resource recovery.

👩‍🔬Professional Profile

Scopus Profile

🏆 Strengths for the Award

Focused and Timely Research Area:

Dr. Hao’s research on greenhouse gas production and emission, especially methane, is highly relevant in the context of global climate change. The work contributes to the understanding and mitigation of climate impacts—a top priority in environmental science.

Interdisciplinary Expertise:

The integration of environmental microbiology, anaerobic digestion, and bioinformatics indicates a strong interdisciplinary approach. This is valuable for innovative solutions in environmental management and sustainable technology.

Practical Applications:

Her work supports both scientific advancement and real-world application, such as improving resource utilization and emission reduction technologies. This dual impact is essential for awards recognizing impactful research.

Institutional Affiliation:

Being associated with the Institute of Surface-Earth System Science at Tianjin University, a respected institution in China, supports the credibility and infrastructure behind her work.

Contribution to Biogeochemical Cycles:

By focusing on element cycling through microbial interactions, Dr. Hao contributes fundamental knowledge to Earth system science, helping to bridge micro-level processes with macro-environmental outcomes.

🎓 Education

Dr. Liping Hao received her Ph.D. in Environmental Science and Engineering from a top-tier institution in China, where she developed a strong foundation in microbiology and environmental biotechnology. During her doctoral studies, she focused on microbial community dynamics in wastewater treatment systems, gaining valuable expertise in molecular biology, genomic analysis, and bioreactor technologies. Her academic journey has always been marked by a commitment to excellence and innovation.

🧪Experience

With over a decade of experience in research and academia, Dr. Hao has established herself as a leader in environmental microbiology. She is currently an Associate Professor at Tianjin University, where she teaches graduate and undergraduate courses, mentors students, and leads multiple high-impact research projects. Dr. Liping Hao career includes collaborative work with interdisciplinary teams across institutions, both in China and internationally. Her involvement in national and international projects has allowed her to contribute significantly to cutting-edge research in anaerobic digestion technology and microbial greenhouse gas production. She is also actively engaged in reviewing for peer-reviewed journals and contributes to academic and industrial conferences worldwide.

🔬 Research Focus On Greenhouse Gas Emission

Dr. Hao’s research focuses on the microbial mechanisms driving greenhouse gas production, particularly methane, in both natural and engineered ecosystems. Her investigations delve into the complex microbial communities that govern carbon and nitrogen cycling, with an emphasis on anaerobic environments such as wetlands and anaerobic digesters. Central to her work is the identification of methanogenic and methanotrophic microorganisms, the analysis of microbe–microbe interactions, and the application of advanced bioinformatics and metagenomics to uncover underlying genetic pathways. By exploring the functional potential of microbial consortia, Dr. Hao aims to develop innovative biotechnological strategies that reduce greenhouse gas emissions. Her contributions are advancing the fields of climate change mitigation, waste-to-energy conversion, and sustainable resource management.

📚 Publication Top Notes

Microbiome and its genetic potential for carbon fixation in small urban wetlands

Affiliation: Institute of Surface-Earth System Science, School of Earth System Science, Tianjin University, China

Journal: Shengwu Gongcheng Xuebao (Chinese Journal of Biotechnology)

Year: 2025

Summary: This study investigates the microbial communities in small urban wetlands and their capacity for autotrophic carbon fixation. Using high-throughput sequencing and bioinformatics tools, Dr. Hao and her team identified previously unknown microbial taxa with significant potential to act as natural carbon sinks. The findings emphasize the ecological importance of urban wetlands in mitigating greenhouse gas emissions and offer a new perspective on using microbiomes for climate-resilient urban design.

🏆 Conclusion

Dr. Liping Hao is a visionary environmental microbiologist whose research is shaping the future of greenhouse gas mitigation and microbial biotechnology. Her unwavering commitment to understanding the microbial world and translating this knowledge into real-world environmental solutions marks her as a truly deserving nominee for this award.Through her leadership, scientific rigor, and passion for sustainability, Dr. Hao continues to inspire a new generation of scientists while making profound contributions to the global fight against climate change. 🌍🔬

Saheed Ganiyu | Geophysics | Best Researcher Award

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Dr Saheed Ganiyu | Geophysics | Best Researcher Award

Senior Lecturer, Federal University of Agriculture, Abeokuta, Nigeria, Nigeria

Dr. Ganiyu Saheed Adekunle is a Nigerian geophysicist and Senior Lecturer at the Federal University of Agriculture, Abeokuta. Born in Ibadan, he specializes in environmental geophysics, hydrogeology, and subsurface contamination studies. With a Ph.D. in Geophysics and multiple international training programs, Dr. Ganiyu has emerged as a leading researcher in groundwater quality and environmental monitoring using integrated geophysical and statistical techniques. He is known for his commitment to sustainable development through applied geophysics and has collaborated across multidisciplinary teams to address Nigeria’s critical water issues. His scholarly impact includes numerous high-ranking publications and peer-review roles with leading journals. Dr. Ganiyu has earned national and international recognition, including awards and funded training by ICTP in Italy. His work continues to drive academic excellence, innovation, and environmental resilience in the geosciences.

Profiles

🎓 Education

Dr. Ganiyu obtained his Ph.D. and M.Sc. in Physics (Geophysics) from the Federal University of Agriculture, Abeokuta, Nigeria, in 2015 and 2011 respectively. He earned a B.Sc. (Hons) in Physics from the same institution in 2005 and completed a specialized Diploma in Geophysics at the Abdus Salam ICTP, Italy, in 2007. His foundational studies began at Ikolaba High School, Ibadan, where he received his WASSC in 1995. His academic journey reflects a consistent dedication to Earth sciences and geophysics, with additional exposure to international research environments that have broadened his theoretical and practical understanding of environmental geophysics and data-driven groundwater assessments.

🏢 Professional Experience 

Dr. Ganiyu’s academic career spans over 15 years at the Federal University of Agriculture, Abeokuta. He has held positions including Senior Lecturer (2021–present), Lecturer I (2018–2021), Lecturer II (2015–2018), and Assistant Lecturer (2012–2015). His journey began as a Junior Research Fellow from 2009 to 2011. He has contributed to curriculum development, mentored students, and led geophysical research projects involving groundwater exploration, soil property analysis, and environmental pollution detection. His teaching portfolio includes geophysics, numerical methods, and Earth resource analysis. Known for his integration of field surveys with multivariate data analytics, he has applied his skills in real-world contexts such as landfill pollution studies and urban water quality monitoring in Nigeria’s major cities.

🔬 Research Focus 

Dr. Ganiyu’s research bridges applied geophysics, environmental monitoring, and hydrogeochemistry. His core interest lies in groundwater quality assessment using electrical resistivity imaging, multivariate statistical modeling, and geochemical techniques. He has advanced the understanding of leachate plume migration, heavy metal pollution, and water pipeline corrosion through field-based studies in urban Nigeria. His work contributes to solving real-world environmental challenges like aquifer contamination and soil degradation. His interdisciplinary collaborations span geology, civil engineering, and environmental science, driving forward sustainable development in water resource management. His approach blends classic geophysical methods with modern computational tools, offering holistic solutions to subsurface characterization and pollution mitigation.

📚 Publication Top Notes

  • Evaluation of seasonal variation of water quality using multivariate statistical analysis and irrigation parameter indices in Ajakanga area, Ibadan, Nigeria

    Citation:
    Ganiyu, S.A., Badmus, B.S., Olurin, O.T., & Ojekunle, Z.O. (2018). Applied Water Science, 8, 1–15.
    Cited by: 111
    Summary:
    This study evaluated seasonal fluctuations in groundwater quality using multivariate statistical tools. The analysis revealed contamination from both natural and anthropogenic sources and assessed suitability for irrigation through various indices.

  • Effects of industrialization on groundwater quality in Shagamu and Ota industrial areas of Ogun state, Nigeria

    Citation:
    Zacchaeus, O.O., Adeyemi, M.B., Adedeji, A.A., Adegoke, K.A., Anumah, A.O., et al. (2020). Heliyon, 6(7).
    Cited by: 81
    Summary:
    The work examined the effect of industrial growth on aquifer contamination. Physicochemical parameters and heavy metal concentrations exceeded WHO limits, highlighting public health risks.

  • Assessment of physicochemical characteristics of groundwater within selected industrial areas in Ogun State, Nigeria

    Citation:
    Ojekunle, Z.O., Adeyemi, A.A., Taiwo, A.M., Ganiyu, S.A., Balogun, M.A. (2020). Environmental Pollutants and Bioavailability, 32(1), 100–113.
    Cited by: 51
    Summary:
    Investigates how industrial waste affects groundwater quality, using pollution indices and multivariate methods to evaluate spatial variability and potential health risks.

  • Assessment of groundwater contamination around active dumpsite in Ibadan Southwestern Nigeria using integrated electrical resistivity and hydrochemical methods

    Citation:
    Ganiyu, S.A., Badmus, B.S., Oladunjoye, M.A., Aizebeokhai, A.P., Ozebo, V.C., et al. (2016). Environmental Earth Sciences, 75, 1–19.
    Cited by: 50
    Summary:
    Combines geophysical and hydrochemical data to delineate contamination plumes from dumpsites, identifying leachate impacts on surrounding aquifers.

  • Physico-chemical properties of soil samples and dumpsite environmental impact on groundwater quality in South Western Nigeria

    Citation:
    Badmus, B.S., Ozebo, V.C., Idowu, O.A., Ganiyu, S.A., Olurin, O.T. (2014). The African Review of Physics, 9.
    Cited by: 49
    Summary:
    Explores how open dumpsites alter soil and groundwater chemistry, particularly with heavy metals, suggesting significant ecological and health concerns.

  • Delineation of leachate plume migration using electrical resistivity imaging on Lapite dumpsite in Ibadan, Southwestern Nigeria

    Citation:
    Ganiyu, S.A., Badmus, B.S., Oladunjoye, M.A., Aizebeokhai, A.P., Olurin, O.T. (2015). Geosciences, 5(2), 70–80.
    Cited by: 47
    Summary:
    Utilizes 2D resistivity imaging to monitor leachate infiltration and migration, aiding waste management and groundwater protection strategies.

  • Upward continuation and reduction to pole process on aeromagnetic data of Ibadan Area, South-Western Nigeria

    Citation:
    Ganiyu, S.A., Badmus, B.S., Awoyemi, M.O., Akinyemi, O.D., Olurin, O.T. (2013). Earth Science Research, 2(1), 66.
    Cited by: 47
    Summary:
    Presents geophysical data enhancement techniques for mapping subsurface structures in Ibadan, contributing to mineral exploration.

  • Assessment of heavy metals contamination and associated risks in shallow groundwater sources from three different residential areas within Ibadan metropolis, southwest Nigeria

    Citation:
    Ganiyu, S.A., Oyadeyi, A.T., Adeyemi, A.A. (2021). Applied Water Science, 11(5), 81.
    Cited by: 46
    Summary:
    Analyzes contamination levels and calculates health risk indices for residents using groundwater with varying exposure levels to heavy metals.

  • Investigation of soil moisture content over a cultivated farmland in Abeokuta Nigeria using electrical resistivity methods and soil analysis

    Citation:
    Ganiyu, S.A., Olurin, O.T., Oladunjoye, M.A., Badmus, B.S. (2020). Journal of King Saud University-Science, 32(1), 811–821.
    Cited by: 25
    Summary:
    Combines geophysical surveys and soil testing to assess soil moisture distribution for agricultural planning.

  • Assessment of microbial and heavy metal contamination in shallow hand-dug wells bordering Ona River, Southwest Nigeria

    Citation:
    Ganiyu, S.A., Mabunmi, A.A., Olurin, O.T., Adeyemi, A.A., Jegede, O.A., Okeh, A. (2021). Environmental Monitoring and Assessment, 193(3), 126.
    Cited by: 24
    Summary:
    Focuses on waterborne pathogens and toxic metal levels near riverbanks, identifying health hazards and poor sanitation.

Conclusion

Dr. Ganiyu Saheed Adekunle is highly suitable for a Best Researcher Award. His rigorous academic output, domain relevance, reviewer roles, and international exposure position him as a key contributor to the field of environmental geophysics and water resource management in Nigeria and beyond.

Manish Choudhary | Plastics Waste to Activated Carbon | Best Researcher Award

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Dr. Manish Choudhary | Plastics Waste to Activated Carbon | Best Researcher Award

Assistant Professor, Central Institute of Petrochemicals Engineering and Technology, India

Dr. Manish Choudhary is an Assistant Professor in Chemical Engineering at CIPET: IPT Lucknow, with a Ph.D. in Chemical Engineering from Dr. APJ Abdul Kalam Technical University. He also holds an M.Tech. from IIT Roorkee. Dr. Choudhary’s career is marked by a strong passion for teaching, research, and academic administration. He has published seven papers in SCI & Scopus indexed journals, focusing on topics such as polymer composites, recycling, and biomass thermodynamics. He has delivered invited talks at international conferences and mentors students for higher education and industry collaboration. Dr. Choudhary’s contributions to improving educational programs, such as hybrid classrooms and industry-academic ties, showcase his dedication to fostering student growth and innovation. His recognition spans across various academic and professional milestones, making him a noteworthy figure in the field of chemical engineering and environmental sustainability.

Profile

Education

Dr. Manish Choudhary completed his Ph.D. in Chemical Engineering from Dr. APJ Abdul Kalam Technical University (2019-2023). He earned his M.Tech. in Chemical Engineering from IIT Roorkee (2010-2012), a prestigious institute known for its excellence in engineering education and research. Prior to that, he obtained his B.Tech. in Chemical Engineering from UPTU (2005-2009). Dr. Choudhary’s academic journey reflects a solid foundation in chemical engineering principles, focusing on sustainable growth and innovative solutions in various sectors, including polymer composites and waste management. His advanced studies have equipped him with the expertise to conduct high-impact research, contribute to educational reforms, and engage in global academic discussions. His education from these esteemed institutions has been instrumental in shaping his career as a researcher and educator dedicated to both academic and professional excellence.

Experience

Dr. Manish Choudhary has accumulated extensive teaching and administrative experience at CIPET: IPT Lucknow. As an Assistant Professor since 2017, he has been instrumental in teaching both undergraduate and postgraduate students, with a focus on Chemical Engineering topics such as Thermodynamics, Heat and Mass Transfer, and Polymer Composites. Dr. Choudhary has played a pivotal role in academic and accreditation work, including NBA, NAAC, and NIRF-related activities. He is also a coordinator for ATAL FDPs and has introduced hybrid classroom learning to adapt to modern educational trends. Furthermore, Dr. Choudhary has been a mentor for student startups like SNOWFLAKE, facilitating innovation and industry collaboration. Previously, he served as a Lecturer (2012-2017), where he contributed to student development, extracurricular activities, and accreditation processes. His leadership has enhanced the overall quality of education and student engagement at CIPET, making him a valuable asset to the institution.

Research Focus

Dr. Manish Choudhary’s research primarily revolves around sustainable technologies, focusing on thermodynamics, biomass recycling, and polymer composites. His work in thermal degradation and kinetics of various biomass materials, such as rice husk and sun hemp, aims to improve waste management processes and environmental sustainability. He has conducted in-depth studies on the modification and characterization of agricultural waste for its use in polymer composites, with a strong emphasis on mechanical, thermal, and morphological properties. Dr. Choudhary also explores eco-friendly solutions for industrial safety and hazard management, contributing to safer manufacturing processes. His publications in SCI & Scopus indexed journals underline his contribution to advancing knowledge in chemical engineering and sustainable development. He is committed to applying his research to practical solutions for waste valorization, recycling, and the development of renewable materials. His future research trajectory is focused on improving sustainability practices and enhancing the circular economy in various industries.

Publication Top Notes

  1. Thermal kinetics and morphological investigation of alkaline treated rice husk biomass 🌾🔥
    Journal of the Indian Chemical Society, 2022

  2. Determination of thermal degradation behavior and kinetics parameters of chemically modified sun hemp biomass 🌿⚗️
    Bioresource Technology, 2023

  3. Impact of various surface modifications on agro waste rice husk and its reinforced polymer composites ♻️🔬
    Materials Today: Proceedings, 2021

  4. Study on mechanical, thermal and morphological properties of RHA filled PVC composite 🏗️🔍
    International Journal of Scientific Engineering and Applied Science, 2015

  5. Thermal and mechanical investigation of chemically treated hybrid biomass epoxy bio-composite: an approach of pyrolysis kinetics 🔬🔥
    Bioresource Technology Reports, 2023

  6. Kinetics modeling & comparative examine on thermal degradation of alkali treated Crotalaria juncea fiber using model fitting method 🔥🧬
    Journal of the Indian Chemical Society, 2023

  7. Sustainable valorization of rice husk: thermal behavior and kinetics after chemical treatments ♻️🌾
    Biomass Conversion and Biorefinery, 2023

  8. Phyto-Pharmacognostical and Hypocholesterolemic Activity of Morus alba L. 🌱🧪
    European Chemical Bulletin, 2023

 

 

 

 

Koziba Gaothobogwe | Environmental Science | Young Scientist Award

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Ms. Koziba Gaothobogwe | Environmental Science | Young Scientist Award

MSc Student. Botswana International University of Science and Technology, Botswana

Koziba Gaothobogwe is a dedicated MSc student in Environmental Science (Soil Science) at Botswana International University of Science and Technology (BIUST). With a passion for addressing environmental contamination, particularly in agricultural land, her research focuses on mitigating potentially toxic elements (PTEs) in food crops. She has gained international exposure through the Sakura Exchange Program in Japan, where she presented her research on emerging pollutants and developed hands-on skills in advanced environmental analysis. Koziba’s academic journey is supported by her teaching assistantship at BIUST, where she mentors undergraduate students in soil science, environmental hazards, and waste management. Committed to sustainability, she aims to apply her knowledge to tackle soil and water contamination issues in Botswana and beyond.

Profile

Scopus

Education

Koziba Gaothobogwe earned her BSc in Environmental Science from Botswana International University of Science and Technology (BIUST) in 2021, where her project focused on analyzing the physico-chemical characteristics of surface and groundwater near the Morupule Power Station. Currently, she is pursuing an MSc in Soil Science at BIUST, with a thesis dedicated to mitigating the impact of potentially toxic elements (PTEs) in food crops grown near the BCL Cu-Ni mine using soil amendments. Throughout her studies, Koziba has developed a strong foundation in environmental science, particularly in soil chemistry, water quality analysis, and environmental remediation strategies. Additionally, she has completed various professional training courses in Geographic Information Systems (GIS), image classification, and spatial data science through the Environmental Systems Research Institute (ESRI), enhancing her research capabilities in environmental monitoring and analysis.

Experience

Koziba Gaothobogwe has diverse research and teaching experience in the field of environmental science. As a teaching assistant at Botswana International University of Science and Technology (BIUST), she has been instrumental in supervising undergraduate laboratory sessions on environmental pollution, soil science, microbiology, and waste management. Her responsibilities include tutoring, grading, and ensuring compliance with institutional policies. As a research assistant, she assisted in designing experiments, performing soil and water sample analyses, and utilizing statistical tools to interpret environmental data. Her international exposure as a visiting scholar in the Sakura Exchange Program at Kyoto University, Japan, broadened her skills in environmental analysis techniques such as FTIR, ICP-MS, and SEM. Koziba has also contributed significantly to academic research through her project focused on mitigating contamination in agriculture, with her findings expected to influence sustainable farming practices in contaminated areas.

Research Focus

Koziba Gaothobogwe’s research focuses on the mitigation of potentially toxic elements (PTEs) in agricultural systems, particularly the impact of soil amendments on food crops grown in contaminated soils. Her MSc thesis explores how soil amendments can reduce the bioavailability of toxic elements like heavy metals in crops near mining areas, with a focus on BCL Cu-Ni mine in Botswana. Through her research, Koziba aims to develop practical, sustainable solutions to improve soil health and reduce the environmental risks posed by mining activities. Her interest extends to the broader field of environmental science, including water quality analysis, environmental impact assessments, and remediation strategies. Additionally, her work in environmental chemistry seeks to advance analytical methods for detecting and quantifying pollutants in soil, water, and plant matrices, making her research valuable for both environmental policy and agricultural sustainability.

Publications

  • Mitigation of Potentially Toxic Elements in Corn (Zea Mays) Grown in Farmlands Near Cu-Ni Mine in Central BotswanaSoil and Sediment Contamination (2025)

 

 

 

Young Min JO | Environmental engineering | Environmental Engineering Award

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Prof . Young Min JO | Environmental engineering | Environmental Engineering Award

Professor, Kyung Hee University, South Korea

Dr. Young Min Jo is a Professor at the Department of Environmental Engineering at Kyung Hee University in South Korea. With a career spanning over two decades, he has made significant contributions to environmental science, particularly in air pollution control and indoor air quality. His expertise includes dust filtration, CO2 capture, odor and VOC control, and energy material synthesis. Dr. Jo holds a Ph.D. in Chemical Engineering from the University of New South Wales, Australia, and has worked as a researcher and professor at various renowned institutions globally. He is also an active participant in environmental policy discussions, serving in various leadership roles in professional societies such as the Korean Society of Odor Environment. Dr. Jo’s commitment to research and teaching has earned him numerous accolades and recognition in the field of environmental engineering.

Profile:

Orcid

Scopus

Education:

Dr. Young Min Jo completed his academic journey with a focus on Chemical Engineering. He earned his Ph.D. in Chemical Engineering from the University of New South Wales (UNSW), Australia, in 1997. Prior to this, he obtained both his M.S. (1986) and B.S. (1984) degrees from Korea University, where he specialized in Chemical Engineering. His strong academic background laid the foundation for his future career in environmental science and engineering, where he has contributed to research, education, and policy. Throughout his education, Dr. Jo was exposed to a diverse range of topics that span chemical engineering and environmental sustainability, with a particular emphasis on air pollution control and energy systems. His education at leading institutions has provided him with the theoretical and practical knowledge necessary to address pressing environmental challenges.

Experience:

Dr. Young Min Jo has extensive experience in both academia and research. He has been a Professor at Kyung Hee University, South Korea, since 1998, shaping the next generation of environmental engineers. His academic journey also includes prestigious international roles, such as a Visiting Fellow at the Toyama National Institute of Technology (2014-2015) and a Visiting Researcher at the University of Missouri at Rolla (2005-2006). Dr. Jo’s early career includes research positions at the Environmental Research Center of National University of Singapore (1997-1998) and the Center for Particle & Catalysis at UNSW (1996). He also worked as a researcher at Daewoo Electronics Ltd., Korea (1986-1991), contributing to industrial applications. Throughout his career, Dr. Jo has collaborated on various international projects and research initiatives, earning recognition for his expertise in environmental pollution control, air quality, and sustainable energy solutions.

Awards and Honors:

Dr. Young Min Jo has earned several accolades for his contributions to environmental engineering. As Vice President of the Korean Society of Odor Environment (2022-present), he has led initiatives to address odor-related environmental concerns. He served as the Chairman of i-CIPEC (2019-2020), further solidifying his leadership in the environmental field. Dr. Jo has also been a Director of the Center for Environmental Studies (2018-2021) and the Environmental Education Center of Gyeonggi-do (2018-2019), demonstrating his commitment to environmental education and public awareness. In addition, he holds a Senior Consultant position at the National Institute of Environment Research (2017-present) and serves as an Advisory Member of the Korea Air Cleaning Association. These roles reflect his ongoing influence in shaping environmental policy and research in South Korea, earning him recognition for his expertise in air quality and pollution control.

Research Focus:

Dr. Young Min Jo focuses on environmental challenges, with a particular emphasis on air pollution control, indoor air quality monitoring, and energy material synthesis. His research encompasses a variety of topics, including dust filtration, CO2 capture, and odor & VOC control, which are crucial for mitigating pollution in urban environments. He also investigates the health implications of particulate matter and its effects on indoor environments, including classroom air quality. Another key area of his research is the synthesis of sustainable energy materials that can contribute to cleaner, more efficient energy solutions. Dr. Jo’s work on activated carbon materials, particularly bamboo-based activated carbon for CO2 adsorption, highlights his efforts to develop sustainable solutions for indoor air quality. His interdisciplinary approach integrates environmental engineering, materials science, and health sciences, offering valuable insights into improving air quality and sustainability in both indoor and outdoor environments.

Publication Titles :

  1. Correlation between carbonaceous materials and fine particulate matters in urban school classrooms 📚💨
  2. Effects of surrounding environment and student activity on the concentration of particulate matter in elementary school classrooms in South Korea 🏫🌫️
  3. Synthesis of Hydroxylammonium Nitrate and Its Decomposition over Metal Oxide/Honeycomb Catalysts ⚗️💥
  4. Fabrication of Bamboo-Based Activated Carbon for Low-Level CO2 Adsorption toward Sustainable Indoor Air 🌱🌀
  5. Preparation and Characterization of Bamboo-based Activated Carbon for Low-level CO2 Adsorption 🍃🧪
  6. Subchronic pulmonary toxicity of ambient particles containing cement production–related elements 💨⚠️
  7. Removal of Ammonia, Hydrogen Sulfide, and Methyl Mercaptan as Livestock Odor Using a Low-energy (0.2 MeV) Electron Beam Accelerator 🐄💨
  8. Air Quality Index through Inverse Evaluation of Hazard Quotient for Public Indoor Facilities-schools, child daycare centers and elderly nursing homes 🏢🏫
  9. Subway station dust-induced pulmonary inflammation may be due to the dysfunction of alveolar macrophages: Possible contribution of bound elements 🚇💨
  10. Ventilation strategy for simultaneous management of indoor particulate matter and airborne transmission risks – A case study for urban schools in South Korea 🏫🌀

Ahmed Ali Ayoub Abdelmoneim | Smart Irrigation Management | Best Researcher Award

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Dr. Ahmed Ali Ayoub Abdelmoneim | Smart Irrigation Management | Best Researcher Award

Researcher/Private Consultant, Mediterranean Agronomic institute of Bari, Italy

Ahmed Ali Ayoub Abdelmoneim is an Egyptian researcher, consultant, and educator focusing on agricultural water management and climate change. With a Ph.D. in Irrigation Modernization from the Mediterranean Agronomic Institute of Bari, Ahmed has a strong background in innovative irrigation systems, automation, and IoT applications. His work has spanned various global projects, including technical assistance, youth networking, and training courses. As a member of the MedYWat network, Ahmed has advocated for youth involvement in water issues. His research on improving furrow irrigation, developing smart gated pipe systems, and enhancing irrigation efficiency aligns with global needs for sustainable water use. Through his work, Ahmed strives to bridge the gap between technology and traditional irrigation practices for the betterment of agriculture and water conservation.

Profile

Education

Ahmed Ali Ayoub Abdelmoneim holds a Ph.D. in Irrigation Modernization from the Mediterranean Agronomic Institute of Bari, where he focused on improving furrow irrigation systems. He also earned a Master’s degree in Land and Water Resources Management from the Mediterranean Agronomic Institute of Bari (CIHEAM), specializing in irrigated agriculture, water management, and environmental sustainability. Additionally, Ahmed pursued research studies at the University of California Davis, focusing on agricultural water distribution systems and hydraulic analysis using innovative technology like drones and IoT devices. He holds a diploma in Laser Applications in Meteorology and Agriculture from Cairo University and a Bachelor’s degree in Agricultural Engineering from Cairo University. Ahmed’s academic foundation emphasizes advanced water management, irrigation systems, and sustainable agricultural practices.

Experience

Ahmed Ali Ayoub Abdelmoneim has gained significant professional experience as a researcher and consultant in agricultural water management. Currently working at the Mediterranean Agronomic Institute of Bari, Ahmed provides technical assistance, project coordination, and consultancy in regional water management projects. He is also involved in teaching courses on solar energy for irrigation and on-farm irrigation systems. Previously, Ahmed worked as a Ph.D. researcher focusing on furrow irrigation and smart irrigation systems. In 2017, he served as a Technical Officer in the Low-Emission Capacity Building Project for UNDP, working on climate change mitigation strategies and managing training activities. Earlier in his career, Ahmed worked in metal analysis, quality assurance, and project management in irrigation design for Green Hills International and EMAAR’s Uptown Cairo project. His extensive experience spans project coordination, education, IoT in agriculture, and climate change adaptation.

Awards and Honors

Ahmed Ali Ayoub Abdelmoneim has received numerous honors recognizing his outstanding academic and professional achievements. He was ranked first in the CIHEAM M.Sc. program (2014-2015) for his excellent academic performance. Ahmed was also ranked second in the Agriculture Engineering department at Cairo University in 2010. These accolades highlight his commitment to excellence in both his studies and research. His professional journey has been equally distinguished, as he has contributed significantly to advancing agricultural water management practices, with a focus on addressing climate change and water scarcity. In addition, Ahmed has been recognized as a valuable member of the MedYWat network, where he plays a key role in advocating for youth involvement in water issues and facilitating international collaborations. His participation in international workshops and conferences, such as those organized by the Centre for Mediterranean Integration, further demonstrates his leadership in the field of sustainable water management.

Research Focus

Ahmed Ali Ayoub Abdelmoneim’s research focuses on sustainable water management, irrigation modernization, and the application of IoT and automation in agriculture. His doctoral work at the Mediterranean Agronomic Institute of Bari centered on enhancing furrow irrigation systems through automation and smart technologies, including self-compensating gated pipes. By integrating innovative technologies like drones, sensors, and IoT devices, Ahmed aims to improve irrigation efficiency, water distribution uniformity, and reduce environmental impacts. His research extends to the comparative assessment of irrigation management practices and the development of low-cost precision irrigation solutions for arid regions. Ahmed’s work on climate change adaptation, water scarcity, and food security underpins his broader commitment to addressing global water challenges. His studies on the water footprint of crops and performance evaluation of smart irrigation systems contribute to ongoing efforts to create more sustainable agricultural systems worldwide.

Publications (with emojis):

  1. Forecasting Blue and Green Water Footprint of Wheat 🌾📊
  2. Advancements in Remote Sensing for Evapotranspiration Estimation 🌍🌱
  3. Towards Affordable Precision Irrigation: Experimental Comparison 💧🌿
  4. OptGate: Tool for Gated Pipe System Performance 🚰🔧
  5. IoT for Soil Moisture Tensiometer Automation 📡🌾
  6. IoT for Double Ring Infiltrometer Automation 🤖💧

 

 

Joao Proenca | Sustainability | Excellence in Research

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Prof. Dr. Joao Proenca | Sustainability | Excellence in Research

Full Professor, University of Porto, Portugal.

João F. Proença, born in Coimbra, Portugal, on April 21, 1963, is a renowned Full Professor at the University of Porto’s School of Economics and Management. He is also the President of the Scientific Department of Business and Management at the University of Porto. Proença’s career spans academia and business leadership, with past roles including Rector of Universidade Europeia and Chief Academic Officer for Laureate International Universities in Portugal. He has held several leadership positions, such as Dean of the School of Economics and Management at the University of Porto. Proença has published over 150 research papers and has been a Visiting Researcher at prestigious institutions worldwide. In addition to his academic achievements, he has also led business operations as CEO and Chairman in various commercial and industrial firms, contributing to both the academic and business communities. He specializes in Marketing, Business Management, and Services Management.

Profile :

Orcid

Scopus

Google scholar

Education :

João F. Proença’s academic journey began with a Bachelor’s in Business and Management Studies from Universidade Católica Portuguesa, Lisbon (1986). He then earned a Master’s in Marketing and Commercial Management from IE Business School in Madrid, Spain (1991), graduating second in his class. Proença further advanced his studies with a PhD in Business Studies from the University of Porto (1999), receiving unanimous approval for his dissertation. He later achieved the title of “Agregação” in Business Studies from the same institution in 2008, a required qualification for a full professor role in Portugal. His educational achievements have laid the foundation for his successful academic career and extensive research in business and management. Proença is committed to fostering excellence in education and research, mentoring students and scholars globally. His academic background plays a pivotal role in shaping his contributions to higher education, business practices, and management studies.

Experience :

João F. Proença boasts an extensive career in both academia and business leadership. As a Full Professor at the University of Porto’s School of Economics and Management, he has held key academic positions, including Director of multiple degree programs and Chairman of the Scientific Board. He was the Dean of the University of Porto’s School of Economics and Management (2010-2015), where he contributed to the institution’s high standing in international rankings. Proença also served as Rector of Universidade Europeia, overseeing multiple campuses, and as Chief Academic Officer for Laureate International Universities in Portugal. In addition to his academic career, Proença has significant business experience, having held executive roles such as CEO and Chairman at companies within the Probos Group, now part of H.B. Fuller. His leadership in business and education has shaped his approach to management and services studies, demonstrating a unique blend of academia and industry expertise.

Research Focus :

João F. Proença’s research primarily revolves around Marketing, Business Management, and Services Management. His work delves into the dynamics of service quality, consumer behavior, and sustainable business practices, with a focus on examining how companies can improve customer relations and operational efficiency. Proença is also interested in the intersection of sustainability and business, particularly in how businesses can integrate sustainable practices into their operations. His research explores innovative service strategies, value co-creation, and the role of business models in promoting long-term sustainability. Additionally, Proença has a particular focus on the influence of technology and digital transformation in services management. He has published numerous articles on service marketing, consumer behavior, and sustainability, contributing valuable insights to the academic community. Proença’s global collaborations and visiting researcher roles at various universities further enrich his research, creating a broader perspective on contemporary challenges in business and management.

Publications:

  1. Sustainable Campus Operations in Higher Education Institutions: A Systematic Literature Review 🌱🎓
  2. The Influence of Perceived Risk on Mobile Shopping Cart Abandonment 📱🛒
  3. How Farmers Present a Sustainable Product to Socially Responsible Consumers—An Approach to Local Organic Agriculture 🌾🌍
  4. The Influence of Service Quality on the Consulting Relationship 🤝💼
  5. The Influence of Sustainability on Psychological Ownership in Services Based on Temporary Access ♻️💡
  6. Determinants of the Purchase of Secondhand Products: An Approach by the Theory of Planned Behaviour 🔄🛍️
  7. Motivations for Peer-to-Peer Accommodation: Exploring Sustainable Choices in Collaborative Consumption 🏠🤝
  8. Sustainability in the Coffee Supply Chain and Purchasing Policies: A Case Study Research ☕🌍
  9. The Use of Positive and Negative Appeals in Social Advertising: A Content Analysis of Television Ads for Preventing HIV/AIDS 📺⚖️
  10. Tourism Co-Creation in Place Branding: The Role of Local Community 🏞️👥

Samaneh Abdi Qezeljeh | Energy and Sustainability | Best Researcher Award

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Ms. Samaneh Abdi Qezeljeh | Energy and Sustainability | Best Researcher Award

PhD Researcher, Technische Universität Darmstadt, FG SLA, Germany

Samaneh Abdi Qezeljeh is a passionate researcher in the field of mechanical engineering, currently pursuing her Ph.D. at the Technical University of Darmstadt. With a solid academic background and a CGPA of 17.51/20 in her Master’s studies, she has made notable contributions to fluid mechanics, heat transfer, and energy conservation. Samaneh’s research interests encompass fluid-structure interaction (FSI), computational fluid dynamics (CFD), turbulence, bio-mechanics, and numerical simulations. Throughout her academic career, she has earned recognition for her excellent performance, ranking 5th in her Master’s cohort and 3rd in her Bachelor’s program. Her work has been published in high-impact journals such as Energies and the International Journal of Multiphase Flow. Samaneh is also highly skilled in various engineering software, including Comsol Multiphysics, Ansys-Fluent, and SolidWorks. Alongside her research, she has tutored undergraduate and graduate students at the University of Tabriz.

Profile

Education

Samaneh Abdi Qezeljeh obtained her Bachelor’s degree in Mechanical Engineering from Seraj Higher Education Institute, Tabriz, Iran, where she ranked 3rd in her class. She excelled academically with a CGPA of 17.63/20 (excluding thesis) and earned a thesis grade of 19.75/20. Her thesis focused on Incompressible Flow Simulation in a Backward-Facing Step with an Elastic Wall, highlighting her expertise in computational fluid dynamics (CFD). Samaneh continued her academic journey by pursuing a Master of Science (M.Sc.) in Mechanical Engineering with a focus on Energy Conservation at the University of Tabriz, where she achieved a CGPA of 17.51/20. Her Master’s thesis, titled “Investigation of Different Fluids on the Performance of Organic Rankine Cycle with and Without Preheater,” reflects her research interests in energy systems. Currently, she is enrolled in the Ph.D. program at Technical University of Darmstadt, focusing on fluid mechanics and thermal load peak treatment.

Experience

Samaneh Abdi Qezeljeh has gained valuable practical experience through her internship at I.D.E.M Co. (Iranian Diesel Engine Manufacturing Co.), where she worked in the Research and Development (R&D) department from July to August 2017. During this internship, Samaneh was involved in the design and modification of engines, particularly focusing on optimizing engine performance. This hands-on experience enhanced her understanding of real-world mechanical engineering challenges and deepened her knowledge of energy systems. In her academic career, Samaneh has contributed to the advancement of fluid mechanics and energy conservation research at the Technical University of Darmstadt. As a Ph.D. student, she is currently working on the study of thermal load peak treatment in turbulent aerosol flows. She has also tutored undergraduate and graduate students at the University of Tabriz, focusing on SolidWorks and CFD software, sharing her expertise and mentoring future engineers.

Research Focus

Samaneh Abdi Qezeljeh’s research focuses primarily on fluid mechanics, heat transfer, and energy systems, with a particular emphasis on computational fluid dynamics (CFD) and fluid-structure interaction (FSI). Her work also explores bio-mechanics, turbulence modeling, and numerical simulations to address real-world engineering problems. As a Ph.D. candidate at the Institute for Fluid Mechanics and Aerodynamics at Technical University of Darmstadt, Samaneh’s current research project, titled “Study of Thermal Load Peak Treatment in the Air Gap Utilizing Turbulent Aerosol Flows”, is investigating ways to optimize thermal performance in energy systems. Her previous work on the Organic Rankine Cycle has further solidified her interest in energy conservation techniques and sustainable energy solutions. Samaneh has also studied incompressible fluid flows in her Master’s thesis and has explored advanced fluid simulations, focusing on the interaction between fluids and structural elements.

Publication Top Notes