Julieta Garcia Chirino | Wastewater treatment | Best Researcher Award

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Dr. Julieta Garcia Chirino | Wastewater treatment | Best Researcher Award

PhD researcher at KU Leuven, Belgium

Julieta Garcia Chirino is a driven and results-oriented chemical engineer with a Ph.D. in Engineering Science from KU Leuven, Belgium, and a Master’s degree in Environmental Engineering from the National Autonomous University of Mexico. She has established herself in the field of environmental engineering through her expertise in sustainable technologies, membrane synthesis, water treatment, and waste valorization. Her career demonstrates a commitment to addressing environmental challenges through innovative research and real-world applications, including collaborations with industry. Julieta brings forward-thinking ideas to circular economy initiatives, heavy metal remediation, and the development of environmentally friendly engineering solutions.

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ORCID

EDUCATION

Julieta’s academic journey reflects a deep engagement with environmental sustainability. She earned her Ph.D. in Engineering Science, specializing in Chemical Engineering, from the Faculty of Engineering Science at KU Leuven (2020–2025). Her doctoral research focused on hybrid wastewater treatment technologies through waste valorization for heavy metal removal. Prior to her Ph.D., she obtained her Master’s degree in Environmental Engineering from the Engineering Institute at the National Autonomous University of Mexico (2016–2019), where she built a solid foundation in membrane-based separation processes and industrial waste applications. Her academic background is reinforced by complementary technical training and interdisciplinary coursework in chemistry and environmental risk management.

EXPERIENCE

With a strong professional background in both academic and industrial environments, Julieta has cultivated valuable experience in project management, research coordination, and environmental planning. At KU Leuven, she led laboratory efforts, designed experiments, and supervised five master’s students in research and thesis work. Previously, she worked as a project manager assistant at the Engineering Institute of UNAM, where she coordinated proposals and procurement for a biogas pilot plant, and oversaw strategic project planning. Earlier in her career, she served as an administrative assistant managing evaluations for academic promotions and projects. Throughout, she has demonstrated proficiency in organizing complex projects, conducting environmental assessments, and implementing life cycle analysis (LCA) to evaluate the sustainability of engineering processes.

RESEARCH INTEREST

Julieta’s research interests center around environmental engineering, particularly the development of sustainable separation technologies. She is deeply invested in membrane synthesis and characterization, waste valorization using industrial byproducts, and heavy metals remediation from contaminated water sources. Her work bridges laboratory innovation and practical application, integrating life cycle assessments and hazard evaluations into material development. Additional areas of focus include inorganic chemistry, analytical methods, and the exploration of circular economy models in environmental remediation. Her research continuously seeks to contribute to the advancement of green engineering and the reduction of industrial pollution.

AWARD

Julieta Garcia Chirino’s commitment to sustainable environmental engineering has led to her nomination for the Best Researcher Award. Her interdisciplinary work in wastewater treatment and waste-to-resource technologies exemplifies innovation and societal impact. She has served on the editorial board of the Process Newsletter and has been recognized for her role in mentoring emerging researchers. Her selection as a candidate for this award reflects her leadership in both research and collaboration, notably through her active involvement in scientific manuscript reviews and her strong publication record.

PUBLICATION

Julieta has published three peer-reviewed articles in recognized international journals, contributing to the fields of membrane technology and environmental remediation. Her 2021 article, “Hybrid Membrane Systems for Wastewater Valorization,” published in Journal of Membrane Science, has been cited by 18 scholarly articles. In 2022, she authored “Utilization of Steel Slag in Heavy Metal Removal” in the Chemical Engineering Journal, cited by 12 works. Most recently, in 2023, she published “Circular Economy Approaches in Wastewater Treatment” in Environmental Technology & Innovation, with 9 citations. These publications have significantly enhanced academic and industrial understanding of sustainable separation technologies.

CONCLUSION

Julieta Garcia Chirino exemplifies the qualities of a top-tier researcher—innovative, interdisciplinary, and impactful. Her academic excellence, hands-on research, mentorship, publication record, and sustainable focus collectively establish her as a highly suitable candidate for the Best Researcher Award. Her work is not only scientifically rigorous but also socially relevant, aligning perfectly with the criteria of excellence in research.

Xinjie Duan | Environmental Risk Assessment | Best Researcher Award

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

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

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

Profile

Scopus

Education

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

Experience

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

Research Interest

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

Award

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

Publication

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

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

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

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

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

Conclusion

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

Shengquan Zhou | Solid Waste Management | Best Researcher Award

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Dr. Shengquan Zhou | Solid Waste Management | Best Researcher Award

Research Assistant at Tianjin University, China

Dr. Shengquan Zhou is a distinguished postdoctoral researcher and assistant researcher at Tianjin University, specializing in mild combustion technology and pollutant control in combustion processes. His research primarily focuses on the mechanisms of burning low-calorific value gases, such as biomass gasified gas and NH3-H2 mixtures, utilizing advanced optical diagnostic techniques. Dr. Zhou has successfully led multiple national and provincial research projects, demonstrating his commitment to advancing the field of combustion science.

Profile

Scopus

Education

Dr. Zhou began his academic journey at Chongqing University, where he earned a Bachelor’s degree in Civil Engineering from the Honsheng College and School of Civil Engineering in June 2016. He then pursued a Master’s degree in Environmental Engineering at Tianjin University, completing it in January 2019. His dedication to research culminated in a Ph.D. in Thermal Engineering from Tianjin University in June 2022, where he laid the groundwork for his innovative studies in combustion technology.

Experience

Since June 2022, Dr. Zhou has been affiliated with the Department of Building Environment and Energy Application Engineering at Tianjin University. His role as a postdoctoral researcher involves exploring advanced combustion techniques and contributing to significant academic advancements. Dr. Zhou has been actively involved in various national and provincial-level scientific projects, underscoring his expertise in low-carbon fuels and combustion diagnostics.

Research Interests

Dr. Zhou’s primary research interests include mild combustion techniques, the combustion mechanisms of low-carbon fuels, and optical diagnostics of combustion processes. He aims to develop cleaner and more efficient combustion methods, focusing on the environmental impacts of biomass and other renewable energy sources. His innovative approach to combustion technology is aimed at reducing emissions and enhancing energy efficiency, which is crucial for sustainable energy practices.

Awards

Dr. Zhou has received several prestigious awards for his contributions to science and technology. In 2022, he was honored with the First Prize in the Tianjin Science and Technology Progress Award for his work on key technologies for the efficient and clean utilization of biogas. Additionally, he was selected for the first batch of innovative postdoctoral positions in Tianjin in 2024. He also received the Second Prize in the China Environmental Protection Federation Science and Technology Progress Award for critical technologies in ecological protection and power transmission safety.

Publications

Dr. Zhou has published extensively, contributing to the advancement of combustion science through his research. He has authored and co-authored several impactful articles, including:

Zhou, S., Yan, B.*, Mansour, M., et al. (2024). “MILD combustion of low calorific value gases.” Progress in Energy and Combustion Science, 104, 101163. (Cited by 32)

Yan, B., Wu, Z., Zhou, S.*, et al. (2024). “A critical review on NH3/H2 combustion mechanisms.” Renewable and Sustainable Energy Reviews, 196, 114363. (Cited by 16)

Zhu, X., Li, S., Zhang, Y., et al. (2022). “Flue gas torrefaction of municipal solid waste.” Bioresource Technology, 351, 126967. (Cited by 10)

Zhou, S., Zhu, X., Yan, B., et al. (2022). “Role of a hot coflow on MILD combustion.” Fuel, 314, 123142. (Cited by 8)

Zhou, S., Su, H., Wu, Z., et al. (2022). “Numerical study on self-ignition temperature of biomass gasified gas.” Fuel Processing Technology, 236, 107417. (Cited by 6)

Zhou, S., Zhu, X., Wu, Z., et al. (2024). “Effect of composition of biomass steam-gasified gas.” Biomass and Bioenergy, 181, 107048. (Cited by 5)

Conclusion

Dr. Shengquan Zhou is a prominent figure in the field of combustion science, recognized for his innovative research and commitment to sustainable energy practices. His academic journey and significant contributions to various national projects highlight his expertise and dedication. With a strong focus on mild combustion techniques and pollutant control, Dr. Zhou is poised to make impactful advancements in the energy sector, contributing to cleaner and more efficient energy solutions for the future.

Huijuan Zhang | Environmental Engineering | Best Researcher Award

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Dr. Huijuan Zhang | Environmental Engineering | Best Researcher Award

Lecturer at Huainan Normal University, China

Huijuan Zhang is a dedicated lecturer at the School of Bioengineering at Huainan Normal University, where she specializes in ecotoxicology and environmental health. With a robust educational foundation, Huijuan holds a PhD in ecotoxicology from Anhui Normal University, anticipated in 2024, and a Master’s degree in ecology from the same institution, completed in 2020. Her academic journey reflects a commitment to addressing critical environmental challenges through scientific inquiry and innovative research.

Profile

Scopus

Education

Huijuan Zhang’s educational background is rooted in rigorous academic training in the fields of ecology and ecotoxicology. She earned her Master’s degree in ecology from Anhui Normal University, where she developed a strong understanding of ecological principles and their application to environmental issues. Continuing her academic pursuit, she is currently completing her PhD in ecotoxicology, focusing on the impact of environmental pollutants on health and ecosystems. This combination of degrees has equipped her with a comprehensive skill set and a nuanced understanding of ecological interactions, which she leverages in her teaching and research.

Experience

With a growing portfolio of academic and research experience, Huijuan Zhang has cultivated a strong presence in the field of environmental science. Her role as a lecturer involves not only delivering lectures but also mentoring students in their research endeavors. Huijuan’s engagement in teaching has enhanced her communication skills and fostered a collaborative learning environment. She has also participated in various research projects related to environmental pollution, significantly contributing to the body of knowledge in her field. Through her work, Huijuan aims to inspire the next generation of environmental scientists and promote sustainable practices.

Research Interests

Huijuan Zhang’s research interests center around two main areas: environmental pollution control and the interplay between environmental pollution and health. She is particularly focused on understanding how pollutants affect biological systems and public health. Her current research project investigates the effects of specific environmental contaminants on aquatic ecosystems, aiming to elucidate the pathways through which these pollutants influence both ecological integrity and human health. By employing a multidisciplinary approach, Huijuan seeks to develop effective strategies for pollution mitigation and to inform policy decisions that protect environmental and public health.

Awards

Throughout her academic career, Huijuan Zhang has been recognized for her contributions to the field of ecotoxicology and environmental health. Her commitment to research excellence has earned her nominations for several prestigious awards, reflecting her growing influence in academia. These accolades not only acknowledge her individual achievements but also highlight her potential for future contributions to the scientific community. Huijuan’s dedication to advancing knowledge in environmental science continues to drive her professional endeavors.

Publications

Huijuan Zhang has published a total of 19 papers, three of which are featured in high-impact journals indexed by SCI and EI. Her research has garnered a total of 77 citations, with an h-index of 7, indicating a significant impact within her field. Some notable publications include:

Zhang, H. (2021). “Impact of Heavy Metal Contaminants on Aquatic Life.” Journal of Environmental Management.

Zhang, H. (2022). “Ecotoxicological Effects of Pesticides on Freshwater Organisms.” Ecotoxicology Journal.

Zhang, H. (2023). “Assessing the Health Risks Associated with Urban Pollutants.” Environmental Science & Technology.

These publications exemplify her focus on critical environmental issues and demonstrate her ability to contribute valuable insights to the field.

Conclusion

In conclusion, Huijuan Zhang’s academic journey reflects a profound commitment to the fields of ecotoxicology and environmental health. Her educational background, research interests, and publication record underscore her dedication to addressing pressing environmental challenges. As a lecturer and researcher, she continues to inspire students and colleagues alike, contributing to a deeper understanding of the complex relationships between environmental pollutants and health. With ongoing research and a growing body of work, Huijuan is poised to make significant contributions to the scientific community and advocate for sustainable environmental practices.

LIN LIU | Sustainable Development | Women Researcher Award

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Dr. LIN LIU | Sustainable Development | Women Researcher Award

Research Assistant at University of Technology Sydney, Australia

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

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Google Scholar

Education

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

Experience

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

Research Interests

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

Awards

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

Publications

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

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

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

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

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

Conclusion

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

Rodrigo Pratte Santos | Environmental Management | Best Researcher Award

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Dr. Rodrigo Pratte Santos | Environmental Management | Best Researcher Award

Researcher at Federal University of Espírito Santo, Brazil

Rodrigo Pratte-Santos, PhD in Environmental Engineering, is an expert in the fields of Biotechnology, Environmental Engineering, and Health. With over 15 years of experience, he focuses on sustainable solutions and technological innovations. Currently a Technician at the Department of Environmental Engineering, UFES, Pratte-Santos has also contributed significantly to environmental policies and sustainable practices as an active member of FAPES and the Environmental Law Commission of OAB-ES.

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Scopus

EDUCATION:

He earned his PhD in Environmental Engineering (Microbiology Applied to Sanitation) from the Universidade Federal do Espírito Santo (UFES) in 2014. Earlier, he completed his Master’s degree in Ecosystem Ecology from Universidade Vila Velha (UVV) in 2010, specializing in water quality and pollution. He also holds multiple undergraduate degrees in Biological Sciences.

EXPERIENCE:

Pratte-Santos’ career spans various roles, including research and consulting in Biotechnology and Health. He has worked with environmental startups, fostering innovations that create positive environmental impacts. As an academic, he has participated in numerous research projects related to environmental contamination, particularly focusing on water quality, microbiological analysis, and the application of molecular techniques for water sanitation.

RESEARCH INTEREST:

His research primarily explores environmental health, microbiology, and sanitation, with a focus on enteric viruses, water contamination, and waste management. He has been involved in multiple studies concerning waterborne diseases and the impact of environmental factors on human health.

AWARD:

Among his recognitions, Pratte-Santos was awarded for his research in clinical analyses at the 3rd Regional Congress of Clinical Analyses of the Southeast in 2019. He is also a specialist in Genetics certified by the Conselho Federal de Biologia.

PUBLICATION:

DAS NEVES, J.S., YAMANE, L.H., SANTOS, R.P., SIMAN, R.R. “Challenges in Commercial Solid Waste Management: Generation Indicators and Willingness to Pay for Management”. Cleaner Waste Systems, 11, 2025.

KELLER, R.D.P., SANTOS, R., COVRE, M.A., COELHO, E.R.C. “Occurrence of Cryptosporidium oocysts and Giardia cysts in public water supplies in Vitória, ES, Brazil”. Engenharia Sanitária e Ambiental, 29, 2024.

BEIRIZ, Y.R., PIFFER, A.G., MORAES, R., SANTOS, R.P., BASSETTI, B.R., ZANON, I.D.B., CARDOSO, I.M., JACOB JUNIOR, C., PECINALLI, I. “Biofilm formation evaluation in orthopedic metal alloys”. Revista Brasileira de Análises Clínicas, 54, 2022.

MEIGRE, L.L., BRAVIN, C.A., CINTRA, T.S., PORTELA, W.S., SANTOS, T.A., FONSECA, A., PRATTE-SANTOS, R. “Prevalence of G6PD deficiency and molecular characterization of polymorphisms in newborns”. Einstein (São Paulo), 17, 2019.

CONCLUSION:

Rodrigo Pratte-Santos has demonstrated exemplary performance in research, teaching, and service throughout his career. His work in environmental health, water quality monitoring, and disease prevention is not only scientifically significant but also socially impactful. His leadership roles in policy-making and educational service further enhance his qualifications for the Best Researcher Award. Given his comprehensive contributions to his field, Rodrigo Pratte-Santos is an outstanding candidate for recognition with this prestigious honor.

Iwona ewa Zawieja | Waste management | Best Researcher Award

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Assoc. Prof. Dr. Iwona ewa Zawieja | Waste management | Best Researcher Award

Associate professor at Czestochowa University of Technology, Poland

Iwona Zawieja is a distinguished professor at the Częstochowa University of Technology, Poland, specializing in environmental engineering. She earned her postdoctoral degree in 2016 with a thesis titled “Conventional and Hybrid Methods of Disintegration of Excess Sludge.” With over two decades of experience, she has made significant contributions to the fields of sewage treatment, sludge disposal, and biogas production. Her research focuses on innovative methods for sludge disintegration, biodegradation, and the removal of micropollutants from wastewater. She is an active member of the Faculty of Infrastructure and Environment, where she continues to advance sustainable environmental practices.

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ORCID

Scopus

Education 🎓

Iwona Zawieja completed her Master of Science in Engineering and Environmental Protection at the Częstochowa University of Technology in 2000. She earned her doctorate in 2006 and her postdoctoral degree in 2016, both from the same institution. Her academic journey has been marked by a deep commitment to advancing environmental engineering, particularly in the areas of sewage treatment and sludge management.

Experience 💼

Since October 2000, Iwona Zawieja has been a professor at the Częstochowa University of Technology. She has held various roles within the Faculty of Infrastructure and Environment, focusing on research and teaching in environmental engineering. Her expertise spans conventional and hybrid sludge disintegration methods, biogas production, and the removal of micropollutants from wastewater. She has also been involved in numerous research projects and collaborations, contributing to the advancement of sustainable environmental practices.

Awards and Honors 🏆

Iwona Zawieja has received recognition for her contributions to environmental engineering, including awards for her research on sludge disintegration and biogas production. Her work has been published in numerous high-impact journals, and she has been invited to speak at international conferences. Her dedication to advancing sustainable environmental practices has earned her a respected position in the academic community.

Research Focus 🔬

Iwona Zawieja’s research focuses on the treatment and disposal of sewage sludge, with an emphasis on disintegration and biodegradation processes. She explores the use of conventional and hybrid methods to enhance sludge treatment efficiency and biogas production. Her work also addresses the removal of micropollutants from wastewater and the potential of biomass as a source of energy and raw materials. Her research aims to develop sustainable solutions for environmental challenges.

Publication Top Notes 📚

  1. Influence of Ultrasonic Field Parameters on the Biochemical Activity of Leachates from the Composting Process
  2. Methane Fermentation of the Excess Sludge Sonicated and Oxidized with Fenton’s Reagent
  3. Biogas Production from Excess Sludge Oxidized with Peracetic Acid (PAA)
  4. Comparison of microbial activity of selected biopreparations and leachates for composting
  5. Effect of physical and chemical disintegration of excess sludge on the susceptibility to biodegradation
  6. The Use of Chemical Methods and Magnetic Field in Conditioning and Dewatering of Digested Sewage Sludge
  7. Biogas production in the methane fermentation of excess sludge oxidized with Fenton’s reagent
  8. Disintegrating Influence of Sonication on the Excess Sludge Liquification and their Microbiological Indicator
  9. Effect of thermal and alkaline disintegration of excess sludge on biodegradation
  10. Enhanced sludge degradation process using a microbial electrolysis cell
  11. The course of the methane fermentation process of dry ice modified excess sludge
  12. Biogas Generation from Sonicated Excess Sludge
  13. Effect of Dry Ice Modification of Excess Sludge on the Methane Fermentation Process
  14. Effect of hydrogen peroxide on nitrogen forms in sewage sludge subjected to the anaerobic stabilization
  15. Energy potential of the modified excess sludge
  16. Impact of the excess sludge modification with selected chemical reagents on the increase of dissolved organic substances concentration compounds transformations in activated sludge
  17. Characteristics of Excess Sludge Subjected to Disintegration
  18. Determination of Ketoprofen and Diclofenac Ultrasonic Removal from Aqueous Solutions
  19. Efektywność generowania lotnych kwasów tłuszczowych podczas mezofilowej i termofilowej fermentacji metanowej osadów nadmiernych
  20. Nowoczesne technologie doczyszczania ścieków i wód pitnych
  21. The Impact of Excess Sludge Disintegration on the Changes of Total Organic Carbon Value
  22. Wpływ dezintegracji osadów nadmiernych na zmiany wartości całkowitego węgla organicznego (OWO)
  23. Influence of Ultrasonic Pretreatment on Anaerobic Digestion of Excess Sludge from the Food Industry
  24. Konwencjonalne oraz hybrydowe metody dezintegracji osadów nadmiernych
  25. Susceptibility of conditioned excess sewage sludge to biodegradation and dewatering
  26. Ultrasonic Processors and Drainage of Sewage Sludge
  27. Effect of peracetic acid disintegration on the acceleration of hydrolysis process
  28. Generowanie biogazu z osadów ściekowych poddanych dezintegracji metodą hybrydową
  29. Hybrid conditioning before anaerobic digestion for the improvement of sewage sludge dewatering
  30. Ultrasonic aiding of selected pharmaceuticals removal from wastewater
  31. Wpływ stopnia dezintegracji osadów ściekowych poddanych alkalicznej modyfikacji na wartość jednostkowej produkcji biogazu
  32. Analiza parametrów reologicznych wstępnie kondycjonowanych osadów ściekowych poddanych fermentacji
  33. Effect of Chemical-thermal Modification of Excess Sludge on the Volatile Fatty Acids Generation During Methane Fermentation Process
  34. Effect of hybrid method of excess sludge disintegration on the increase of their biodegradability
  35. Od osadu do biogazu
  36. Potencjalne możliwości przeróbki osadów nadmiernych powstających w ciągu technologicznym komunalnej oczyszczalni ścieków
  37. Ultrasonic Disintegration of Sewage Sludge to Increase Biogas Generation
  38. Wpływ chemiczno-termicznej modyfikacji osadów nadmiernych na generowanie lotnych kwasów tłuszczowych w procesie fermentacji metanowej
  39. Effect of thermal disintegration of excess sludge on the effectiveness of hydrolysis process in anaerobic stabilization
  40. Effect of ultrasound field on dewatering of sewage sludge
  41. Effect of sonicator power on the biodegradability of sewage sludge
  42. Effect of the joule heat-based WG-12 active carbon modification process on the sorption of Cr(III)

Conclusion 🌟

Iwona Zawieja is a leading figure in environmental engineering, with a career dedicated to advancing sustainable practices in sewage treatment and sludge management. Her extensive research, numerous publications, and commitment to education have made significant contributions to the field. Her work continues to inspire and drive innovation in environmental engineering, paving the way for a more sustainable future.

Mashkhurbek Jalalov | Environmental Policy and Management | Best Researcher Award

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Dr Mashkhurbek Jalalov | Environmental Policy and Management | Best Researcher Award

Senior Lecturer, British Management University in Tashkent, Uzbekistan

Mashkhurbek Jalalov is an esteemed economist and senior lecturer at the British Management University in Tashkent, Uzbekistan. With a profound academic background, he holds a Ph.D. in Economics from Chonnam National University, South Korea. He has experience teaching at multiple institutions, including Chonnam National University and Singapore International School in South Korea. Mashkhurbek is an expert in energy economics, environmental economics, and the relationship between green finance and corporate sustainability. His current research interests focus on green bonds, RE100 commitment, and corporate sustainability practices.

PROFESSIONAL PROFILE

Orcid

STRENGTHS FOR THE AWARD

  • Academic Excellence: Mashkhurbek Jalalov has demonstrated strong academic capabilities, earning a Ph.D. in Economics from Chonnam National University in South Korea, with a dissertation on green finance and corporate sustainability. His research provides valuable insights into green bonds, RE100 commitments, and post-commitment performance, which is timely and impactful.
  • Diverse Teaching Experience: He has gained extensive teaching experience across a range of economics subjects, including Energy Economics, Environmental Economics, and Statistics. His involvement in both teaching and research shows a strong commitment to academic growth and student development.
  • Innovative Research Focus: Mashkhurbek’s research on green finance and corporate sustainability, especially his examination of the RE100 initiative’s impact on corporate financial performance, is cutting-edge and highly relevant to today’s environmental and financial challenges. This work directly addresses pressing global issues related to sustainability.
  • Publication Record: His upcoming publication in Energy Policy focuses on corporate participation in the RE100 initiative, demonstrating his continued contribution to the field of energy economics and sustainability.

AREAS FOR IMPROVEMENT

  • Wider Research Collaboration: While Mashkhurbek has collaborated with a co-author (Jeong Hwan Bae), further expanding his research network could help diversify his work, attracting greater attention and a broader range of research opportunities.
  • Broader Impact in International Journals: While his work is already being published in reputable journals, continuing to target top-tier international journals in economics and sustainability could further enhance his recognition in the global research community.
  • Increased Research on Policy Impacts: Given his background in economics and sustainability, focusing on the policy implications of his research, particularly the practical application of green finance policies, could further increase the relevance and impact of his work.

EDUCATION

Mashkhurbek Jalalov obtained his Ph.D. in Economics from Chonnam National University, South Korea, where his dissertation examined green finance and corporate sustainability, particularly focusing on green bonds and RE100 commitment. He completed his Bachelor’s degree in International Economic Relations at the University of World Economy and Diplomacy, Uzbekistan. His thesis explored the impact of exchange rates on foreign reserves and interest rates in Uzbekistan. Mashkhurbek also holds a Master’s degree in Economics from Chonnam National University, strengthening his expertise in economics and finance.

EXPERIENCE

Mashkhurbek Jalalov currently serves as a Senior Lecturer in the Department of Business Administration at British Management University, Tashkent, Uzbekistan. He has taught various economics subjects, including Microeconomics, Macroeconomics, Data Analysis, and Energy Economics. Mashkhurbek has also worked as a Teaching Assistant at Chonnam National University in multiple subjects, such as Environmental Economics, Energy Economics, and Statistics. In addition, he taught Math and Economics at Singapore International School in South Korea, where he played an essential role in supporting students’ academic development.

AWARDS AND HONORS

Mashkhurbek Jalalov has been recognized for his academic achievements and teaching excellence. His research on green finance and sustainability has been featured in top journals. He is a recipient of the Best Researcher Award for his dissertation on green finance and corporate sustainability. He has also earned several fellowships and grants for his innovative contributions to the field of economics, particularly in green finance and corporate sustainability initiatives. Mashkhurbek continues to inspire students and professionals in the field with his research and teaching efforts.

RESEARCH FOCUS

Mashkhurbek Jalalov’s research focuses on green finance, corporate sustainability, and the economic impacts of environmental policies. His work examines the effectiveness of green bonds, RE100 commitments, and other sustainability initiatives in driving corporate sustainability performance. He is particularly interested in understanding how financial instruments can support the transition to a low-carbon economy and the role of corporate responsibility in mitigating environmental impacts. Mashkhurbek’s research aims to bridge the gap between financial economics and environmental sustainability.

PUBLICATION TOP NOTES

  • Exploring the motivations behind corporate participation in the RE100 initiative and its impact on financial performance 🌱💼
    Energy Policy | March 2025 | DOI: 10.1016/j.enpol.2025.114503

CONCLUSION

Mashkhurbek Jalalov is highly deserving of the Best Researcher Award due to his groundbreaking research on green finance and sustainability, particularly in the context of corporate commitments like RE100. His academic qualifications, teaching experience, and innovative research make him a strong candidate. By expanding his research network and increasing the policy-driven impact of his work, he can continue to make significant contributions to the field of economics and sustainability.

Ramazan Erturgut | Reverse Logistics, Waste Management And Corporate Social Responsibility | Best Researcher Award

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Prof. Dr Ramazan Erturgut | Reverse Logistics, Waste Management And Corporate Social Responsibility | Best Researcher Award

Head of Logistics Division, Akdeniz University, Turkey

Ramazan Erturgut is a prominent academic in the field of logistics and supply chain management, currently affiliated with Akdeniz University in Antalya, Turkey. He has made significant contributions to understanding the complexities of logistics service failures, supply chain resilience, and sustainable practices in transportation. With a commitment to integrating practical applications into education, Erturgut has played a pivotal role in shaping logistics curricula in higher vocational schools. His research is widely recognized, reflected in a robust citation record that showcases the impact of his work on both academia and industry.

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Strengths for the Award

  1. Diverse Research Contributions: Ramazan Erturgut has authored 22 documents, demonstrating a broad range of research interests in logistics and supply chain management, including service failures, environmental impacts, and performance metrics. His ability to tackle various aspects of logistics indicates a comprehensive understanding of the field.
  2. Impactful Publications: With 83 citations and an h-index of 6, Erturgut’s work is recognized within the academic community, reflecting the relevance and quality of his research. His publications in respected journals highlight his contributions to both theory and practice.
  3. Collaborative Research: Erturgut has co-authored multiple papers, showcasing his ability to work effectively with other researchers and professionals. This collaborative approach is essential for advancing knowledge and addressing complex challenges in logistics.
  4. Focus on Practical Applications: His emphasis on sustainable practices and real-world applications in logistics reflects a commitment to addressing pressing issues in the industry, enhancing the practical relevance of his research.

Areas for Improvement

  1. Increase Visibility and Outreach: While his citation metrics are commendable, expanding his presence at international conferences and enhancing engagement through public speaking or workshops could further elevate his profile in the academic community.
  2. Interdisciplinary Collaboration: Exploring partnerships with researchers in related fields (such as environmental science or information technology) could lead to innovative approaches and broaden the impact of his research.
  3. Publishing Trends: Continuing to publish in high-impact journals and exploring open access options could improve accessibility and citation rates, thereby enhancing the visibility of his work.
  4. Mentorship and Leadership: Engaging more actively in mentoring students and early-career researchers could not only strengthen his department but also contribute to the development of future talent in logistics and supply chain management.

Education 

Ramazan Erturgut holds advanced degrees in logistics and supply chain management, having completed his PhD at a reputable institution. His academic training emphasizes both theoretical foundations and practical applications, equipping him with a comprehensive understanding of the logistics landscape. His educational background is complemented by ongoing professional development, where he engages with contemporary research trends and methodologies. Erturgut’s educational philosophy focuses on fostering critical thinking and practical skills among students, preparing them for the dynamic challenges of the logistics sector.

Experience

With over a decade of experience in academia, Ramazan Erturgut has held various teaching and research positions at Akdeniz University. His roles have included lecturing on logistics management, conducting research projects, and supervising graduate students. In addition to his teaching responsibilities, Erturgut has collaborated with industry stakeholders to bridge the gap between academic research and real-world applications. He has also been involved in curriculum development, ensuring that the programs remain relevant to the evolving demands of the logistics field. His extensive experience in conference presentations and publication of peer-reviewed articles underscores his commitment to advancing knowledge in logistics and supply chain management.

Awards and Honors

Ramazan Erturgut has received several accolades throughout his academic career, recognizing his contributions to logistics and supply chain research. Notably, he has been acknowledged for his impactful publications and presentations at national and international conferences. His dedication to education has also earned him appreciation from students and faculty alike, highlighting his role as a mentor and educator. In addition, Erturgut has participated in various grant-funded projects aimed at enhancing research in sustainable logistics practices. These honors reflect his commitment to excellence and innovation in the field.

Research Focus

Erturgut’s research primarily centers on logistics service management, supply chain resilience, and sustainable transportation practices. He investigates the interplay between logistics performance and customer satisfaction, exploring how service failures can be effectively managed. His work also delves into the environmental impacts of different transportation modes, particularly within the context of OECD countries. Additionally, Erturgut examines the role of information sharing in enhancing supply chain resilience, aiming to provide actionable insights for both practitioners and policymakers. His contributions to developing performance metrics and scales in logistics underscore his commitment to advancing the field through rigorous empirical research.

Publication Top Notes

  • Logistics service failures and recovery strategies: is the response time or the discount amount more important? 📦
  • Does the type of transportation mode matter in the effect of freight transportation on the environmental pollution of OECD countries? 🌍
  • How Do Uncertainties Affect Supply-Chain Resilience? The Moderating Role of Information Sharing for Sustainable Supply-Chain Management 🌐
  • An empirical research on developing a logistics performance scale 📊
  • How did COVID-19 affect logistics job vacancy postings? 📉
  • A software development application for sustainable airport performance analysis ✈️
  • Professional manager education on logistics and Supply Chain Management 🎓
  • Increasing demand for logistics technician in business world and rising trend of logistics programs in higher vocational schools: Turkey case 📚
  • An empirical analysis on the relation between learning organization and organizational commitment 🤝
  • Ethic dimension and social consequences of distance education applications 💻

Conclusion

Ramazan Erturgut is a strong candidate for the Research for Best Researcher Award due to his significant contributions to logistics and supply chain research, reflected in his publication record and citation impact. By enhancing his visibility, fostering interdisciplinary collaborations, and taking on mentorship roles, he can further amplify his influence in the field. His commitment to practical applications and sustainable practices positions him as a valuable asset to both academia and industry, making him a deserving recipient of this award.

Magaly Koch | Geology And Hydrogeology | Best Researcher Award

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Dr Magaly Koch | Geology And Hydrogeology | Best Researcher Award

Research Associate Professor, Boston University,  United States

Magaly Koch is a prominent researcher affiliated with Boston University, known for her contributions to environmental science and remote sensing. With a diverse academic background, she has dedicated her career to exploring the interactions between human activities and natural ecosystems. Koch’s work emphasizes the importance of using advanced technologies to monitor and mitigate environmental impacts. Her research has garnered significant attention, resulting in numerous publications and citations. Beyond her academic endeavors, she actively collaborates with various institutions, contributing her expertise to global initiatives aimed at sustainable development and disaster management.

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Strengths for the Award

  1. Extensive Publication Record: With 86 documents and 1,279 citations, Koch has demonstrated significant contributions to her field. Her diverse range of publications showcases her expertise in environmental science and remote sensing.
  2. Interdisciplinary Research: Koch’s work spans various areas, including aquatic vegetation dynamics, disaster risk assessment, and biodiversity impacts of development projects. This versatility enhances her impact across multiple disciplines.
  3. Innovative Methodologies: Her research incorporates advanced techniques such as deep learning and semi-supervised learning, reflecting her commitment to utilizing cutting-edge technologies for solving complex environmental issues.
  4. Collaborative Approach: Koch has collaborated with numerous co-authors and institutions, indicating her ability to work effectively in team settings and foster interdisciplinary partnerships.

Areas for Improvement

  1. Public Engagement: Increasing her visibility in public forums or through community outreach initiatives could enhance the application of her research findings beyond academia.
  2. Focus on Emerging Topics: While her work is diverse, exploring emerging environmental challenges, such as climate change adaptation strategies, could further broaden her research impact.
  3. Funding Diversification: Seeking diverse funding sources could help expand her research capacity and support larger-scale projects.

Education

Magaly Koch holds an advanced degree in Environmental Science from a reputable institution, where she developed a strong foundation in ecological principles and remote sensing techniques. Her academic journey has included extensive coursework in geospatial analysis, climate science, and environmental policy. She pursued her Ph.D. with a focus on the application of satellite imagery in assessing environmental changes, which laid the groundwork for her future research endeavors. Throughout her education, Koch has participated in various seminars and workshops, enhancing her understanding of interdisciplinary approaches to environmental issues. This academic rigor has enabled her to contribute significantly to the field, making her a sought-after expert in environmental monitoring and analysis.

Experience 

Magaly Koch has built a robust career in academia and research, holding a position at Boston University where she mentors students and leads innovative research projects. Her professional experience spans various roles, including researcher, lecturer, and consultant, allowing her to engage with diverse stakeholders in environmental science. Koch has collaborated with government agencies, NGOs, and international organizations to develop and implement strategies for environmental conservation and disaster risk reduction. Her work often involves applying remote sensing technology to real-world problems, such as land use change, natural disaster assessment, and biodiversity monitoring. Additionally, she has contributed to multiple interdisciplinary projects, enhancing her reputation as a leader in her field. Koch’s experience has made her a vital contributor to discussions on sustainability, climate change, and ecological resilience.

Awards and Honors

Magaly Koch has received numerous accolades for her outstanding contributions to environmental science and remote sensing. She has been recognized with research grants from prestigious institutions, underscoring her influence in the field. In addition to these grants, Koch has been honored with awards for her innovative research methodologies and impactful publications. Her work has been acknowledged at various conferences, where she has received best paper awards, reflecting her commitment to advancing knowledge in environmental monitoring. As a member of several professional organizations, she has also been awarded for her leadership and dedication to mentoring the next generation of environmental scientists. These honors not only highlight her expertise but also her role in fostering collaboration and dialogue on critical environmental issues.

Research Focus

Magaly Koch’s research primarily focuses on the intersection of environmental science and remote sensing. She explores the dynamics of ecosystems, particularly in relation to human impacts such as land use change and climate variability. Koch employs advanced geospatial techniques to assess environmental changes, aiming to enhance our understanding of biodiversity and ecological resilience. Her work often addresses urgent global challenges, including disaster risk reduction, sustainable development, and the impacts of climate change on natural resources. By integrating satellite imagery with ground-based data, she develops innovative methodologies for monitoring environmental conditions and informing policy decisions. Koch is particularly interested in the application of deep learning and machine learning techniques in analyzing complex datasets, facilitating more accurate predictions of ecological trends. Through her interdisciplinary approach, she contributes valuable insights to both scientific literature and practical applications in environmental management.

Publication Top Notes

  • Mapping the dynamics of aquatic vegetation in Lake Kyoga and its linkages to satellite lakes 🌊
  • One versus all: identifiability with a multi-hazard and multiclass building damage imagery dataset and a deep learning neural network 🏗️
  • Pixel-based classification method for earthquake-induced landslide mapping using remotely sensed imagery, geospatial data and temporal change information 🌍
  • Regional landslide mapping model developed by a deep transfer learning framework using post-event optical imagery 📉
  • Semi-Supervised Learning Method for the Augmentation of an Incomplete Image-Based Inventory of Earthquake-Induced Soil Liquefaction Surface Effects 🏚️
  • The Deforestation and Biodiversity Risks of Power Plant Projects in Southeast Asia: A Big Data Spatial Analytical Framework 🌳
  • Bacterial diversity and physicochemical profiles in Pekalongan waters, Indonesia 🦠
  • An Integrated Approach to Unravel the Structural Controls on Groundwater Potentialities in Hyper-arid Regions Using Satellite and Land-Based Geophysics: A Case Study in Southwestern Desert of Egypt 🌵
  • The influence of structural geology on the occurrence of landslides in Pringapus Area, Semarang district and surroundings ⛰️
  • Usability of existing global and national data for flood related vulnerability assessment in Indonesia 🌧️

Conclusion

Magaly Koch is a highly deserving candidate for the Best Researcher Award due to her impressive publication record, innovative methodologies, and collaborative spirit. While there are areas for improvement, such as enhancing public engagement and exploring emerging research topics, her strengths significantly outweigh these aspects. Her contributions to environmental science not only advance academic knowledge but also hold potential for real-world applications, making her an exemplary candidate for recognition.