Miguel Sagaseta de Ilurdoz Cortadellas | Water science and technology / Water treatment | Best Researcher Award

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Mr. Miguel Sagaseta de Ilurdoz Cortadellas | Water science and technology / Water treatment | Best Researcher Award

University professor at Complutense University of Madrid, Spain

Miguel Sagaseta de Ilurdoz Cortadellas is an accomplished industrial engineer, educator, and researcher known for his contributions to renewable energy systems, environmental engineering, and applied mathematics. With over 15 years of diverse experience in both academia and technical consultancy, he has played a critical role in advancing sustainable energy technologies and enhancing engineering education in Spain. His unique blend of practical knowledge, academic insight, and innovative research makes him a standout professional in his field.

Profile

Scopus

EDUCATION

Miguel earned his degree in Industrial Engineering from the Higher Technical School of Industrial Engineers at the University of Las Palmas de Gran Canaria in 2008. His studies emphasized multidisciplinary engineering, blending mechanical, thermal, and electrical systems with advanced analytical tools. He further honed his expertise in engineering applications through software like AutoCAD, Matlab, and mathematical modeling. This solid educational foundation laid the groundwork for his research and teaching in technical and environmental fields, allowing him to approach complex energy and infrastructure challenges with precision and creativity.

EXPERIENCE

Following his graduation, Miguel began his career in May 2009 as a technical consultant and expert in industrial energy systems, particularly focusing on renewable energy and environmental sustainability. Over time, he transitioned into academia, where he has held several key teaching and research roles. Currently serving as an Associate Professor at Complutense University of Madrid, he teaches mathematics and statistics to business and engineering students. Previously, he served at the University of Las Palmas de Gran Canaria and participated in major regional projects such as “Gran Canaria, Experimental Island,” where he coordinated research on energy efficiency and environmental innovation. His teaching portfolio spans subjects like aerodynamics, elasticity, fluid mechanics, and structural analysis, reflecting his wide-ranging expertise.

RESEARCH INTEREST

Miguel’s research interests focus on environmental and energy engineering, particularly in the context of island ecosystems and sustainability. He is deeply engaged in studies related to renewable energy systems, water desalination technologies, environmental impact assessments, and energy efficiency optimization. He has also contributed significantly to the analysis of fluid-structure interaction, elasticity theory, and environmental systems modeling. His interdisciplinary research bridges engineering and environmental science, with a consistent emphasis on real-world applications and societal impact.

AWARD

Miguel’s dedication to sustainability, education, and interdisciplinary innovation has earned him nominations and recognition in academic and research communities. His work in combining technical research with environmental objectives, particularly in the Canary Islands, has been praised for its practical utility and policy relevance. His ability to collaborate across scientific domains and his leadership in educational innovation strengthen his position as a strong candidate for awards recognizing academic and scientific excellence.

PUBLICATION

Miguel has authored and co-authored several impactful publications in the fields of environmental and energy engineering. Notably, he co-authored “Antibiotic removal processes from water & wastewater for the protection of the aquatic environment – a review”, published in the Journal of Water Process Engineering in 2022, which has been widely cited for its insights into sustainable water treatment technologies. Another major contribution is “Primary energy consumption in desalination: The case of Gran Canaria”, published in Desalination in 2019, which evaluates energy use in island-based water infrastructure. His earlier work, including conference papers such as those presented at the International Conference on Renewable Energies and Power Quality, reflects a consistent focus on sustainable development. Each of these works has been cited by fellow researchers, underscoring their impact on the field.

CONCLUSION

Miguel Sagaseta de Ilurdoz Cortadellas exemplifies a holistic researcher—excelling in academic instruction, industrial consulting, applied research, and scientific dissemination. His impactful work in renewable energies, sustainable systems, and advanced engineering education makes him exceptionally well-suited for the Best Researcher Award. His dedication to innovation, education, and sustainability embodies the core values that the award aims to honor.

Lanfeng Li | Industrial Wastewater Treatment | Best Researcher Award

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Dr. lanfeng Li | Industrial Wastewater Treatment | Best Researcher Award

PhD student, School of Environment Studies, China University of Geosciences (Wuhan), China

Li Lanfeng, born in October 1994, is a doctoral candidate specializing in industrial wastewater treatment and resource recovery technologies. His research focuses on the degradation of dissolved organic matter, recovery of valuable components in industrial wastewater, and the resource utilization of municipal sludge. Li has been involved in significant research projects, such as the recovery and purification of hazardous waste liquids in the integrated circuit industry and the sustainable use of lithium-rich ores. He has published over 20 papers, including 16 SCI papers, and holds more than 10 patents. His work has contributed to the application of critical technologies in industries like photovoltaic and agriculture. Li’s academic background includes a PhD in Environmental Science and Engineering from China University of Geosciences (Wuhan). He has received numerous awards and honors, further solidifying his impact in the environmental engineering field.

Profile

Scopus

Education

Li Lanfeng completed his undergraduate studies in Hydrology and Water Resources Engineering at Changjiang University in 2017. He pursued a Master’s degree in Environmental Engineering at China University of Geosciences (Wuhan) from 2017 to 2020. During his master’s, Li focused on water pollution control and resource recovery. He is currently a PhD candidate in Environmental Science and Engineering at the same university, where his research primarily concentrates on industrial wastewater treatment, organic matter degradation mechanisms, and resource recovery technologies. His academic journey reflects his deep commitment to advancing environmental sustainability, with a particular focus on addressing complex industrial wastewater challenges. His education, combined with practical experience in large-scale engineering projects, has equipped him with the skills necessary to drive innovation and contribute significantly to global environmental solutions.

Experience

Li Lanfeng has gained extensive research experience through his involvement in numerous significant projects. He actively contributes to the National Key R&D Program focusing on hazardous waste liquid recovery and purification technologies in the integrated circuit industry. Additionally, he participates in the Chinese Academy of Sciences’ strategic technology initiatives, such as the resource utilization of lithium ores. His expertise extends to key areas, including the recovery of fluoride from industrial wastewater and sludge dewatering for municipal waste management. Notably, Li’s contributions to the development and application of fluoride wastewater recovery technologies have successfully been implemented in Zhejiang’s photovoltaic industry, leading to the completion of two 10,000-ton projects. He is also part of collaborative efforts to improve agricultural sustainability through low-carbon livestock farming and integrated agricultural ecosystems in the middle Yangtze River region. His contributions to both research and practical application continue to shape the future of environmental engineering.

Awards and Honors

Li Lanfeng’s academic excellence and innovation have been recognized with numerous prestigious awards. In 2023, he was awarded the Hubei Provincial Science and Technology Progress Award (Second Prize) as a key contributor to his research. He was also honored with the China Education Ministry’s National Graduate Scholarship in 2019, recognizing his outstanding achievements during his graduate studies. In addition, he received the “Outstanding Master’s Thesis” award from the China University of Geosciences (Wuhan) in 2020. Li’s dedication to his academic work is further demonstrated by his receipt of the university’s prestigious Doctoral Academic First-Class Scholarship for the 2022-2024 period. These awards highlight Li’s commitment to advancing environmental science and engineering, particularly in the areas of wastewater treatment, resource recovery, and sustainability.

Research Focus

Li Lanfeng’s research primarily focuses on industrial wastewater treatment, resource recovery, and sludge utilization. His work delves into the mechanisms of organic matter degradation during wastewater treatment processes, with an emphasis on industrial wastewater containing valuable components. One of his key areas of research is the recovery of fluoride from wastewater in industries such as photovoltaic manufacturing, where he has successfully developed and applied resource recovery technologies. Li is also dedicated to the utilization of municipal sludge, focusing on its dewatering, conditioning, and conversion into valuable by-products. His research extends to sustainable agricultural development, particularly in low-carbon farming practices in the middle Yangtze River region. Through his multidisciplinary approach, Li seeks to advance environmental sustainability while developing practical solutions to the pressing challenges of industrial pollution and resource management.

Publication Top Notes

  1. Lanfeng Li, Niannian Sun, Siwei Peng, et al. (2024). Molecular insights into the degradation of organic matter from secondary swine wastewater effluent: A comparative study of advanced oxidation processes. Chemical Engineering Journal, 500: 156761.
  2. Lanfeng Li, Jing Ai, Hang He, et al. (2024). Molecular-level insights into the transformation and degradation pathways of dissolved organic matter during full-scale swine wastewater treatment. Science of the Total Environment, 909, 168604.
  3. Lanfeng Li, Jing Ai, Weijun Zhang, et al. (2020). Relationship between the physicochemical properties of sludge-based carbons and the adsorption capacity of dissolved organic matter in advanced wastewater treatment: effects of chemical conditioning. Chemosphere, 243, 125333.
  4. Lanfeng Li, XingminFu, Jing Ai, et al. (2019). Process parameters study and organic evolution of old landfill leachate treatment using photo-Fenton-like systems: Cu2+ vs Fe2+ as catalysts. Separation and Purification Technology, 211, 972-982.
  5. Peng Su, Lanfeng Li*, Hao Zhou, et al. (2024). Environmental and economic sustainability of the novel photovoltaic industrial wastewater treatment systems from life cycle perspective. Environmental Research, in revision.

 

 

 

Yancai Yao – water pollution control – Women Researcher Award

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Yancai Yao - water pollution control - Women Researcher Award

Shanghai Jiao Tong University - China

AUTHOR PROFILE

GOOGLE SCHOLAR

EDUCATION AND WORK EXPERIENCE

Yancai Yao is an Associate Professor at the School of Environmental Science and Engineering at Shanghai Jiao Tong University since January 2023. She previously held the position of Assistant Professor in the same department from April 2021 to December 2022. From June 2019 to April 2021, she was a postdoctoral researcher at the University of Science and Technology of China, where she also completed her PhD in Chemistry from September 2014 to June 2019. She earned her bachelor’s degree from Shanxi University, School of Chemistry and Chemical Engineering, in July 2014.

RESEARCH FIELDS

Prof. Yao's research spans Environmental Electrochemistry, Environmental Functional Materials, and Water Pollution Control. Her work is dedicated to developing advanced materials and technologies to address critical environmental challenges, particularly in the areas of pollution control and sustainable water treatment solutions.

PROJECTS

Prof. Yao has led and participated in numerous significant research projects, including the National Natural Science Foundation project (22102100) from 2022 to 2024 with a funding of 300,000 RMB. She is also involved in the National Key Research and Development Programs of China, including projects 2022YFA1205602 (2022-2027) and 2021YFA1201701 (2021-2026), with substantial funding allocations. Additionally, she has been awarded the Natural Science Foundation of Shanghai (22ZR1431700) and several other prestigious grants.

AWARDS AND ACADEMIC SERVICES

Prof. Yao's academic excellence has been recognized with various awards and honors. In 2024, she joined the Young Editorial Board of National Science Open and Environmental Science and Technology and EcoEnergy. She received the Excellent Report Award at the 7th National Water Treatment and Recycling Academic Conference in 2023. She serves on the editorial board of Colloid and Surface Science and was honored with the "100 Outstanding Doctoral Theses" by the Chinese Academy of Sciences in 2020. Her early career was marked by the Chinese Academy of Sciences President's Award and being named an Outstanding Graduate in 2019.

PRESENTATIVE PUBLICATIONS

Prof. Yao has published extensively in high-impact journals. Notable publications include a cover paper in Nature Catalysis on engineering the electronic structure of single atom Ru sites for water oxidation electrocatalysis, and a highly cited paper in the Journal of the American Chemical Society on charge transfer boosting the hydrogen evolution reaction. Her research has been featured in top-tier journals such as Nature Communications, Angewandte Chemie International Edition, Advanced Materials, and Environmental Science & Technology, showcasing her significant contributions to the field.

NOTABLE PUBLICATION

Engineering the electronic structure of single atom Ru sites via compressive strain boosts acidic water oxidation electrocatalysis 2022 (853)

Single atom Ru monolithic electrode for efficient chlorine evolution and nitrate reduction 2022 (83)

Renewable energy driven electroreduction nitrate to ammonia and in-situ ammonia recovery via a flow-through coupled device 2023 (22)

Electrochemical nitrate reduction to ammonia on copper-based materials for nitrate-containing wastewater treatment 2022 (19)

One-stop rapid decomplexation and copper capture of Cu (II)-EDTA with nanoscale zero valent iron 2023 (12)

Ebtisam A. Alabdulqader – Air Pollution Control – Best Researcher Award

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Ebtisam A. Alabdulqader - Air Pollution Control - Best Researcher Award

Kind Saud University - Saudi Arabia

AUTHOR PROFILE

Google Scholar

EARLY ACADEMIC PURSUITS

Dr. Ebtisam A. Alabdulqader embarked on her academic journey with a diverse range of certifications and training programs, including Bioethics, User Experience Specialist, Good Clinical Practice, Cryptography, and Database Administration. These foundational experiences laid the groundwork for her future endeavors in information technology and academia.

PROFESSIONAL ENDEAVORS

Alabdulqader's professional career spans various roles, including Vice Director of Digital Innovation Unit at the Entrepreneurship Institute and Assistant Professor in the Information Technology Department at King Saud University. Her leadership roles in academic committees and community organizations underscore her commitment to advancing education and research in her field.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Alabdulqader's research interests encompass Human-Computer Interaction, Usability, User Experience, Social Computing, Computer Supported Cooperative Work, Interaction Design, and Design Thinking & Innovation. Through her work, she strives to address pressing issues such as air pollution control by leveraging technology and innovative approaches.

IMPACT AND INFLUENCE

Alabdulqader's contributions extend beyond her research to include active participation in scientific and academic activities. As a program committee member for various ACM and non-ACM research venues, she has helped shape the discourse in her field. Her involvement in workshops, seminars, and panels reflects her dedication to fostering diversity, inclusion, and excellence in academia.

ACADEMIC CITATIONS

Dr. Alabdulqader's research and scholarly activities have garnered recognition, reflected in awards such as the CCIS Appreciation Award and Best Lecturer Award. Her work has been cited as exemplary in promoting research and publications within the HCI Research Group at King Saud University.

LEGACY AND FUTURE CONTRIBUTIONS

As a distinguished academic and researcher, Dr. Ebtisam A. Alabdulqader's legacy is defined by her unwavering commitment to excellence, innovation, and social impact. Her future contributions are poised to further advance knowledge and address societal challenges, including air pollution control, through interdisciplinary collaboration and cutting-edge research initiatives.

NOTABLE PUBLICATION

IoT based smart framework to predict air quality in congested traffic areas using SV-CNN ensemble and KNN imputation model

Re-articulating North-South Collaborations in HCI 2023 (1)

Understanding the Therapeutic Coaching Needs of Mothers of Children with Cerebral Palsy 2022 (4)

Feminist voices about ecological issues in HCI 2022 (18)

IslamicHCI: Designing with and within Muslim Populations 2020 (31)