Yonghong Hao | Environmental Science | Best Researcher Award

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Prof. Yonghong Hao | Environmental Science | Best Researcher Award

Professor Yonghong Hao is a distinguished researcher in hydrology and water resources, currently serving at the Tianjin Key Laboratory of Water Resources and Environment, Tianjin Normal University. With extensive experience in groundwater hydrology, he has made significant contributions to understanding spring discharge dynamics, climate change impacts, and hydrogeological modeling. His research integrates advanced methodologies such as deep learning, hydraulic tomography, and wavelet analysis to improve water resource management. As an Associate Editor of the Journal of Hydrology, he plays a vital role in advancing scientific discourse in his field. His extensive publication record in high-impact journals and numerous research grants highlight his academic excellence. Over the years, his work has received national and international recognition, earning prestigious awards and honors.

Professional Profile

Education

Professor Hao earned his Bachelor of Science degree in Farmland and Water Conservancy from Wuhan University of Water Resources and Electric Power in 1985. He later pursued a Master of Science in Water Resources from the same institution, graduating in 1991. His academic training laid a strong foundation in hydrology, groundwater management, and environmental water systems. His education provided him with expertise in mathematical modeling, hydrogeological assessments, and climate-related hydrological studies, which have significantly influenced his research career.

Professional Experience

Professor Hao has built a remarkable career in hydrological research and academia. He is a professor at Tianjin Normal University, where he works at the Key Laboratory of Water Resources and Environment. His role involves mentoring students, conducting advanced research, and leading projects in groundwater hydrology. He also serves as an Associate Editor for the Journal of Hydrology, contributing to the peer-review process and shaping the publication of groundbreaking research. His professional journey includes leading numerous national and international research projects on groundwater sustainability, climate impact assessments, and hydrological modeling.

Research Interests

Professor Hao’s research focuses on groundwater hydrology, hydrogeological modeling, and the impact of climate change on water resources. He is particularly interested in developing mathematical models to simulate hydrological processes, identifying human-induced and natural influences on spring discharge, and applying machine learning techniques to enhance water resource predictions. His studies explore the use of hydraulic tomography for aquifer characterization, extreme value statistics for hydrological assessments, and satellite-based monitoring of groundwater storage variations. His work aims to develop sustainable water management solutions in the face of environmental challenges.

Research Skills

With extensive experience in hydrological research, Professor Hao possesses strong analytical and modeling skills. He is proficient in grey system modeling, wavelet analysis, hydraulic tomography, and machine learning applications in hydrology. His expertise extends to numerical simulations, geostatistical methods, and remote sensing for groundwater assessment. He has demonstrated a deep understanding of extreme climate impacts on water systems and has successfully implemented statistical techniques to quantify these changes. His ability to integrate advanced computational tools into hydrological studies enhances the accuracy and efficiency of water resource management strategies.

Awards and Honors

Professor Hao has received several prestigious awards for his contributions to hydrological research. In 2020, he was honored with the Tianjin Natural Science Third Prize for his work on the impacts of climate change and human activities on karst spring discharge in Northern China. In 2024, he received the Award for Outstanding Contributions to Taiwan’s Society of Groundwater Resources and Hydrogeology, recognizing his role in advancing groundwater research. These accolades highlight his commitment to scientific excellence and the practical application of his research in environmental sustainability.

Conclusion

Professor Yonghong Hao is a leading figure in groundwater hydrology, known for his innovative research and contributions to environmental sustainability. His expertise in hydrological modeling, climate change assessments, and groundwater management has earned him widespread recognition. His dedication to advancing knowledge through extensive publications, research grants, and academic leadership demonstrates his impact on the field. With a strong foundation in research methodologies and a commitment to solving real-world water challenges, Professor Hao is a well-deserving candidate for prestigious research awards. His work continues to shape the future of water resource management and environmental conservation.

Publications Top Notes

  1. Title: Investigating hydrological processes using explainable deep-learning models
    Authors: W. Liu, Wenqiang; H. Hao, Huiqing; X. Song, Xiehui; X. Huang, Xin; X. Yan, Xiping
    Year: 2025

  2. Title: Insight into glacio-hydrological processes using explainable machine-learning (XAI) models
    Authors: H. Hao, Huiqing; Y. Hao, Yonghong; Z. Li, Zhongqin; Q. Liu, Qi; T.J. Yeh, Tianchyi Jim
    Year: 2024
    Citations: 5

  3. Title: Analysis of the spatiotemporal variation of groundwater storage in Ordos Basin based on GRACE gravity satellite data
    Authors: J. Zhao, Juan; G. Li, Geng; Z. Zhu, Ziyue; Q. Liu, Qi; T.J. Yeh, Tianchyi Jim
    Year: 2024
    Citations: 6

  4. Title: The impact of heterogeneity at various spatial locations on dune-induced hyporheic exchange
    Authors: X. Su, Xiaoru; T.J. Yeh, Tianchyi Jim; K. Li, Kuangjia; W. Wang, Wenke; Y. Hao, Yonghong
    Year: 2024
    Citations: 1

  5. Title: Spring Flow Prediction Model Based on VMD and Attention Mechanism LSTM
    Authors: J. Wang, Jiayuan; B. Zhang, Baoju; Y. Hao, Yonghong; C. Guo, Cong; Y. Zhu, Yuhao

  6. Title: Simulation of spring discharge using graph neural networks at Niangziguan Springs, China
    Authors: Y. Gai, Yujing; M. Wang, Mingyang; Y. Wu, Yue; T.J. Yeh, Tianchyi Jim; Y. Hao, Yonghong
    Year: 2023
    Citations: 8

  7. Title: Analysis of unsaturated-saturated flow induced by a vadose zone well injection
    Authors: C. Qi, Cuiting; H. Zhan, Hongbin; Y. Hao, Yonghong
    Year: 2023
    Citations: 1

  8. Title: Quantifying the Effect of Driving Factors on Spring Discharge in an Industrialized Karst Watershed
    Authors: X. Gu, Xiufen; S. Jamshidi, Sajad; J. Qian, Jiazhong; H. Sun, Hongguang; D.K. Niyogi, Dev K.
    Year: 2023

  9. Title: Boundary-to-solution mapping for groundwater flows in a Toth basin
    Authors: J. Sun, Jingwei; J. Li, Jun; Y. Hao, Yonghong; Y. Sun, Yi; Q. Wang, Qi
    Year: 2023
    Citations: 1

  10. Title: Calibrating a model of depth to water table using Fourier series and Simpson numerical integration
    Authors: K. Wang, Kaiyan; J. Li, Jun; W. Wang, Wenke; T.J. Yeh, Tianchyi Jim; Y. Hao, Yonghong
    Year: 2023
    Citations: 1

 

Jose Refugio Parga Torres | Environmental Science | Innovation Excellence Award

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Prof. Jose Refugio Parga Torres | Environmental Science | Innovation Excellence Award

Professor at TNM-ITS MEXICO, Mexico

Dr. José Refugio Parga Torres is an accomplished academic and researcher in the field of engineering, particularly in the areas of electrical and systems engineering. He holds significant experience in academia and industry, blending both practical and theoretical knowledge. Dr. Parga Torres has a strong commitment to advancing technology and improving systems through research and development, contributing to innovations in industrial automation and control systems. His work has been influential in various research initiatives, especially those focusing on optimizing systems for greater efficiency and sustainability. Known for his multidisciplinary approach, Dr. Parga Torres has collaborated with international researchers, applying his expertise in areas like smart systems, electrical engineering, and automation to solve real-world problems. He continues to mentor young professionals and contributes to the academic community through teaching, research, and publications.

Professional Profile

Education:

Dr. Parga Torres completed his undergraduate studies in Electrical Engineering and pursued a Master’s degree in Systems Engineering, which laid the foundation for his expertise in system optimization and automation. He later earned a Ph.D. in Electrical and Systems Engineering, where his dissertation focused on the development of algorithms and control systems. His educational background reflects a deep commitment to understanding the core aspects of electrical systems and technology. Dr. Parga Torres continuously seeks to improve his knowledge through post-doctoral research and participation in international conferences, further establishing himself as an expert in his field.

Professional Experience:

Dr. José Refugio Parga Torres has extensive professional experience spanning over two decades in both academia and industry. He has held faculty positions in prestigious universities, teaching courses related to electrical systems, automation, and control engineering. Dr. Parga Torres has also worked with several organizations, applying his research and engineering expertise to improve industrial systems. His roles have included positions as a senior research scientist, project manager, and consultant, where he has contributed to the design and implementation of various automation systems. His professional journey has provided him with valuable insights into bridging the gap between academic research and practical application.

Research Interests:

Dr. Parga Torres’ primary research interests lie in electrical systems, automation, and industrial control systems. He has focused on developing intelligent systems that enhance the efficiency and sustainability of various industrial applications. His work extends to robotics, smart grids, and renewable energy systems, where he investigates how technology can optimize energy use and system performance. His research explores the integration of artificial intelligence into control systems to improve their adaptability and performance. Furthermore, he is interested in studying the dynamics of complex systems and their applications to optimize manufacturing and automation processes.

Research Skills:

Dr. Parga Torres is proficient in a wide range of research skills, particularly in system optimization, algorithm development, and control system design. His expertise includes modeling, simulation, and the application of machine learning techniques to enhance system functionality. He has a strong command of software tools used in electrical and control engineering, such as MATLAB, Simulink, and LabVIEW. Dr. Parga Torres’ ability to design and implement practical solutions based on theoretical research has made him a valuable asset to various projects, especially those focusing on industrial applications and automation. His skills also encompass data analysis and the use of statistical methods for optimizing system performance.

Awards and Honors:

Throughout his career, Dr. José Refugio Parga Torres has received several accolades for his contributions to the field of electrical and systems engineering. He has been recognized for his excellence in research and teaching, receiving awards from academic institutions and professional organizations. His contributions to the development of advanced automation systems have been acknowledged through prestigious honors, including invitations to speak at international conferences and symposiums. Dr. Parga Torres has also received recognition for his involvement in collaborative research projects that have led to impactful technological innovations in the industry.

Conclusion:

Dr. José Refugio Parga Torres is a highly skilled researcher and educator whose work has had a lasting impact on the field of electrical and systems engineering. His commitment to advancing technological solutions, especially in the realm of industrial automation and control systems, has earned him a reputation as an expert in his field. Through his research, teaching, and professional endeavors, Dr. Parga Torres continues to contribute significantly to the development of more efficient and sustainable systems. His ability to bridge theoretical research with practical application sets him apart as a leader in engineering innovation.

Publication Top Notes

  • Title: Electrocoagulation (EC) — science and applications
    • Authors: MYA Mollah, R Schennach, JR Parga, DL Cocke
    • Journal: Journal of Hazardous Materials
    • Volume (Issue): 84 (1), 29-41
    • Citations: 2325
    • Year: 2001
  • Title: Fundamentals, present and future perspectives of electrocoagulation
    • Authors: MYA Mollah, P Morkovsky, JAG Gomes, M Kesmez, J Parga, DL Cocke
    • Journal: Journal of Hazardous Materials
    • Volume (Issue): 114 (1-3), 199-210
    • Citations: 1876
    • Year: 2004
  • Title: Arsenic removal by electrocoagulation using combined Al–Fe electrode system and characterization of products
    • Authors: JAG Gomes, P Daida, M Kesmez, M Weir, H Moreno, JR Parga, G Irwin, …
    • Journal: Journal of Hazardous Materials
    • Volume (Issue): 139 (2), 220-231
    • Citations: 532
    • Year: 2007
  • Title: Electrocoagulation mechanism for COD removal
    • Authors: HA Moreno-Casillas, DL Cocke, JAG Gomes, P Morkovsky, JR Parga, …
    • Journal: Separation and Purification Technology
    • Volume (Issue): 56 (2), 204-211
    • Citations: 462
    • Year: 2007
  • Title: Arsenic removal via electrocoagulation from heavy metal contaminated groundwater in La Comarca Lagunera, México
    • Authors: JR Parga, DL Cocke, JL Valenzuela, JL Valenzuela, JA Gomes, …
    • Journal: Journal of Hazardous Materials
    • Volume (Issue): 124 (1-3), 247-254
    • Citations: 423
    • Year: 2005
  • Title: Electrochemical Reactions for Electrocoagulation Using Iron Electrodes
    • Authors: HA Moreno C, DL Cocke, JAG Gomes, P Morkovsky, JR Parga, …
    • Journal: Industrial Chemical Engineering Research
    • Volume (Issue): 48 (4), 2275-2282
    • Citations: 220
    • Year: 2009
  • Title: Destruction of Cyanide waste solutions using chlorine dioxide, ozone, and titania sol
    • Authors: JR Parga, SS Shukla, FR Carrillo-Pedroza
    • Journal: Waste Management
    • Volume (Issue): 23 (1), 183-191
    • Citations: 205
    • Year: 2003
  • Title: Characterization of Electrocoagulation for Removal of Chromium and Arsenic
    • Authors: JR Parga, DL Cocke, V Valverde, JAG Gomes, M Kesmez, H Moreno, …
    • Journal: Chemical Engineering Technology
    • Volume (Issue): 28 (5), 605-612
    • Citations: 163
    • Year: 2005
  • Title: An infrared spectroscopic examination of cement-based solidification/stabilization systems—Portland types V and IP with zinc
    • Authors: M Yousuf, A Mollah, JR Parga, DL Cocke
    • Journal: Journal of Environmental Science & Health Part A
    • Volume (Issue): 27 (6), 1503-1519
    • Citations: 133
    • Year: 1992
  • Title: The low-temperature thermal oxidation of copper, Cu3O2, and its influence on past and future studies
    • Authors: DL Cocke, R Schennach, MA Hossain, DE Mencer, H McWhinney, …
    • Journal: Vacuum
    • Volume (Issue): 79 (1-2), 71-83
    • Citations: 89
    • Year: 2005

 

Jianwu Yan | Earth | Best Innovation Award

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Mr. Jianwu Yan | Earth | Best Innovation Award

Department Chair at Shaanxi Normal University, China

Jianwu Yan, Ph.D., is an Associate Professor at the School of Geography and Tourism at Shaanxi Normal University in Xi’an, China. With a robust academic background and extensive research experience, he specializes in Cartography and Geographical Information Systems (GIS). His contributions to the field are evident through his numerous publications in prestigious journals, showcasing his expertise in understanding the interactions between climate change, human activities, and vegetation dynamics. Dr. Yan is known for leading significant research projects funded by national and international organizations, focusing on environmental issues in the Loess Plateau and beyond. His work has implications for sustainable land management and ecological restoration, making him a vital contributor to geographical and environmental sciences.

Professional Profile

Education

Dr. Jianwu Yan earned his Ph.D. in Cartography and Geographical Information Systems from the Institute of Geographic Sciences and Natural Resources Research (IGSNRR) at the Chinese Academy of Sciences in 2014. Prior to that, he completed his Master of Science and Bachelor of Science degrees in Pratacultural Science at Lanzhou University and Northwest A&F University, respectively. His comprehensive education provides him with a solid foundation in both theoretical knowledge and practical applications in geographical research. This academic journey reflects his commitment to advancing the field of geography and understanding complex environmental systems.

Professional Experience

Since December 2015, Dr. Jianwu Yan has been an Associate Professor at Shaanxi Normal University, where he has been instrumental in teaching and guiding students in geography and tourism. He previously served as a lecturer at the same institution from July 2014 to November 2015. Dr. Yan’s professional experience includes leading significant research projects focused on land surface processes and environmental changes. His expertise has contributed to the development of innovative methodologies for assessing and modeling ecological dynamics, particularly in arid and semi-arid regions of China. His roles have established him as a key figure in his department, driving academic excellence and research innovation.

Research Interests

Dr. Yan’s research interests encompass various aspects of geographical science, particularly the impacts of climate change and human activities on vegetation dynamics and land use. His work focuses on understanding the intricate relationships between natural environments and anthropogenic factors, especially in the context of the Loess Plateau in China. He employs advanced remote sensing techniques and geographic information systems to analyze environmental changes, assess ecosystem responses, and develop sustainable management strategies. Dr. Yan is also involved in studying soil moisture stratification and its effects on ecological processes, contributing to broader discussions on climate resilience and sustainable development in vulnerable regions.

Research Skills

Dr. Jianwu Yan possesses a diverse set of research skills essential for his work in geographical sciences. He is proficient in utilizing remote sensing technologies and GIS software for data collection and analysis, enabling him to model complex environmental interactions effectively. His expertise includes conducting field surveys, analyzing spatial data, and applying statistical methods to interpret research findings. Additionally, he has experience in project management, coordinating multi-disciplinary teams for various research initiatives. Dr. Yan’s strong analytical skills and proficiency in scientific writing have resulted in numerous publications in reputable journals, enhancing his reputation as a leading researcher in his field.

Awards and Honors

Throughout his academic career, Dr. Jianwu Yan has received several awards and honors in recognition of his contributions to geographical research and education. His work has been acknowledged by national funding agencies, which have supported his research projects on ecological processes and environmental management. His publications in high-impact journals reflect not only his research excellence but also his commitment to advancing knowledge in geographical sciences. Dr. Yan’s achievements in research and teaching have established him as a respected figure in his academic community, inspiring students and colleagues alike to pursue innovative research in geography and environmental science.

Conclusion

Jianwu Yan, Ph.D., is an exemplary researcher whose contributions to environmental science and geography have significant implications for understanding and addressing climate change challenges. His extensive publication record, leadership in research projects, and collaborative spirit make him a highly qualified candidate for the Best Researcher Award. By enhancing his international collaborations, public engagement, and mentorship, Dr. Yan can further amplify his impact in the scientific community and beyond. His innovative research not only advances academic knowledge but also holds promise for practical applications in environmental policy and management.

Publications Top Notes

  1. Potential impacts of land use and land cover change (LUCC) and climate change on evapotranspiration and gross primary productivity in the Haihe River Basin, China
  • Authors: Sun, S., Chen, B., Yan, J., Fu, P., Song, Z.
  • Year: 2024
  • Journal: Journal of Cleaner Production
  • Volume: 476
  • Article Number: 143729

2. Reductions in Forest Resilience: Unraveling the Decoupling Between Gross Primary Productivity and Photosynthetic Efficiency

  • Authors: Zhang, Y., Liu, X., Wang, L., Li, X., Xiao, J.
  • Year: 2024
  • Journal: Geophysical Research Letters
  • Volume: 51
  • Issue: 16
  • Article Number: e2024GL110148

3. Changes in soil organic carbon stocks of forestlands and grasslands on the Loess Plateau, 1980–2015

  • Authors: Li, G., Sun, S., Lu, N., Han, J., Wang, Y.
  • Year: 2023
  • Journal: Journal of Cleaner Production
  • Volume: 428
  • Article Number: 139463

4. Classification of Urban Agricultural Functional Regions and Their Carbon Effects at the County Level in the Pearl River Delta, China

  • Authors: Song, Z., Liu, F., Lv, W., Yan, J.
  • Year: 2023
  • Journal: Agriculture (Switzerland)
  • Volume: 13
  • Issue: 9
  • Article Number: 1734

5. Assessing the impacts of natural conditions and human activities on terrestrial water storage in Loess Plateau, China

  • Authors: Wang, C.-X., Yan, J.-W., Liang, W., Luo, Y.-Y., Wang, F.-J.
  • Year: 2023
  • Journal: Journal of Mountain Science
  • Volume: 20
  • Issue: 7
  • Pages: 1921–1939

6. Vegetation Growth Response and Trends after Water Deficit Exposure in the Loess Plateau, China

  • Authors: Luo, Y., Liang, W., Yan, J., Wang, C., Liang, X.
  • Year: 2023
  • Journal: Remote Sensing
  • Volume: 15
  • Issue: 10
  • Article Number: 2593

7. Urbanization does not endanger food security: Evidence from China’s Loess Plateau

  • Authors: Li, S., Ji, Q., Liang, W., Wang, Z., Li, Y.
  • Year: 2023
  • Journal: Science of the Total Environment
  • Volume: 871
  • Article Number: 162053

8. Quantifying spatiotemporal variations and driving factors of the energy budget in the Loess Plateau

  • Authors: Fen, G., Wei, L., Jianwu, Y., Zhao, J., Weibin, Z.
  • Year: 2023
  • Journal: International Journal of Climatology
  • Volume: 43
  • Issue: 5
  • Pages: 2062–2076

9. Decoupling relationship and driving effect between economic development and eco-environmental pressure in the Yellow River Basin

  • Authors: Li, S., Liang, W., Lü, Y., Yan, J., Lan, Z.
  • Year: 2023
  • Journal: Shengtai Xuebao
  • Volume: 43
  • Issue: 13
  • Pages: 5417–5431

10. Attribution analysis of vegetation change in the Yellow River Basin based on causal network

  • Authors: LAN, Z., LIANG, W., FU, B., YAN, J., JI, Q.
  • Year: 2022
  • Journal: Progress in Geography
  • Volume: 41
  • Issue: 12
  • Pages: 2342–2355

 

Outstanding Contribution to Environmental Science and Technology Award

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Introduction Outstanding Contribution to Environmental Science and Technology Award

Embark on a journey towards a sustainable future with the Outstanding Contribution to Environmental Science and Technology Award. This accolade celebrates visionaries at the forefront of environmental innovation, recognizing those whose contributions are shaping a greener, more sustainable world.

About the Award:

Open to individuals and teams, the Outstanding Contribution to Environmental Science and Technology Award welcomes participants of all ages committed to advancing the frontiers of environmental science and technology. Eligibility extends to those demonstrating a profound impact through research, innovation, or practical solutions.

Qualifications and Publications:

Candidates should showcase a significant history of contributions to environmental science and technology. While there are no age restrictions, qualifications may include relevant degrees, a robust publication record, and tangible evidence of driving positive change in the environmental sector.

Evaluation Criteria:

The evaluation process emphasizes the impact, originality, and scalability of the nominee's contributions. Judges will assess the significance of their work, looking for tangible outcomes that have advanced environmental science and technology on a broader scale.

Submission Guidelines:

Applicants are encouraged to submit a comprehensive biography, an abstract outlining their contributions, and supporting files that showcase the practical applications and results of their work. All submissions must adhere to specified guidelines for fair and thorough evaluation.

Recognition and Community Impact:

The Outstanding Contribution to Environmental Science and Technology Award not only honors individual accomplishments but also recognizes the broader impact on environmental communities. Winners become ambassadors for sustainable change, inspiring others to follow suit.

Biography, Abstract, and Supporting Files:

Craft a compelling biography narrating your journey in environmental science and technology. The abstract should succinctly convey the significance of your contributions, while supporting files provide a tangible view of the outcomes and applications of your work.

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