Susanna Mwinkum Tantuoyir | Water Resource Management | Women Researcher Award

Posted on by Civil Engineering Awards

Women Researcher Award

Susanna Mwinkum Tantuoyir
Affiliation Department of Environment and Resource Studies
Country Ghana
Scopus ID 59502268400
Documents 2
Citations 5
h-index 1
Subject Area Water Resource Management
Event Global Civil Engineering Awards
ORCID 0009-0004-0796-8505

Susanna Mwinkum Tantuoyir is affiliated with the Department of Environment and Resource Studies in Ghana and is recognized for scholarly contributions associated with water resource management, environmental sustainability, and resource-related scientific studies.[1] Her academic profile demonstrates participation in internationally indexed scientific publications and interdisciplinary environmental research activities relevant to sustainable development and water systems management.[2]

Abstract

This article presents an academic recognition overview of Susanna Mwinkum Tantuoyir and her scholarly engagement within the field of water resource management and environmental studies. The profile reflects indexed research publications, citation visibility, and participation in scientific investigations associated with environmental sustainability and resource management.[1] The article further evaluates research contributions, publication visibility, and scholarly relevance within interdisciplinary environmental science and engineering-oriented studies.

Keywords

Water Resource Management; Environmental Studies; Sustainability Research; Scientific Publications; Citation Analysis; Resource Conservation; Environmental Engineering; Academic Recognition; Scopus Profile; Sustainable Development.

Introduction

Environmental and water resource management research plays an important role in sustainable development, ecosystem protection, and the long-term management of natural resources. Academic recognition within these disciplines frequently considers publication quality, research dissemination, interdisciplinary collaboration, and citation visibility.[3] Susanna Mwinkum Tantuoyir’s scholarly activities demonstrate participation in internationally indexed scientific communication associated with environmental and water-related research fields.[1]

Research Profile

According to indexed academic records, Susanna Mwinkum Tantuoyir has contributed to scientific publications associated with environmental and resource studies, with measurable citation activity documented within international research databases.[1] The research profile includes publication records relevant to sustainability, environmental management, and water resource studies. scholars engaged in environmental research frequently contribute to interdisciplinary scientific investigations involving resource conservation, ecosystem management,

Research Contributions

The available research profile indicates scholarly contributions related to environmental sustainability and water resource management. Research within these domains supports improved understanding of environmental systems, resource allocation, and sustainable management practices across local and global contexts.[3] Environmental research commonly requires interdisciplinary integration involving ecological analysis, policy assessment, sustainability science, and resource planning methodologies.

Publications

The indexed publication portfolio associated with Susanna Mwinkum Tantuoyir includes scholarly works documented in internationally recognized databases. Publication activity serves as a measurable indicator of scientific engagement, collaborative participation, and contribution to environmental and sustainability-oriented academic research.[1] Research publications within environmental and water resource management disciplines frequently contribute to broader scientific understanding of sustainability challenges, ecosystem conservation, and evidence-based environmental policy development.

Research Impact

Citation indicators and publication visibility provide measurable evidence of scholarly engagement and scientific dissemination. The citation profile associated with Susanna Mwinkum Tantuoyir demonstrates academic visibility within environmental and resource management research communities.[1] Research impact within water resource management extends beyond citation metrics and contributes to sustainable planning, environmental assessment, ecological protection, and resource management frameworks.[3]

Award Suitability

Based on the available scholarly indicators, Susanna Mwinkum Tantuoyir demonstrates characteristics commonly associated with professional academic recognition programs, including indexed publication activity, interdisciplinary environmental research engagement, and measurable scholarly visibility within water resource management studies.Women researcher recognition frameworks generally emphasize scientific contribution, sustainability-oriented research, publication dissemination, and participation in interdisciplinary academic development. 0

Conclusion

Susanna Mwinkum Tantuoyir’s academic profile reflects participation in environmental and water resource management research through indexed scientific publications and scholarly dissemination. The documented research metrics, institutional affiliation, and publication visibility indicate measurable academic engagement within sustainability-oriented scientific disciplines.[1] The research profile demonstrates alignment with professional academic recognition standards associated with environmental studies and sustainable resource management research.

References

      1. Elsevier. (n.d.). Scopus author details: Susanna Mwinkum Tantuoyir, Author ID 59502268400. Scopus.
        https://www.scopus.com/authid/detail.uri?authorId=59502268400
      2. ORCID. (n.d.). ORCID profile record for Susanna Mwinkum Tantuoyir.
        https://orcid.org/0009-0004-0796-8505
      3. Tantuoyir, S. M., Muluneh, A., & Danbara, T. T. (2025). Land suitability evaluation using GIS and multicriteria decision analysis for cashew cultivation in the Abaya-Chamo Watershed, Ethiopia. Smart Agricultural Technology, 10, 100744.
        https://doi.org/10.1016/j.atech.2025.100744
      4. Tantuoyir, S. M. (2026). Ecosystem-based adaptation to climate change in the savanna ecological zone of Ghana: A systematic review. Nature-Based Solutions, 100329.
        https://doi.org/10.1016/j.nbsj.2026.100329
      5. Tantuoyir, S. M. (2025). Seasonality of Malaria Disease Infection in Ghana: A review. Journal of Nature Based Solutions and Innovations, 1(2), 24-35.
        https://doi.org/10.56556/jnbsi.v1i2.24-35
      6. Tantuoyir, S. M., & Issahaque, H. (2025). Land suitability evaluation using GIS and multicriteria decision analysis for cashew cultivation, Ethiopia: A systematic review. Journal of Nature Based Solutions and Innovations, 1(2), 1-23.
        https://doi.org/10.56556/jnbsi.v1i2.1-23

Shaohua Wu | Water and Wastewater Treatment | Research Excellence Award

Posted on by Civil Engineering Awards

Assoc. Prof. Dr. Shaohua Wu | Water and Wastewater Treatment | Research Excellence Award

Associate Professor | Guangdong University of Petrochemical Technology | China

Shaohua Wu is an Associate Professor at Guangdong University of Petrochemical Technology, China, specializing in environmental science and engineering with a focus on wastewater treatment and advanced oxidation processes. He serves as a Master’s Supervisor, Deputy Director of an engineering research center for organic pollution control, and holds academic leadership roles advancing interdisciplinary environmental research. His research addresses sustainable water treatment technologies, environmental functional materials, and pollution risk assessment, with influential publications in leading journals including Nature, Science of the Total Environment, Environmental Pollution, and Ecological Indicators. He has led multiple competitive research projects, contributed to national technical standards, authored an academic monograph, and holds invention patents. His professional recognition includes major provincial and national science awards, editorial and peer-review service for high-impact journals, and active engagement in international scientific communities. His research impact includes 6,205 citations, 71 publications, and an h-index of 43.

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Featured Publications

Sneha Prakash Naik | Water and Wastewater Treatment | Research Excellence Award

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Ms. Sneha Prakash Naik | Water and Wastewater Treatment | Research Excellence Award

Research Scholar | KLE Technological University | India

Sneha Prakash Naik is a Research Scholar at the Centre for Energy and Environment, School of Advanced Sciences, KLE Technological University, with expertise in environmental biotechnology and bioelectrochemical systems. She has been actively involved in interdisciplinary research focused on sustainable energy recovery and waste biomass valorization, contributing to projects on microbial fuel cells, microbial electrolysis, dark fermentative hydrogen production, biomethane generation, and microbial electrosynthesis under the mentorship of senior faculty. Her research centers on biohydrogen, bioelectricity, CO2 sequestration, and bioremediation through advanced microbial and electrochemical platforms, resulting in publications and book chapters in reputed international journals. She has demonstrated leadership through conference presentations, collaborative research initiatives, and international research training programs. Her academic excellence has been recognized through competitive research presentation awards, merit-based distinctions, and participation in specialized workshops and internships in sustainable energy and biotechnology, with a research impact reflected by 11 citations across 10 documents, 4 publications, and an h-index of 2.

                              Citation Metrics (Scopus)

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  View ORCID Profile

Featured Publications

Lanfeng Li | Industrial Wastewater Treatment | Best Researcher Award

Posted on by Civil Engineering Awards

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.