Behnaz Yahyaei | Sustainabile Construstion | Research Excellence Award

Published on by Agri Scientist

Research Excellence Award

Behnaz Yahyaei
Affiliation Kharazmi University
Country United Arab Emirates
Scopus ID 57216251833
Documents 7
Citations 114
h-index 5
Subject Area Sustainable Construction
Event Agri Scientist Awards

Behnaz Yahyaei is affiliated with Kharazmi University and is recognized for scholarly contributions associated with sustainable construction and interdisciplinary engineering research. Her academic profile demonstrates active participation in scientific publication, citation development, and research dissemination related to construction sustainability, environmental engineering, and applied scientific methodologies.[1] The indexed research profile further reflects measurable academic visibility and engagement within internationally recognized scholarly databases and professional scientific communities.[2]

Abstract

This article presents a structured academic recognition overview of Behnaz Yahyaei, whose scholarly activities are associated with sustainable construction and engineering-oriented scientific research. The research profile demonstrates indexed publication activity, citation visibility, and participation in internationally recognized scholarly databases.[1] The article further evaluates publication performance, interdisciplinary engineering relevance, and scientific contribution areas associated with sustainable construction methodologies and applied environmental research.

Keywords

Sustainable Construction; Environmental Engineering; Scientific Publications; Citation Analysis; Academic Recognition; Engineering Research; Sustainable Development; Scopus Profile; Construction Engineering; Applied Scientific Research.

Introduction

Academic recognition systems commonly evaluate researchers based on publication quality, scientific visibility, interdisciplinary impact, and technical engagement. Within sustainable construction and environmental engineering disciplines, scholarly research contributes significantly to infrastructure sustainability, environmental management, material optimization, and engineering innovation.[3] Behnaz Yahyaei’s scholarly profile reflects measurable participation in these academic areas through indexed publications and citation records available in international research databases.[1]

Professional scientific recognition programs frequently emphasize research dissemination, technical contribution, and academic consistency within applied engineering and sustainability-oriented scientific disciplines.

Research Profile

According to indexed academic records, Behnaz Yahyaei has authored or co-authored seven scientific documents with a cumulative citation count of one hundred and fourteen and an h-index value of five.[1] These metrics indicate active scholarly participation and measurable academic visibility within sustainability-focused engineering research. The research portfolio is primarily associated with sustainable construction, environmental analysis, and engineering-related scientific methodologies.

Researchers working in sustainability-oriented engineering institutions frequently contribute to interdisciplinary scientific development involving environmental systems, construction technologies, engineering materials, and applied research methodologies relevant to sustainable infrastructure advancement.

Research Contributions

The available scholarly profile suggests contributions associated with sustainable construction methodologies, environmental engineering systems, and interdisciplinary scientific analysis. Sustainable construction research plays an important role in infrastructure resilience, resource optimization, environmental sustainability, and engineering efficiency.[3]

Engineering research within sustainability-oriented scientific domains frequently requires multidisciplinary integration involving environmental science, construction engineering, technical modeling, and computational analysis. The publication activity associated with Behnaz Yahyaei reflects participation in peer-reviewed scientific dissemination and academic communication within applied engineering disciplines.[2]

Publications

The indexed publication portfolio associated with Behnaz Yahyaei includes scientific works documented in internationally recognized research databases. Publication activity represents an important indicator of scientific engagement, collaborative participation, and technical communication within sustainability-oriented engineering communities.[1]

The documented research output demonstrates involvement in sustainability-focused engineering investigations and environmentally relevant scientific methodologies contributing to broader academic and technical development.

Research Impact

Citation indicators and indexed publication visibility provide measurable evidence of academic engagement and scientific dissemination. The citation profile associated with Behnaz Yahyaei indicates that the published research has received scholarly attention within related engineering and sustainability-focused scientific communities.[1]

Research impact within sustainable construction and environmental engineering frequently extends beyond direct publication metrics and contributes to broader applications including sustainable infrastructure development, engineering design optimization, environmental assessment, and scientific innovation processes.[3] Indexed publications further support international academic collaboration and interdisciplinary scientific visibility across research institutions and engineering communities.

Award Suitability

Based on the available scholarly indicators, Behnaz Yahyaei demonstrates characteristics commonly associated with professional scientific recognition programs, including indexed publication activity, measurable citation performance, and subject specialization in sustainable construction and engineering-oriented scientific research. The integration of sustainability-focused research with engineering applications aligns with broader objectives related to scientific advancement and sustainable technological development.

Professional academic award frameworks generally emphasize innovation potential, scientific dissemination, technical contribution, and measurable scholarly engagement within engineering and environmental science disciplines. The documented publication and citation profile supports consideration under academic recognition categories associated with sustainable engineering and applied scientific excellence.

Conclusion

Behnaz Yahyaei’s academic profile reflects active participation in sustainable construction research and indexed scientific publication. The documented metrics, including publication count, citation visibility, and institutional affiliation, indicate measurable scholarly contribution within engineering-related scientific disciplines.[1] The research record demonstrates alignment with professional academic recognition standards associated with engineering excellence, sustainability-focused research, and interdisciplinary scientific contribution.

References

    1. Elsevier. (n.d.). Scopus author details: Behnaz Yahyaei, Author ID 57216251833. Scopus.
      https://www.scopus.com/authid/detail.uri?authorId=57216251833
    2. ORCID. (n.d.). ORCID profile record for Behnaz Yahyaei.
      https://orcid.org/0000-0002-3418-0412
    3. Yahyaei, B., Asadollahfardi, G., & Salehi, A. M. (2021). Workability, mechanical, and durability properties of self‐compacting concrete using the treated wastewater. Structural Concrete, 22, E997-E1008.
      https://doi.org/10.1002/suco.202000540
    4. Bahraman, M., Asadollahfardi, G., Salehi, A. M., & Yahyaei, B. (2021). Feasibility study of using wash water from ready mixed concrete plant and synthetic wastewater based on tap water with different total dissolved solid to produce self-compacting concrete. Journal of Building Engineering, 41, 102781.
      https://doi.org/10.1016/j.jobe.2021.102781
    5. Yahyaei, B., Asadollahfardi, G., & Salehi, A. M. (2022). Study of using micro‐nano bubble to improve workability and durability of self‐compact concrete. Structural Concrete, 23(1), 579-592.
      https://doi.org/10.1002/suco.202100392

Hoda Ganji | Water Engineering | Best Researcher Award

Published on by Agri Scientist

Dr. Hoda Ganji | Water Engineering | Best Researcher Award

Ferdowsi University of Mashhad - Iran

Professional Profile

Scopus
Google Scholar

Summary

Dr. Hoda Ganji is a water engineering researcher specializing in sustainable water treatment technologies. She holds a PhD in Water Engineering from Ferdowsi University of Mashhad, Iran, and has made significant contributions to the field through the development of green, plant-based adsorbents for heavy metal removal. Dr. Ganji is recognized for her hands-on research, first-author publications, and growing impact in environmental water remediation.

Educational Details

Dr. Ganji completed her Master’s degree in Water Engineering at Sari Agricultural Sciences and Natural Resources University (SANRU), Sari, Iran. She then earned her PhD in Water Engineering from Ferdowsi University of Mashhad, where her doctoral work focused on the use of eco-friendly adsorbents like pomegranate seed waste (PSW) and pistachio hull waste (PHW) to remove heavy metals from contaminated water sources.

Professional Experience

With a background deeply rooted in research, Dr. Ganji has led and co-led multiple applied and theoretical projects addressing water pollution and soil remediation. She has been involved in five consultancy and industry-sponsored projects and actively collaborates on emerging remediation techniques such as PFAS removal from soil. Her work has been presented at major international conferences across Asia and Europe, including in Germany and Thailand. She has demonstrated leadership in all stages of research, from conceptualization to final publication.

Research Interest

Her core research interests include water treatment, green and sustainable adsorbents, adsorption kinetics, heavy metals removal, sand filtration systems, soil remediation technologies, and the application of modified natural materials in environmental engineering. Dr. Ganji is especially focused on using agricultural waste for water purification, thereby combining waste valorization with pollution mitigation.

Author Metrics

Dr. Ganji has published multiple articles in prestigious journals indexed in SCI and Scopus, including Environmental Research (Impact Factor 7.3) and the Journal of Water Process Engineering (Impact Factor 6.3). Her current citation index stands at 27, and she has presented her work at international conferences with rigorous academic standards. In all her publications, she is the first author and has contributed extensively to every stage of research and writing.

Awards and Honors

Dr. Ganji's research excellence is reflected in her journal acceptances, international presentations, and selection of her work for publication in high-impact scientific platforms. Her recent research projects and conference presentations position her as a strong contender for the Best Researcher Award, recognizing her innovation, scientific contribution, and commitment to environmental sustainability.

Publication Top Notes

1. Efficient Adsorption of Lead and Copper from Water by Modification of Sand Filter with a Green Plant-Based Adsorbent: Adsorption Kinetics and Regeneration

  • Authors: H. Ganji, M. Taghavijeloudar

  • Journal: Environmental Research

  • Year: 2024

  • Citations: 17

  • Summary: This high-impact study investigates the use of plant-based adsorbents to modify sand filters for efficient removal of lead and copper from water. It explores adsorption kinetics and evaluates regeneration cycles, offering a green and regenerative solution to heavy metal contamination.

2. A Sustainable Approach for Heavy Metals Removal from Surface Water by Sand Column Amendment with Bio-Adsorbent of Pistachio Hull Waste (PHW): Batch and Fixed-Bed Column Adsorption

  • Authors: H. Ganji, M. Taghavijeloudar, S.R. Khodashenas

  • Journal: Journal of Water Process Engineering

  • Year: 2024

  • Citations: 8

  • Summary: This research provides a cost-effective, eco-friendly solution for removing heavy metals from surface water using pistachio hull waste in both batch and fixed-bed column settings. It highlights performance efficacy and scalability potential for field applications.

3. A Cost-Effective and Environmentally Friendly Approach for Pb (II) Removal from Water by Using a Novel Plant-Based Adsorbent

  • Authors: H. Ganji, S.R. Khodashenas, M. Taghavijeloudar

  • Conference: 8th International Conference on Research in Science & Engineering

  • Year: 2024

  • Citations: 1

  • Summary: Presented at a major international forum, this paper introduces an innovative plant-based adsorbent for removing Pb (II) from water. The study emphasizes low-cost, sustainable water treatment methods with potential for rural and resource-limited settings.

4. Modification of Rapid Sand Filtration by Activated Carbon Powder (ACP) for Heavy Metals (HMs) Adsorption: Case Study Babol River

  • Authors: H. Ganji, S.R. Khodashenas, M. Taghavijeloudar

  • Conference: 7th International Conference on Applied Researches in Science & Engineering

  • Year: 2023

  • Citations: 1

  • Summary: This case study demonstrates the enhancement of traditional rapid sand filtration by incorporating activated carbon powder to improve adsorption of heavy metals in the Babol River. It showcases real-world application and pilot-scale implications.

5. Modeling for Prediction and Optimization of Heavy Metals Removal from Water Using Modified Sand Filtration: Response Surface Methodology (RSM)

  • Authors: H. Ganji, M. Taghavijeloudar, S.R. Khodashenas

  • Conference: 2nd International Congress on Applied Researches in Civil Engineering

  • Year: 2024

  • Summary: This technical paper uses Response Surface Methodology (RSM) to model and optimize heavy metal adsorption in modified sand filters. It provides predictive insights and optimization strategies valuable for design engineers and environmental scientists.

Conclusion

Dr. Hoda Ganji exemplifies the qualities of a Best Researcher Award recipient—innovative thinking, a strong publication record in high-impact journals, and meaningful contributions to sustainable water treatment technologies. Her research has significant potential for solving real-world environmental problems, particularly in developing regions where low-cost, efficient filtration is critical. With continued focus on commercialization and academic engagement, she is poised to become a global thought leader in environmental and water engineering.