Fadila Djouadi | Wastewater treatment | Best Researcher Award

Dr. Fadila Djouadi | Wastewater treatment | Best Researcher Award

Doctorate at Belkada CRTSE, Algeria

Dr. Fadila Djouadi Belkada is a distinguished researcher at the Research Center in Semi-conductor Technology for the Energetic (CRTSE) in Algiers, Algeria. Born on June 3, 1970, in Algiers, she holds extensive experience in environmental engineering, particularly focusing on semiconductor waste management, water treatment, and renewable energy applications. Her expertise spans across various international institutions, including Kyoto Institute of Technology, Kyoto University, and Osaka University. With a notable h-index of 5 and a solid publication record, she is recognized for her contributions to the field of environmental engineering and waste management.

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Scopus Profile

ORCID Profile

Dr. Belkada’s research impact is evidenced by her h-index of 5, reflecting her influence in the field through citations of her published work. Her Scopus Researcher ID is 55901382300, Web of Science Researcher ID is KHY-4570-2024, and she maintains an ORCID ID. These metrics highlight her significant contributions to scientific literature and her active engagement in research.

  • Citations: 303 citations across 298 documents
  • Documents: 7
  • h-index: 5

Education

Dr. Belkadaā€™s educational background is robust and diverse. She earned her Doctorate in Environmental Engineering from the National Polytechnic School (ENP) in Algiers in 2019. Prior to this, she obtained a Master of Engineering in Environmental Engineering from Osaka University in 2001. Her academic journey includes specialization in phyto-pharmacy from the University of Montpellier, France, in 1996, and a degree in Chemical Engineering from the University of Science and Technology Houari Boumediene (USTHB) in Algiers in 1992. This comprehensive education has laid a strong foundation for her research career.

Research Focus

Dr. Belkadaā€™s research primarily revolves around environmental engineering with a focus on the management and treatment of semiconductor waste, water purification, and renewable energy systems. Her work includes innovative approaches such as the use of electrodialysis for wastewater treatment, the development of bioadsorbents, and the integration of solar energy with desalination technologies. Her research contributes to sustainable development and addresses key environmental challenges.

Professional Journey

Dr. Belkadaā€™s professional trajectory showcases a blend of academic and practical experience. She has held various positions at CRTSE, including roles as a Research Associate and a Researcher. Her international experience includes stints at Kyoto Institute of Technology, Kyoto University, and Osaka University, where she engaged in cutting-edge research projects. Additionally, she has been involved in teaching and administrative responsibilities, reflecting her multifaceted expertise and leadership in her field.

Honors & Awards

Dr. Belkada has been recognized for her contributions to environmental engineering and research. Notable honors include her role as Chair of a session at the ICCESEN international conference and her leadership in organizing significant scientific events, such as the two-day intensive course on solar-driven desalination and water purification. Her achievements underline her commitment to advancing scientific knowledge and fostering collaborative research.

Publications Noted & Contributions

Dr. Belkadaā€™s publication record includes influential papers in reputable journals such as Chemical Engineering Research and Design, Desalination and Water Treatment, and Nature/Polymer Journal. Her notable contributions include research on fluoride and nitrate removal from wastewater, the development of dendrimers for novel battery devices, and the synthesis of aerogel capsules. Her work is widely cited and has significantly impacted the field of environmental engineering.

Electrodialysis for Fluoride and Nitrate Removal from Synthesized Photovoltaic Industry Wastewater: Toward High Performance Experimental Parameters

  • Journal: Chemical Engineering Research and Design
  • Date: March 7, 2024
  • DOI: 10.1016/j.cherd.2024.03.008
  • ISSN: 0263-8762
  • Contributors: Fadila Djouadi Belkada, Ouiza Kitous, Ouahiba Bouchelaghem, Nadjib Drouiche, Mouna Hecini, Nabil Mameri

This publication presents a study on optimizing electrodialysis parameters for effectively removing fluoride and nitrate ions from wastewater generated by the photovoltaic industry. The research emphasizes improving the performance of electrodialysis systems through experimental adjustments and provides detailed insights into achieving high efficiency in wastewater treatment.

Activated Alumina as Adsorbent for Fluoride and Nitrate Ions Removal from Synthesized Photovoltaic Cells Manufacturing Effluents

  • Journal: Desalination and Water Treatment
  • Date: 2023
  • DOI: 10.5004/DWT.2023.30003
  • WOSUID: WOS:001118564900008
  • Contributors: Fadila Djouadi Belkada, Ouiza Kitous, Ouahiba Bouchelaghem, Nadjib Drouiche, Mouna Hecini, Nabil Mameri

In this article, the use of activated alumina as an adsorbent for removing fluoride and nitrate ions from effluents produced during photovoltaic cell manufacturing is explored. The study investigates the effectiveness of activated alumina and provides practical solutions for handling these specific pollutants in industrial wastewater.

Electrodialysis for Fluoride and Nitrate Removal from Synthesized Photovoltaic Industry Wastewater

  • Journal: Separation and Purification Technology
  • Date: 2018
  • DOI: 10.1016/J.SEPPUR.2018.04.068
  • WOSUID: WOS:000436651000013
  • Contributors: Fadila Djouadi Belkada, Ouiza Kitous, Nadjib Drouiche, Salaheddine Aoudj, Ouahiba Bouchelaghem, Nadia Abdi, Hocine Grib, Nabil Mameri

This research focuses on the application of electrodialysis technology for the removal of fluoride and nitrate from wastewater associated with the photovoltaic industry. The paper evaluates the performance and efficiency of the electrodialysis process, contributing to advancements in wastewater treatment technologies.

Synthesis of Imidazolium Salt-Terminated Poly(amidoamine)-Typed POSS-Core Dendrimers and Their Solution and Bulk Properties

  • Journal: Polymer Journal
  • Date: 2014
  • DOI: 10.1038/pj.2013.60
  • ISSN: 0032-3896, 1349-0540
  • Contributors: K. Naka, R. Shinke, M. Yamada, Fadila Djouadi Belkada, Y. Aijo, Y. Irie, S. Ram Shankar, K. Sai Smaran, N. Matsumi, S. Tomita, et al.

This article details the synthesis and characterization of a new class of dendrimers, specifically imidazolium salt-terminated poly(amidoamine) dendrimers with a POSS core. The study explores both the solution and bulk properties of these materials, offering insights into their potential applications in various fields.

Photovoltaic Solar Cells Industry Wastewater Treatment

  • Journal: Desalination and Water Treatment
  • Date: 2013
  • DOI: 10.1080/19443994.2012.763217
  • WOSUID: WOS:000325921700008
  • Contributors: Nadjib Drouiche, Fadila Djouadi-Belkada, Tarik Ouslimane, Aissa Kefaifi, Jihane Fathi, Emina Ahmetovic

Research Timeline

Dr. Belkadaā€™s research timeline illustrates her ongoing commitment to addressing environmental issues. From her early research on pesticide behavior in soil to her current projects on innovative membrane materials for desalination, her work has evolved to address pressing global challenges. Key research phases include her projects on semiconductor waste management, photovoltaic industry wastewater treatment, and the development of new materials and techniques for environmental applications.

Collaborations and Projects

Dr. Belkada has collaborated with numerous esteemed researchers and institutions on various projects. Current collaborations include work on innovative membrane materials with Dr. Nadjib Drouiche and treatment of semiconductor waste with Dr. Mouna Hecini. Her past projects have involved international research teams in Japan, focusing on dendrimer synthesis, ionic liquids, and capsule materials. These collaborations enhance the scope and impact of her research, contributing to advancements in environmental engineering and renewable energy technologies.

Strengths of the Best Researcher Award for Dr. Fadila Djouadi Belkada

Innovative Research Focus: Dr. Belkadaā€™s work on semiconductor waste management, electrodialysis for wastewater treatment, and renewable energy applications demonstrates a strong focus on innovative and pressing environmental issues. Her research contributes significantly to advancing sustainable technologies and solutions.

Diverse Expertise and Background: Her broad educational background in environmental engineering, chemical engineering, and related fields from prestigious institutions adds depth and versatility to her research capabilities. This multidisciplinary approach enhances her ability to tackle complex environmental challenges.

International Collaboration: Dr. Belkadaā€™s experience working with renowned institutions like Kyoto University and Osaka University showcases her ability to engage in high-impact, global research projects. These collaborations enrich her work with diverse perspectives and advanced methodologies.

Publication Record: With publications in reputable journals such as Chemical Engineering Research and Design, Desalination and Water Treatment, and Nature/Polymer Journal, Dr. Belkada has a solid track record of impactful research. Her work is well-cited, reflecting its significance in the field.

Recognition and Leadership: Receiving accolades such as the Best Researcher Award and playing leadership roles in international conferences highlight Dr. Belkadaā€™s prominence and influence in environmental engineering. Her involvement in organizing scientific events further underscores her commitment to advancing the field.

Areas for Improvement

h-Index Growth: While an h-index of 5 reflects her influence, it also indicates potential for further growth. Increasing the number of highly cited publications could enhance her research impact and recognition in the field.

Broader Research Scope: Expanding research topics to include emerging areas in environmental engineering, such as circular economy practices or advanced materials for environmental remediation, could enhance the relevance and applicability of her work.

Increased Funding and Grants: Securing additional funding and research grants could support larger-scale projects and further innovative research. Diversifying funding sources may also provide more opportunities for groundbreaking work.

Public Engagement and Outreach: Enhancing efforts to communicate research findings to the general public and stakeholders could improve the societal impact of her work. Engaging in science communication and public education initiatives could broaden the reach and influence of her research.

Collaborative Publications: Increasing the number of collaborative publications with other leading researchers could boost her visibility and impact. This approach may also facilitate the exploration of new research areas and methodologies.

Conclusion

Dr. Fadila Djouadi Belkadaā€™s recognition as a Best Researcher highlights her significant contributions to environmental engineering, particularly in wastewater treatment and semiconductor waste management. Her strong international collaborations, diverse expertise, and impactful publications demonstrate her leadership and innovation in the field. However, there are areas for growth, such as expanding her research scope, increasing her h-index, and enhancing public engagement. Addressing these areas can further elevate her impact and continue to drive advancements in environmental engineering and sustainable technologies.