Ghezzar Mouffok Redouane | Industrial processes Intensification | Best Researcher Award

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Prof. Ghezzar Mouffok Redouane | Industrial processes Intensification | Best Researcher Award

Dean of faculty of sciences and technology, University of Mostaganem, Algeria

GHEZZAR Mouffok Rédouane is a distinguished professor in chemical engineering with over 20 years of teaching experience at the University of Mostaganem, Algeria. He has contributed significantly to higher education in process engineering and environmental chemistry, specializing in areas such as thermodynamics, mass transfer, and industrial water treatment. Additionally, his research spans plasma technology, nanomaterials, and wastewater treatment. Having conducted research at Pierre and Marie Curie University in France, he has broadened his global academic footprint. Rédouane has been a consultant for international companies, notably in Spain. He is an expert in multiple scientific and environmental tools and software, with a focus on sustainable industrial processes. His published work in prestigious journals is widely cited, making him an influential figure in the field of chemical engineering and environmental science. 🌍💡📚

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Education

GHEZZAR Mouffok Rédouane completed his education in chemical engineering, which laid the foundation for his profound expertise in industrial processes and environmental sciences. He received his advanced degrees in Algeria, where he later became a professor at the University of Mostaganem. His academic career includes time spent at Pierre and Marie Curie University in France, which provided him exposure to cutting-edge research in chemical engineering. His education is complemented by certifications in HSE software, chromatographic techniques, and environmental impact assessment tools. Additionally, he has attended specialized training in water treatment processes, reactor design, and life cycle analysis (LCA). His strong academic background in these disciplines enables him to teach future engineers and lead research initiatives that solve real-world challenges in process intensification, water purification, and waste treatment. 🎓🔬📊

Experience

GHEZZAR Mouffok Rédouane has extensive experience as a Professor of Higher Education since 2001, teaching at the Faculty of Science and Technology at the University of Mostaganem, Algeria. His primary focus has been on chemical engineering, process design, and environmental sciences, where he has led courses in thermodynamics, mass transfer, and industrial water treatment. He has also worked as a Researcher at Pierre and Marie Curie University in France, contributing to projects that explore innovative technologies in plasma processes, wastewater treatment, and nanomaterials. His role as a freelance consultant with FENNECO SL in Spain has further enriched his expertise in the field. Over the years, Rédouane has applied his skills to real-world challenges, working closely with SONATRACH and other industry players to improve water treatment processes and industrial operations. His collaborative work in both academia and industry highlights his versatile and impactful career. 🏫🌐🔧

Research Focus

GHEZZAR Mouffok Rédouane’s research is focused on sustainable and efficient industrial processes. His work investigates process intensification, specifically using plasma technology for wastewater treatment, as well as other innovative methods for environmental remediation. He is particularly interested in water treatment processes for both domestic and industrial applications, emphasizing cost-effective and environmentally friendly solutions. Rédouane’s contributions in chemical engineering span a variety of areas, including mass and energy balances, polyphasic reactors, and bioreactor systems. His research also includes the development of low-cost adsorbents for removing pollutants from water, utilizing natural materials like Acacia saligna leaves. His academic articles often explore the degradation of toxic compounds through plasma-assisted processes, and he has collaborated on several projects aimed at reducing environmental impacts from industrial discharges. His work continues to inspire solutions for a cleaner, more sustainable future in the chemical engineering field. 🌱💧⚙️

Publication Top Notes

  • A novel approach of catechol production assisted by plasma process: Lab-scale experiment and modeling, commercial-scale design and economic evaluation
  • Acacia saligna leaves: a potential new low-cost adsorbent for removal of methylene blue from aqueous solutions
  • Assessment of the Sediments Contamination by Heavy Metals of the Cheliff River, Algeria
  • Bleaching and degradation of textile dyes by nonthermal plasma process at atmospheric pressure
  • Cadmium effect on optical properties of Cu2Zn1− xCdxSnS4 quinternary alloys nanostructures
  • Competitive Contribution of Catalyst and Adsorption Roles of TiO2 on the Degradation of AO7 Dye During Plasma Treatment
  • Complexation study of heavy metal ion Cu (II) with amino acids before elimination by ultrafiltration
  • Conception of a novel spray tower plasma-reactor in a spatial post-discharge configuration: pollutants remote treatment
  • Contribution à l’étude de la contamination des eaux et des sédiments de l’Oued Cheliff (Algérie)
  • DBDplate-TiO2 treatment of Yellow Tartrazine azo dye solution in falling film
  • Elimination of paracetamol from water by a spent coffee grounds biomaterial
  • Enhancement of the bleaching and degradation of textile wastewaters by Gliding arc discharge plasma in the presence of TiO2 catalyst
  • Gliding arc plasma assisted photocatalytic degradation of anthraquinonic acid green 25 in solution with TiO2
  • Hydrodynamics and mass transfer investigations in a biphasic plasma reactor
  • Initiation of Fenton process by plasma gliding arc discharge for the degradation of paracetamol in water
  • New prototype for the treatment of falling film liquid effluents by gliding arc discharge part I: application to the discoloration and degradation of anthraquinonic Acid Green 25
  • Plasma-catalytic degradation of anthraquinonic acid green 25 in solution by gliding arc discharge plasma in the presence of tin containing aluminophosphate molecular sieves
  • Plasma-catalytic removal of lead acetate assisted by precipitation
  • Rapid synthesis of ZnO nanoparticles via gliding arc discharge: unveiling the impact of discharge time on particle properties and photocatalytic performance
  • Treatment of leachate from municipal solid waste of Mostaganem district in Algeria: Decision support for advising a process treatment

 

 

Muhammad Kashif Anwar | Sustainable infrastructure And Green materials | Best Researcher Award

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Mr Muhammad Kashif Anwar | Sustainable infrastructure And Green materials | Best Researcher Award

Master Student/Research Assistant, Tongji University, China

Muhammad Kashif Anwar is a researcher and faculty member at Tongji University, Shanghai, China, specializing in civil engineering, particularly construction and pavement materials. He is known for his expertise in the utilization of waste materials in concrete and asphalt, aiming to promote sustainability in infrastructure. With a focus on advanced materials science, he is deeply involved in studying concrete and polymer composites’ performance under various conditions. Dr. Anwar has contributed significantly to the development of eco-friendly and circular economy-based solutions in the construction industry.

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Strengths for the Award

Muhammad Kashif Anwar is an exemplary candidate for the Best Researcher Award due to his extensive and impactful contributions to the field of civil engineering, specifically in the areas of sustainable construction materials and environmentally-friendly practices. His research on utilizing waste materials in concrete, asphalt, and polymer composites highlights a commitment to advancing circular economy concepts within the construction industry. With over 40 published papers in reputable international journals, his work on sustainable infrastructure and the development of eco-friendly materials stands out for its relevance to climate change mitigation and green construction. Dr. Anwar’s application of advanced decision-making tools, machine learning techniques, and digital simulations in optimizing construction materials is a testament to his innovative approach and technical expertise.

Furthermore, his consistent collaborations with international researchers and participation in high-impact publications demonstrates his leadership in the field. His work is frequently cited, reflecting the high influence and practical application of his research in real-world scenarios.

Key strengths include

  • Innovative application of waste materials in construction (e.g., fly ash, polymer composites, silica fume).
  • Expertise in circular economy and sustainability in civil engineering.
  • Development of advanced decision-making frameworks and machine learning models.
  • Cross-disciplinary collaboration with researchers from diverse fields such as environmental science and disaster management.

Areas for Improvement

While Dr. Anwar’s research is outstanding, there are areas where continued growth could further enhance his already impressive profile:

  1. Greater Focus on Commercialization and Industry Implementation: Though his work on sustainable materials is highly promising, exploring pathways to bring these innovations to the construction industry at a larger scale would help bridge the gap between research and industry adoption. His involvement in pilot projects or industry partnerships could push his research into practical, real-world applications.
  2. Interdisciplinary Research Integration: Expanding his work into even more interdisciplinary fields, such as energy-efficient building design or smart city infrastructure, could open new avenues for innovation and impact.
  3. Broader Geographic Reach: While his work has substantial influence in Asian regions, collaborating with researchers in other geographically diverse regions could diversify his research’s global impact and widen its applicability to different construction environments.

Education

Dr. Anwar holds a Ph.D. in Civil Engineering from Tongji University, Shanghai, China. His academic journey is centered on sustainable construction materials, with a special emphasis on the mechanical properties of concrete and asphalt mixtures, utilizing alternative and waste-based materials. His research is rooted in the goal of achieving sustainable development in the construction sector, focusing on enhancing material performance while reducing environmental impact.

Experience

Dr. Anwar has extensive experience as a researcher and faculty member at Tongji University. He has collaborated on numerous interdisciplinary projects involving the optimization of construction materials, including self-compacting concrete, polymer concrete composites, and asphalt mixtures. He has also been actively involved in developing sustainable infrastructure solutions, employing advanced techniques such as machine learning and digital analysis. His work includes both experimental and numerical simulation studies, contributing to the advancement of construction technology and disaster risk management frameworks.

Awards and Honors

Dr. Anwar has received recognition for his contributions to the field of civil engineering, particularly in sustainability and construction materials. His work on sustainable concrete, polymer composites, and circular economy applications has earned him several accolades and awards. He has also been featured in prominent academic journals and recognized by international organizations for his innovative research in eco-friendly materials and the development of green construction technologies.

Research Focus

Dr. Anwar’s research focuses on developing sustainable construction materials that promote environmental sustainability. Key areas include the optimization of concrete and asphalt mixtures using waste materials, the application of polymer composites for circular economy solutions, and improving material performance under varying environmental conditions. He is also focused on advancing the application of digital techniques and machine learning in predicting material properties and optimizing construction practices for sustainable infrastructure development.

Publication Top Notes

  • Analysis of mechanical properties of self-compacted concrete by partial replacement of cement with industrial wastes under elevated temperature (2018) 🏗️
  • Scientific risk performance analysis and development of disaster management framework: a case study of developing Asian countries (2021) 🌍
  • Utilization of polymer concrete composites for a circular economy: A comparative review for assessment of recycling and waste utilization (2021) ♻️
  • Recycling and utilization of polymers for road construction projects: An application of the circular economy concept (2021) 🚧
  • Optimization of fresh and mechanical properties of sustainable concrete composite containing ARGF and fly ash (2023) ⚙️
  • Marshall stability and flow analysis of asphalt concrete under progressive temperature conditions (2020) 🌡️
  • Numerical Simulations of GFRP-Reinforced Columns Having Polypropylene and Polyvinyl Alcohol Fibers (2020) 🏢
  • Predicting compressive strength of blast furnace slag and fly ash based sustainable concrete using machine learning techniques (2022) 🤖
  • Performance optimization approach of polymer modified asphalt mixtures with PET and PE wastes (2022) 🔄
  • Symmetric performance analysis for mechanical properties of sustainable asphalt materials under varying temperature conditions (2020) 🌡️
  • Utilization of self-consolidated green material for sustainable development (2021) 🌱
  • Structural performance of GFRP bars based high-strength RC columns (2022) 🏗️
  • Performance evaluation of modified bitumen using EPS beads for green and sustainable development (2020) 🛣️
  • Optimization and utilization of waste fly ash and silica fume based eco-friendly geopolymer mortar (2023) ⚒️
  • Utilization of radium-bead material for road safety (2021) 🚸
  • Evaluating the role of AI and empirical models for predicting regional economic growth and transportation dynamics (2024) 🧠
  • Analysis of Aggregate Shape And Texture By Advance Image Analysis Technique (2019) 🖼️
  • Mitigation of CO2 by Improving Efficiency of Cement Use Through production of Eco-friendly LC3 Cement (2020) 🌍

Conclusion

Muhammad Kashif Anwar is an exceptionally deserving candidate for the Best Researcher Award. His contributions to sustainable construction materials, circular economy principles, and climate-conscious infrastructure make him a pioneering researcher in the field of civil engineering. His consistent record of highly cited publications, interdisciplinary collaborations, and application of advanced technologies positions him as a leading expert who is shaping the future of sustainable infrastructure. With continued focus on practical implementation and global outreach, Dr. Anwar can amplify his influence even further. His work embodies the spirit of innovation, sustainability, and scientific advancement, making him a true asset to both academia and the broader construction industry.

Francisco Javier Balbas García | Sustainable Development | Innovative Solutions for Environmental Challenges Award

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Dr Francisco Javier Balbas García | Sustainable Development | Innovative Solutions for Environmental Challenges Award

Profesor, University of Cantabria, Spain

Francisco Javier Balbás García is a distinguished academic and researcher in the field of energy and electrical systems, with a focus on energy efficiency, renewable energy, and sustainability. He is affiliated with the Universidad de Cantabria in Spain, where he has contributed significantly to the advancement of energy-related research. Over the years, Balbás García has worked on numerous projects related to energy optimization, renewable energy integration, and the application of technology in energy systems. He has been involved in various studies on building information modeling (BIM) applications, energy efficiency in buildings, and sustainable practices for improving energy use. His research is well-regarded for its practical implications in real-world scenarios, particularly in the energy sector’s role in addressing climate change and sustainability challenges.

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Strengths for the Award

  1. Expertise in Energy Systems and Sustainability: Francisco Javier Balbás García demonstrates significant expertise in energy systems, particularly in high-voltage electrical systems and energy efficiency. His work on optimizing energy usage in buildings, integrating renewable energy, and improving the energy efficiency of infrastructure positions him as a leading researcher in the field of energy sustainability.
  2. Innovative Approaches to Energy Efficiency: One of Balbás García’s key strengths lies in his pioneering research on energy efficiency, including the integration of new methodologies such as Building Information Modeling (BIM) for calculating thermal loads in retrofitting and designing energy-efficient systems. His emphasis on practical, actionable solutions, such as self-generation of electricity through recycled materials and energy-efficient lighting systems, showcases his ability to apply theoretical research to real-world challenges.
  3. Relevance to Current Global Issues: His research on renewable energy integration into the Spanish electricity grid and the use of Geographic Information Systems (GIS) for generating 3D models of energy systems is especially timely in the context of the global energy transition and the push for more sustainable and intelligent energy systems.
  4. Diverse Range of Publications: Balbás García has authored and co-authored a diverse array of publications on various energy-related topics, from improving energy efficiency in buildings to renewable energy applications and sustainable practices in electricity generation. His work has been well cited, demonstrating its impact and relevance within the energy sector.
  5. International Recognition: His research has gained international attention, particularly for its focus on self-generation of electricity in Sub-Saharan Africa and the potential for scaling renewable energy solutions in developing regions. This global perspective makes him a well-rounded and influential researcher.

Areas for Improvement

  1. Broader International Collaboration: While Balbás García’s work is significant in Spain and parts of Europe, expanding his collaborations and projects to more diverse global regions, especially in developing nations, would enhance the international impact of his research. While his study on Sub-Saharan Africa is a step in this direction, greater engagement with global energy challenges could increase his visibility and influence.
  2. Greater Focus on Policy and Economic Dimensions: While his technical expertise in energy systems is exemplary, incorporating more research into the economic, policy, and regulatory aspects of energy transition could make his work even more impactful. An exploration of how policy and financial incentives can foster the widespread adoption of energy-efficient technologies would add value to his research.
  3. Long-Term Impact Assessment: Although Balbás García’s work addresses critical issues such as energy efficiency and renewable integration, future research could benefit from a focus on long-term impact assessments of the systems he proposes. This would provide valuable insights into the sustainability and scalability of his recommendations.

Education

Francisco Javier Balbás García holds an advanced academic background in energy and electrical engineering, with a specialization in energy systems and efficiency. His education includes degrees and certifications that have equipped him with deep expertise in energy management and sustainable energy technologies. Although specific details of his academic history are not fully outlined in the available records, his significant contributions to the field of energy research, particularly in renewable energy and energy efficiency, indicate a strong foundation in both theoretical and applied aspects of energy systems. Balbás García has also engaged in interdisciplinary research that connects technological innovation with sustainability goals. His academic achievements reflect a commitment to both practical solutions and the advancement of energy science, contributing to sustainable development in Spain and internationally.

Experience 

Francisco Javier Balbás García has extensive experience in the field of energy, with a particular focus on electrical systems, energy efficiency, and renewable energy applications. His professional career includes roles at the Universidad de Cantabria, where he has collaborated on numerous research projects aimed at improving energy systems and implementing sustainable practices. He has been involved in various innovative studies, including methodologies for improving energy efficiency in buildings, optimizing energy consumption, and exploring the use of recycled materials for energy generation. Balbás García has also worked on projects relating to the use of building information modeling (BIM) for thermal load calculations in retrofitting and the integration of geographic information systems for 3D modeling. His expertise extends to the energy sector’s broader environmental implications, addressing challenges such as climate change, energy security, and the sustainable use of resources.

Awards and Honors 

While detailed information on specific awards or honors for Francisco Javier Balbás García is not immediately available, his contributions to the fields of energy efficiency and sustainable energy systems have been widely recognized through his publications and impact on the energy research community. His studies on the optimization of energy use in buildings, renewable energy integration, and the application of innovative technologies in energy systems have been well cited and acknowledged by peers in the field. Additionally, Balbás García has received recognition for his work on improving energy efficiency in the electrical grid and for practical case studies in energy self-consumption and recycling. His career reflects a sustained commitment to the advancement of energy science, particularly in the context of sustainable development and environmental protection.

Research Focus 

Francisco Javier Balbás García’s research focuses primarily on energy systems, energy efficiency, and renewable energy technologies. He explores the integration of advanced technologies such as Building Information Modeling (BIM) and Geographic Information Systems (GIS) for optimizing energy performance in buildings and infrastructure. His studies often address the use of renewable energy sources, energy-saving techniques, and improving the efficiency of energy networks. A significant part of his research involves evaluating the potential for energy self-generation, the role of controlled recycling in energy systems, and reducing environmental impacts through energy conservation. Balbás García has also contributed to studies on the Spanish energy system, investigating cost dynamics, energy production from renewable sources, and future scenarios for sustainable energy development. His work emphasizes practical, real-world applications of energy solutions, with a strong focus on sustainability, cost-effectiveness, and environmental benefits.

Publication Top Notes

  1. Sistemas de energía eléctrica en alta tensión ⚡🔌
  2. Perspectivas y posibles escenarios de las renovables en el sistema eléctrico español 🌞⚡
  3. Metodología Aplicada a la Eficiencia Energética Basada en un anterior Estudio Técnico-Económico Relacionado con el ciclo de vida de las Tecnologías 🏡💡
  4. The importance of energy efficiency and proposal of comparative analysis: practical case of lighting 💡📊
  5. Sistema energético español: coste de la energía eléctrica y posibles escenarios 🇪🇸⚡
  6. Building Information Modeling (BIM 6D) and Its Application to Thermal Loads Calculation in Retrofitting 🏢📐
  7. The importance of self-generation of electricity through controlled recycling: a case study in West Sub-Saharan African regions 🔄⚡
  8. Quantitative and qualitative analysis on the integration of geographic information systems and building information modeling for the generation and management of 3D models 🌍📏
  9. Adaptación del aprendizaje a las dificultades observadas en una CEPA 🏫🔧
  10. Electrical generator’s manufacturing through recycled materials for self-consumption 🔋♻️
  11. Eficiencia energética y seguridad eléctrica de instalaciones en la rehabilitación de edificios 🏚️🔋
  12. Procedimiento de repotenciación de un parque eólico 🌬️⚙️
  13. Optimización en las actuaciones de mejora de la eficiencia energética en la edificación 🏠🔋
  14. Monitorización remota de construcciones históricas: metodología empleada y puesta en marcha en la Iglesia del Seminario Mayor de Comillas 🏛️📡
  15. Eficiencia del cambio horario en el consumo energético ⏰💡
  16. Reductor de las colisiones y accidentes de aeronaves en las líneas eléctricas aéreas ✈️⚡
  17. Reductor de las colisiones y electrocuciones de aves en las líneas eléctricas aéreas 🦅⚡
  18. Marco y bases de diseño de un parque eólico para su repotenciación 🌬️⚙️

Conclusion

Francisco Javier Balbás García has the experience, expertise, and research output to be considered a strong candidate for the Best Researcher Award. His research has made notable contributions to energy efficiency, sustainability, and the integration of renewable energy sources into existing infrastructures. His innovative work on Building Information Modeling (BIM) and Geographic Information Systems (GIS) for energy optimization stands out as a significant contribution to the field.

The major strength of Balbás García lies in his practical and forward-thinking approach to solving contemporary energy challenges. With a strong foundation in academic research, his future work could benefit from increased interdisciplinary engagement, industry collaboration, and global research initiatives. Given his consistent research productivity and high citation rates, he is a deserving contender for recognition in the Best Researcher Award.