Faraj Zaid | Chemical Engineering | Best Researcher Award 

Dr. Faraj Zaid | Chemical Engineering | Best Researcher Award 

Sirte University | Libya 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Faraj Zaid's academic journey began with a Bachelor of Science in Chemical Engineering from Sirte University, Libya, in 1997. His undergraduate thesis focused on the "Design of a Distillation Column," laying the foundation for his future research in Chemical Engineering. He pursued a Master of Science in Process Safety and Loss Prevention from the University of Sheffield, UK, in 2004, with a thesis on "Risk-Based Assessment of the Sirte Oil Company Pipeline in Libya." This academic experience deepened his understanding of process safety and risk management in the energy sector. In 2013, Dr. Zaid earned his Ph.D. in Chemical Engineering from Missouri University of Science and Technology, Rolla, MO, USA, where his dissertation, "Gas-Solid Fluidized Bed Reactors: Scale-Up, Flow Regimes Identification, and Hydrodynamics," positioned him as a leading expert in fluidized bed reactors.

PROFESSIONAL ENDEAVORS

Dr. Zaid has an extensive professional background that spans teaching, research, and industry roles. Since November 2022, he has been a lecturer at Sirte University’s Department of Chemical Engineering, where he teaches both theoretical and experimental courses and advises students on their research projects. His previous academic role was as a researcher at Lincoln University, Department of Agriculture and Environmental Sciences, where he conducted extensive research on nanoparticles, bioprocessing, and waste treatment from September 2013 to January 2016.

Dr. Zaid also has significant experience in the energy sector. He has been serving as a Marketing Engineer at Hitachi Energy since December 2021, where he coordinates marketing strategies, enhances order accuracy, and provides technical expertise. Before this, he worked as a Planning and Scheduling Engineer at ABB Incorporated from February 2016 to November 2021, managing engineering projects and increasing production capacity by 30%. Earlier in his career, he worked as a Process Engineer Supervisor at the National Oil Corporation in Libya, where he conducted performance risk assessments, led HAZOP studies, and optimized refinery and petrochemical processes.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Zaid's contributions to the field of Chemical Engineering are multifaceted. His research focus during his Ph.D. on fluidized bed reactors provided new insights into multi-phase fluid flow systems and reactor scale-up methodologies. At Lincoln University, his research expanded to include biomass conversion, bioenergy, soil fertility, and waste management, all critical areas for sustainable development. Dr. Zaid’s professional experience further enhances his contributions, particularly in process optimization, safety analysis, and project management in the energy sector.

IMPACT AND INFLUENCE

Dr. Zaid’s research and professional contributions have had a significant impact on the fields of Chemical Engineering, process safety, and sustainable energy. His work on fluidized bed reactors is widely referenced in academic studies related to reactor design and scale-up, while his applied research on bioprocessing and waste treatment contributes to advancements in sustainable engineering practices. His industrial roles at Hitachi Energy and ABB have influenced the engineering and marketing strategies of major energy companies, leading to improved production processes and project management.

ACADEMIC CITATIONS

Dr. Zaid's research, particularly in fluidized bed reactors and sustainable waste management, has been cited in numerous academic journals and conference proceedings. His Ph.D. work is frequently referenced in discussions on reactor hydrodynamics and scale-up methodologies, and his subsequent research on bioenergy and soil fertility has contributed to the body of knowledge in environmental engineering and agricultural sciences.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Zaid’s legacy in Chemical Engineering is marked by his pioneering work in reactor design and sustainable engineering. As a lecturer and researcher, he continues to influence the next generation of engineers and researchers. His future contributions are likely to advance the fields of energy efficiency, process safety, and waste management, ensuring that his impact on both academia and industry continues to grow.

CHEMICAL ENGINEERING 

Dr. Zaid's work in Chemical Engineering is characterized by his expertise in fluidized bed reactors, process safety, sustainable waste management, and bioenergy. His contributions to these areas have shaped the understanding and development of new technologies in Chemical Engineering. As he continues his research and professional endeavors, his work will further the development of sustainable engineering practices and contribute to the global body of knowledge in Chemical Engineering.

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