Muhammad Ayoub | Waste to Bioenergy | Best Researcher Award

🌟Assoc Prof Dr. Muhammad Ayoub, Waste to Bioenergy, Best Researcher AwardπŸ†

  • Β  Associate Professor at Universiti Teknologi PETRONAS, Malaysia

Muhammad Ayoub holds a PhD in Chemical Engineering from USM Malaysia, an MS in Environmental Engineering from KU South Korea, and a BE in Chemical Engineering from ICET PU Pakistan. He is ranked in the Top 2% of scientists worldwide by Stanford. With over 8 years of teaching experience in Chemical and Petroleum Engineering at Universiti Teknologi PETRONAS, Malaysia, Ayoub emphasizes Outcome-Based Education and active learning methodologies. He has over 12 years of research expertise in Sustainable Energy, Biomass, and Catalysis, securing numerous national and international projects. Additionally, he has 5 years of industrial experience and is actively engaged in professional organizations and international collaborations.

Author Metrics

With an impressive citation record of over 3500 and an H-index of 32, Muhammad Ayoub’s research has made a substantial impact in his field. His high-quality publications and contributions to scientific literature reflect his standing as a respected researcher and scholar.

Scopus Profile

ORCID Profile

Google Scholar Profile

Muhammad Ayoub, affiliated with Universiti Teknologi PETRONAS in Seri Iskandar, Malaysia, has a Scopus Author Identifier with ID 56938116900. He has been cited 3,046 times across 2,506 documents, with 138 publications to his name. Ayoub’s h-index, indicating the number of papers with at least that many citations, is currently 30. His research contributions span various aspects of engineering and sustainable energy, garnering recognition in academia through citations and publications.

Education

Muhammad Ayoub earned his PhD in Chemical Engineering from the University of Sains Malaysia, an MS in Environmental Engineering from Kwangwoon University, South Korea, and a BE in Chemical Engineering from Punjab University, Pakistan. His academic journey has equipped him with a strong foundation in engineering principles and research methodologies.

Research Focus

Ayoub’s research focuses on Sustainable Energy, Green Technology, Biomass Conversion, Biofuels, and Catalysis. He has led projects on biodiesel production, glycerol conversion, CO2 capture, and renewable energy optimization. His work contributes to the development of eco-friendly processes and materials for a greener future.

Professional Journey

Ayoub’s professional journey spans academia, industry, and international collaborations. From teaching core engineering subjects to supervising research projects and leading international workshops, he has demonstrated expertise in education, research, and networking. His contributions to both academia and industry highlight his commitment to advancing knowledge and fostering innovation.

Honors & Awards

Muhammad Ayoub has received numerous honors and awards, including Gold and Silver medals for research innovation and teaching excellence. He has been recognized for his contributions to conferences, exhibitions, and academic achievements. His accolades underscore his dedication to excellence in education and research.

Publications Top Noted & Contributions

Ayoub has made significant contributions to academia with over 150 peer-reviewed journal publications, numerous conference proceedings, and book chapters. His research publications cover a wide range of topics in Chemical and Environmental Engineering, showcasing his expertise in diverse areas of study.

Title: A Comparative Study of Eggshell and Commercial Sorbent-Based Catalysts through Synthesis and Characterization for SESR Process
Journal: Sustainability
Publication Date: 2023-10-11
DOI: 10.3390/su152014762
Contributors: Muhammad Qasim, Muhammad Ayoub, Karamjit Singh, Abrar Inayat, Rashid Shamsuddin, Mohammed Danish, Sarah Farrukh
Abstract: This study compares eggshell-based catalysts with commercial sorbent-based catalysts for the SESR process. Through synthesis and characterization, the efficiency and viability of these catalysts are evaluated. The research contributes to understanding sustainable catalyst options for environmentally friendly processes.

Title: Modeling of CO2 Adsorption on Surface-Functionalized Rubber-Seed Shell Activated Carbon: Isotherm and Kinetic Analysis
Journal: Processes
Publication Date: 2023-09-26
DOI: 10.3390/pr11102833
Contributors: Syeda Saba Fatima, Azry Borhan, Muhammad Ayoub, Noraini Abd Ghani
Abstract: This article presents a modeling study on CO2 adsorption using surface-functionalized rubber-seed shell activated carbon. Through isotherm and kinetic analysis, the adsorption behavior is characterized, providing insights into the potential of activated carbon for CO2 capture applications.

Title: Selecting Geological Formations for CO2 Storage: A Comparative Rating System
Journal: Sustainability
Publication Date: 2023-04-13
DOI: 10.3390/su15086599
Contributors: Muhammad Hammad Rasool, Maqsood Ahmad, Muhammad Ayoub
Abstract: This research develops a comparative rating system for selecting geological formations for CO2 storage. By evaluating various criteria, including geological stability and storage capacity, the study aids in identifying optimal sites for CO2 sequestration projects.

Title: A Novel Ascorbic Acid Based Natural Deep Eutectic Solvent as a Drilling Mud Additive for Shale Stabilization
Journal: Processes
Publication Date: 2023-04-07
DOI: 10.3390/pr11041135
Contributors: Muhammad Hammad Rasool, Maqsood Ahmad, Muhammad Ayoub, Muhammad Adeem Abbas
Abstract: This article introduces a novel ascorbic acid-based natural deep eutectic solvent as a drilling mud additive for shale stabilization. The research explores eco-friendly alternatives for enhancing drilling operations while minimizing environmental impact.

Title: Multiobjective Optimization and Sustainability Assessment of an Improved Wet Sulfuric Acid-Based Ionic Liquid Process for the Utilization of Hydrogen Sulfide Using a Symmetry Approach
Journal: ACS Omega
Publication Date: 2022-11-29
DOI: 10.1021/acsomega.2c03066
Contributors: Ramsha Jahan, Zulfan Adi Putra, Muhammad Ayoub, Bawadi Abdullah
Abstract: This study presents a multiobjective optimization and sustainability assessment of an improved wet sulfuric acid-based ionic liquid process for hydrogen sulfide utilization. Using a symmetry approach, the research aims to optimize process parameters while considering environmental and economic sustainability.

Research Timeline

Muhammad Ayoub’s research journey spans over 12 years, marked by successful project grants, impactful publications, and academic achievements. From his early days as a research fellow to his current position as an associate professor, Ayoub’s timeline highlights his continuous growth and contribution to the field of engineering and sustainable energy.