Workiye Abera | Process Engineering | Editorial Board Member

Mr. Workiye Abera | Process Engineering | Editorial Board Member

Debre Tabor university, Ethiopia

Profiles:

Workiye Getnet Abera – Senior Lecturer and Researcher in Chemical Engineering

Workiye Getnet Abera is a Senior Lecturer at the Department of Chemical Engineering, Gafat Institute of Technology, Debre Tabor University, Ethiopia. She holds a BSc in Chemical Engineering (Environmental Engineering Stream) from Jimma University, graduating with a CGPA of 3.62 in 2017, and an MSc in Chemical Engineering (Process Engineering) from the same institution, earning a CGPA of 3.87 and a thesis rated “Very Good” in 2020.

Her research focuses on diverse areas, including process modeling and simulation, biomass conversion, sustainable energy technologies, waste-to-energy solutions, nanotechnology in food and bioproducts, and environmental impact assessment. With a passion for advancing sustainable practices, she actively explores innovations in bioprocess engineering and biodegradable materials. Workiye is dedicated to leveraging her expertise to address global challenges in food science, energy, and environmental sustainability, contributing to the scientific community and inspiring the next generation of engineers.

 

Muhammad Ahsan Saleem | Additive Manufacturing | Best Researcher Award

Mr. Muhammad Ahsan Saleem | Additive Manufacturing | Best Researcher Award

Nanjing University of Science and Technology, China

Profile:

Current PositionπŸŽ“

Muhammad Ahsan SALEEM is currently pursuing his Doctor of Engineering in Mechanical Engineering at Nanjing University of Science and Technology (NUST) in Nanjing, China, since September 2020. As a researcher, he is deeply involved in interdisciplinary projects that combine mechanical engineering, data science, and 3D printing technology. His current focus is on optimization of inkjet printing processes, particularly targeting low edge roughness and dimensional precision for multi-material applications.

Research Focus πŸ§‘β€πŸ”¬

SALEEM works on experimental design to explore the jetting behavior of high-viscosity inks during inkjet-based 3D printing and applies machine learning and data acquisition techniques to drive innovation in the lab. His expertise lies in integrating data-driven approaches to advance the development of functional 3D-printed components such as electrical resistors made from a composite of conductive and insulating materials. These efforts aim to improve the precision and quality of printed parts for various industrial applications.

Publication Achievements πŸ“

While still in the early stages of his doctoral research, Muhammad Ahsan SALEEM has contributed to several technical reports and research projects at NUST. His work, which integrates machine learning and 3D printing technology, is poised for publication in prominent journals related to mechanical engineering and manufacturing. SALEEM is enthusiastic about publishing his findings in peer-reviewed platforms that will help establish his contributions to mechanical and mechatronics engineering.

Ongoing Research πŸ”¬

Ahsan’s ongoing research centers on multi-material 3D printing, with a special focus on the development of inkjet-based 3D printing processes for industrial applications. His experimental research explores the jetting behavior of high-viscosity inks, which is essential for the precise fabrication of parts requiring specific resistivity characteristics. He is also investigating ways to incorporate machine learning into the research process to predict and enhance the quality and efficiency of printed materials.

Research Interests πŸ”

SALEEM’s primary research interests lie in mechatronics engineering, with a specific focus on 3D printing and automation. His work explores the intersection of mechanical engineering, robotics, and data science, particularly in the development of advanced manufacturing techniques. His research also covers areas such as electromechanical systems, sensor technology, and data acquisition methods used in precision engineering processes.

Academic Background πŸŽ“

SALEEM’s academic journey is marked by a solid foundation in engineering. He holds a Bachelor of Science in Mechatronics Engineering from the University of Engineering and Technology, Taxila, Pakistan (2013), and a Master of Engineering in Mechanical Engineering from Nanjing University of Science and Technology, China (2018). His diverse educational experiences have equipped him with a deep understanding of both theoretical and practical aspects of mechatronics and mechanical engineering. His advanced studies in Doctor of Engineering are pushing the boundaries of 3D printing and advanced manufacturing technologies.

Scholarships and Awards πŸ†

Throughout his academic career, SALEEM has earned recognition for his academic excellence. He was awarded various scholarships and honors during his Master’s degree and Doctoral research, further solidifying his commitment to research and development in engineering. These awards not only acknowledge his technical prowess but also highlight his potential for significant contributions to the field of mechatronics and mechanical engineering.

Bioinformatics 🧬

While bioinformatics is not his core research area, SALEEM’s interdisciplinary approach to engineering involves elements of data analysis and algorithm development, skills that are integral to bioinformatics as well. His research on machine learning and data acquisition for engineering applications shares similarities with bioinformatics research, especially in terms of data-driven optimization and precision.

Professional Associations πŸ‘₯

Muhammad Ahsan SALEEM is a member of several professional associations related to mechanical engineering and mechatronics. These associations help him stay updated on the latest trends, research, and technological advancements in the field. His membership also provides opportunities to engage with fellow professionals, share knowledge, and collaborate on cutting-edge research projects.

Training & Workshops πŸŽ“

In addition to his formal education, SALEEM has participated in numerous workshops and training sessions focused on advanced manufacturing, automation, and machine learning. These workshops have equipped him with essential skills in 3D printing technologies and data-driven engineering, which he applies in his current research.

Oral Presentations and Conference Participation 🎀

Ahsan actively participates in engineering conferences and workshops, where he presents his research findings and engages with other researchers in the field. His ability to communicate complex ideas clearly and effectively has allowed him to gain visibility in the academic community, particularly in areas related to 3D printing and mechatronics engineering.

Tasks Completed as a Researcher πŸ”§

As part of his doctoral research, SALEEM has successfully contributed to the development and optimization of inkjet printing processes for advanced manufacturing applications. His work includes designing experiments to study high-viscosity inks and collaborating with his research team to integrate machine learning techniques for real-time data acquisition and analysis. He has also worked on experimental setups for multi-material 3D printing, exploring the use of conductive and insulating composites in the production of electrical resistors.

Success Factors 🌟

SALEEM’s success as a researcher can be attributed to his collaborative mindset, technical expertise, and innovative approach to solving complex engineering challenges. His ability to work well within a team, his commitment to data-driven methodologies, and his focus on continuous improvement have positioned him as a rising star in mechatronics engineering and 3D printing technology.

Laboratory Experience πŸ”¬πŸ“š

Although still in the process of publishing his research, SALEEM has accumulated significant experience working in various research labs at Nanjing University of Science and Technology. He has contributed to the development of experimental setups, data acquisition systems, and machine learning models, which are integral to his research on inkjet printing and multi-material manufacturing.

πŸ“–Publications:

Paper Title: Influence of Silicon Carbide on Direct Powder Bed Selective Laser Process (Sintering/Melting) of Alumina

  • Authors: Rehman, A.U. Saleem, M.A. Liu, T. Pitir, F. Salamci, M.U.
  • Journal: Materials
  • Year: 2022

Paper Title: Quantized Event-triggered feedback control under fuzzy system with time-varying delay and Actuator fault

  • Authors: Aslam, M.S. Qaisar, I. Saleem, M.A.
  • Journal: Nonlinear Analysis: Hybrid Systems
  • Year: 2020

 

Farida Amrouche | Oil & Gas FRP Applications | Excellence in Research

Dr. Farida Amrouche | Oil & Gas FRP Applications | Excellence in Research

Doctorate at Lancaster University, United Kingdom

Profiles:

Current Position πŸ›οΈ

Dr. Farida Amrouche is currently serving as a tutor in the UK, where she imparts knowledge in Maths, English, and Science to students in Year 10, Year 12, and those preparing for GCSE A-levels. Her experience spans various educational levels, showcasing her adaptability and passion for teaching. Previously, she held the position of Senior Research Associate in Chemical Engineering at Lancaster University, UK. In this role, she developed innovative methods for quality assurance of waste cooking oil (WCO) and explored the production of highly stable biodiesel. Her work also involved mentoring students and organizing workshops, highlighting her commitment to both research and education.

Publication Achievements πŸ“š

Dr. Amrouche’s publication record is impressive, with notable contributions to the fields of enhanced oil recovery and environmental engineering. Among her key publications is a 2024 article in Materials Today Sustainability, where she co-authored a paper on a novel hybrid enhanced oil recovery technique that combines electrical heating with nanofluid flooding to improve oil production from oil-wet carbonate reservoirs. Another significant publication in Industrial & Engineering Chemistry Research focuses on modeling CO2 adsorption in a thin discrete packing, reflecting her diverse research interests. Additionally, she has explored the use of magnesium oxide nanoparticles in a magnetic field to enhance oil production, as published in Materials Today Chemistry in 2023. These publications underscore her contributions to advancing chemical engineering and environmental sustainability.

Ongoing Research πŸ”¬

Dr. Amrouche is actively engaged in ongoing research that addresses critical environmental challenges and explores innovative solutions in chemical engineering. Her current projects focus on the development of sustainable methods for enhanced oil recovery and the valorization of waste materials. By leveraging advanced technologies such as magnetic fields, electrical heating, and nanoparticles, she aims to make oil recovery processes more environmentally friendly. Furthermore, her research on biodiesel production from waste cooking oil reflects her commitment to renewable energy and sustainable practices.

Research Interests 🌍

Dr. Amrouche’s research interests are diverse and interdisciplinary, encompassing areas such as enhanced oil recovery, environmental engineering, renewable energy, and materials science. She is particularly interested in developing sustainable technologies for the oil and gas industry, including the use of nanomaterials and magnetic fields to improve oil extraction processes. Additionally, her work on biodiesel production and CO2 capture demonstrates her dedication to addressing global environmental issues and promoting cleaner, more sustainable energy sources.

Academic Background πŸŽ“

Dr. Amrouche’s academic journey is marked by a strong foundation in engineering and a commitment to excellence. She earned her PhD in Chemical Engineering from Teesside University, UK, in collaboration with Imperial College London and Edith Cowan University, Australia. Her doctoral research focused on the application of magnetic fields, electrical heating, and nanoparticles for enhanced oil recovery, showcasing her innovative approach to solving complex engineering problems. She also holds an MSc in Petroleum Engineering from Teesside University and a DiplΓ΄me d’IngΓ©nieur d’Γ‰tat (Bachelor of Engineering) in Propulsion Engineering from Saad Dahlab University in Algeria.

Scholarships and Awards πŸ†

Dr. Amrouche has received several prestigious awards and recognitions throughout her career. In 2024, she was selected as one of the top 50 women in engineering in the UK by the Women’s Engineering Society. She has also been recognized as a Chartered Scientist (CSci) by the Science Council and a Chartered Environmentalist (CEnv) by the Society for the Environment. Her numerous accolades, including being named a Chartered Engineer by the Institute of Materials, Minerals & Mining (IOM3), reflect her contributions to the field and her commitment to professional development.

Bioinformatics 🧬

While Dr. Amrouche’s primary focus is on chemical engineering and environmental research, her work often intersects with bioinformatics, particularly in the context of environmental monitoring and analysis. Her expertise in data analysis and modeling is evident in her research on CO2 adsorption and air quality assessment, where she applies advanced computational techniques to understand complex environmental processes and develop innovative solutions.

Professional Associations 🀝

Dr. Amrouche is an active member of several professional organizations, including the Institution of Chemical Engineers (IChemE), Advance HE, the Institute of Materials, Minerals & Mining (IOM3), and the European Association of Geoscientists and Engineers (EAGE). Her involvement in these associations demonstrates her commitment to staying at the forefront of her field, networking with other professionals, and contributing to the advancement of chemical engineering and environmental science.

Training & Workshops πŸ› οΈ

Dr. Amrouche has completed numerous professional training courses and workshops to enhance her skills and knowledge. Notably, she completed the International Well Control Forum (IWCF) Level 1 training, which covers various aspects of oil and gas exploration and well control. She also underwent professional training as a Frac/Acid Engineer at Halliburton, Malaysia, where she gained hands-on experience with fracturing methods, equipment, and software. Her commitment to continuous learning is evident in her proactive approach to acquiring new skills and staying updated with industry advancements.

Oral Presentations 🎀

Dr. Amrouche has delivered several oral presentations at conferences and workshops, where she shares her research findings and insights with the scientific community. Her presentations cover a range of topics, from enhanced oil recovery techniques to environmental monitoring and CO2 capture. Through these presentations, she effectively communicates her research outcomes, engages with other experts, and contributes to the dissemination of knowledge in her field.

Tasks Completed as a Researcher πŸ“Š

As a researcher, Dr. Amrouche has successfully completed numerous tasks, including experimental design, data collection, analysis, and interpretation. Her work often involves complex laboratory-based research, where she applies her expertise in chemical engineering and environmental science to develop innovative solutions. She has also been involved in mentoring students, organizing workshops, and collaborating with industry partners, demonstrating her ability to manage multiple responsibilities and contribute to various aspects of research and education.

Success Factors 🌟

Dr. Amrouche’s success as a researcher and educator can be attributed to her strong analytical skills, innovative thinking, and dedication to continuous learning. Her ability to integrate knowledge from different disciplines, such as chemical engineering, environmental science, and bioinformatics, allows her to tackle complex challenges and develop holistic solutions. Additionally, her commitment to mentoring and collaboration fosters a positive and productive research environment, where students and colleagues can thrive.

Publications & Laboratory Experience πŸ§ͺ

Dr. Amrouche’s extensive laboratory experience is evident in her numerous publications and research projects. She has worked on a variety of experiments, from enhanced oil recovery techniques to environmental testing and analysis. Her hands-on experience with advanced technologies and materials science is reflected in her ability to conduct rigorous research and produce high-quality publications. Her work not only advances scientific knowledge but also has practical implications for industry and environmental sustainability.

πŸ“–Publications:

Paper Title: A novel hybrid enhanced oil recovery technique to enhance oil production from oil-wet carbonate reservoirs by combining electrical heating with nanofluid flooding

  • Authors: Amrouche, F., Blunt, M.J., Iglauer, S., Aiouache, F., Short, M.
  • Journal: Materials Today Sustainability
  • Year: 2024

Paper Title: Modeling CO2 Adsorption in a Thin Discrete Packing

  • Authors: Wray, M., Amrouche, F., Aiouache, F.
  • Journal: Industrial and Engineering Chemistry Research
  • Year: 2024

Paper Title: Using magnesium oxide nanoparticles in a magnetic field to enhance oil production from oil-wet carbonate reservoirs

  • Authors: Amrouche, F., Blunt, M.J., Iglauer, S., Cordero, E., Xu, D.
  • Journal: Materials Today Chemistry
  • Year: 2023

Paper Title: Experimental study of electrical heating to enhance oil production from oil-wet carbonate reservoirs

  • Authors: Amrouche, F., Xu, D., Short, M., Vinogradov, J., Blunt, M.J.
  • Journal: Fuel
  • Year: 2022

Paper Title: A feasibility study on regeneration capture on a seaport electrified gantry crane

  • Authors: Short, M., Hassan, F., Kidd, A., Coleman, D., Walker, M.
  • Journal: Proceedings – 26th International Conference on Circuits, Systems, Communications and Computers, CSCC
  • Year: 2022