Dr. Nurul Musfirah Mazlan | Engineering | Best Researcher Award
Lecturer At School Of Aerospace Engineering, Universiti Sains Malaysia, Malaysia
Dr. Nurul Musfirah Mazlan is a dedicated lecturer and researcher specializing in Aerospace Propulsion and Biofuels. She is currently a DS51 Lecturer at Universiti Sains Malaysia (USM), where she contributes to both teaching and research in the field of aerospace engineering. With a strong academic background and an extensive supervision portfolio of postgraduate and undergraduate students, she has played a vital role in advancing research related to sustainable aviation fuels and propulsion systems. Dr. Nurul Musfirah is also an active member of The American Society of Mechanical Engineers (ASME) and the Board of Engineers Malaysia (BEM), demonstrating her commitment to professional excellence. Her research focuses on alternative fuel technologies, nanoparticles as fuel additives, and propulsion system optimization, contributing significantly to green aviation efforts. Through her dedication to academia and innovation, she continues to make an impact in the aerospace engineering field.
Professional Profile
Education
Dr. Nurul Musfirah Mazlan obtained her Doctor of Philosophy (PhD) from Cranfield University, UK, specializing in Aerospace Propulsion and Biofuels. Her doctoral research focused on sustainable aviation fuels, particularly investigating the combustion performance of biofuels and alternative energy sources in aerospace applications. Prior to her PhD, she completed her undergraduate and master’s degrees in engineering, equipping her with a strong foundation in thermodynamics, propulsion systems, and fuel technologies. Her academic journey has been driven by a passion for developing environmentally friendly solutions for the aerospace industry, with a focus on reducing carbon emissions and improving fuel efficiency. Throughout her education, she has worked on multiple experimental and computational research projects, collaborating with international researchers to advance knowledge in alternative propulsion technologies. Her educational background has provided her with a solid expertise in combustion analysis, computational fluid dynamics (CFD), and aerospace fuel innovations.
Professional Experience
Dr. Nurul Musfirah Mazlan is currently serving as a Lecturer (DS51) at Universiti Sains Malaysia (USM), where she teaches undergraduate and postgraduate courses related to aerospace propulsion, thermodynamics, and fuel technologies. Over the years, she has actively supervised numerous PhD, MSc, and undergraduate students, guiding research in biofuels, propulsion systems, and nanotechnology applications in aerospace. While she does not have direct industry experience before joining USM, her work significantly contributes to practical aerospace applications through collaborations with academic and research institutions. In addition to teaching, she is involved in curriculum development, laboratory research, and mentoring students in experimental and computational studies. Her multidisciplinary approach allows her to bridge the gap between theory and real-world aerospace engineering challenges, making her a valuable academician and researcher in the field of sustainable aviation technology.
Research Interest
Dr. Nurul Musfirah Mazlan’s research focuses on Aerospace Propulsion, Biofuels, and Sustainable Energy Technologies. Her primary areas of interest include the development and performance analysis of biojet fuels, nano-additives for combustion efficiency, and solid rocket propulsion systems. She has conducted extensive research on Hydrotreated Vegetable Oil (HVO) blended with Jet-A fuel, evaluating its engine performance, emission characteristics, and sustainability. Additionally, her work explores computational fluid dynamics (CFD) simulations to study the interaction of alternative fuels with turbine blades and combustion systems. She is also interested in experimental and modeling approaches for improving rocket propulsion efficiency and reducing emissions in aircraft engines. By integrating nanotechnology with fuel research, Dr. Nurul Musfirah aims to develop greener and more efficient propulsion solutions for the aviation and aerospace industry, contributing to global efforts toward sustainable aviation fuel development.
Awards and Honors
Dr. Nurul Musfirah Mazlan has received several recognitions and honors for her contributions to aerospace propulsion and alternative fuel research. While specific awards are not listed in the provided details, her academic and research achievements are evident through her supervision of high-impact projects, international collaborations, and contributions to sustainable aviation research. Her role as a supervisor for multiple PhD and MSc students working on innovative propulsion technologies is a testament to her expertise and dedication to academia. Additionally, her involvement with The American Society of Mechanical Engineers (ASME) and the Board of Engineers Malaysia (BEM) highlights her professional standing and recognition in the engineering community. As she continues to push the boundaries of biofuel and propulsion research, she is well-positioned to receive further recognition for her groundbreaking contributions to the aerospace industry.
Conclusion
Dr. Nurul Musfirah Mazlan is a strong candidate for the Best Researcher Award, given her extensive research contributions in aerospace propulsion and biofuels, graduate supervision, and technical expertise. Her work aligns with sustainable aviation efforts, making her research highly relevant. To further strengthen her case, industry collaborations, securing more grants, and taking leadership roles in global research organizations would enhance her profile.
Publications Top Noted
1. Spray Behaviour of Hydro-Treated Ester Fatty Acids Fuel Made from Used Cooking Oil at Low Injection Pressures
- Authors: Azam, Q., Sulaiman, S.Z., Abdul Razak, N.A., & Mazlan, N.M.
- Year: 2024
- Journal: Aeronautical Journal
- Citations: 1
2. Influence of Oxyhydrogen Gas Retrofit into Two-Stroke Engine on Emissions and Exhaust Gas Temperature Variations
- Authors: Kamarudin, R., Ang, Y.Z., Topare, N.S., Baig, R.U., Sultan, S.M., & Mazlan, N.M.
- Year: 2024
- Journal: Heliyon
- Citations: 2
3. Analysis Study of Thermal and Exergy Efficiency in Double-Layers Porous Media Combustion Using Different Sizes of Burner: A Comparison
- Authors: Ismail, N.C., Abdullah, M.Z., Mazlan, N.M., Rusdi, M.S.B., & Kamarudin, R.
- Year: 2024
- Journal: Pertanika Journal of Science and Technology
- Citations: 0
4. Effect of NCO/OH Ratio and Binder Content with Micro-AP on HTPB/AP/Al-Based Propellants Mechanical Properties
- Authors: Adnana, Z., & Mazlan, N.M.
- Year: 2024
- Journal: Advances in Materials Research (South Korea)
- Citations: 0