Md Jaynul Abden | Building Energy Efficiency | Best Researcher Award

Published on by Popular Engineer

Dr. Md Jaynul Abden | Building Energy Efficiency | Best Researcher Award

Postdoctoral Research Fellow, Western Sydney University, Australia

MD Jaynul Abden is a Postdoctoral Research Fellow in Materials Engineering at Western Sydney University, with extensive expertise in advanced materials synthesis and processing. Specializing in energy storage, thermal management, aerospace, and mechanical engineering, his research has driven innovation in these fields since 2014. In addition to his research, he is committed to educating future engineers and has mentored students while delivering high-quality instruction. His career has involved collaborative projects that integrate sustainability and multifunctional material design, particularly focusing on energy-efficient building materials. Abden’s dedication to advancing material innovation is evident in his ongoing efforts to reduce environmental impacts through sustainable practices.

Profile

Education

MD Jaynul Abden holds a Doctor of Philosophy (PhD) in Material Engineering from Western Sydney University, Australia, where he developed novel form-stable composite phase change materials. His work has contributed significantly to advancements in thermal regulation for building applications. He also earned a Master of Philosophy (MPhil) in Material Science from Chittagong University of Engineering and Technology (CUET), Bangladesh, focusing on Al2O3-ZrO2 composites. In 2004, he completed his Master of Science (MS) in Physics with a high GPA of 3.60/4.00 and was awarded First Class Honors in his Bachelor of Science (BSc) degree in Physics from Chittagong University, Bangladesh. Abden’s academic background, combined with his research and teaching experience, enables him to blend deep technical knowledge with a practical approach to materials innovation.

Experience

MD Jaynul Abden has extensive experience as a researcher, educator, and academic mentor. He is currently serving as a Postdoctoral Research Fellow at Western Sydney University, where he leads cutting-edge research on sustainable and energy-efficient materials. His role involves investigating material properties, developing experimental models, and collaborating with industry partners. Prior to this, Abden worked as a Research Assistant, contributing to the development of energy-efficient concrete and solar roof tiles. As a Casual Teacher, he has also enhanced student engagement and academic performance through dynamic teaching methods. Earlier in his career, Abden served as an Assistant Professor and Lecturer at International Islamic University Chittagong, where he improved program participation and co-authored impactful research papers. His diverse roles reflect his versatility and dedication to advancing both research and education in materials engineering.

Awards and Honors

MD Jaynul Abden’s career is marked by numerous prestigious awards and recognitions. Notably, he received the Research Training Program Scholarship and the Australian Postgraduate Award in 2017, which supported his doctoral research. In 2023, he was awarded the CO2 Absorption for Magnesium Oxide Boards grant and the School Strategic Research Project award at Western Sydney University. Abden’s contributions to the scientific community have earned him Elsevier Reviewer Recognition in 2018. His merit-based scholarships, including those during his undergraduate and postgraduate studies, reflect his academic excellence. Additionally, Abden was awarded the Bangladesh Sena Kalyan Shongstha Merit Scholarship in 1999, further highlighting his early academic achievements. These honors demonstrate his dedication to research excellence, teaching, and innovation in materials engineering.

Research Focus

MD Jaynul Abden’s research focuses on enhancing material performance through the synthesis and processing of advanced materials for applications in energy storage, thermal management, aerospace, and mechanical engineering. He is particularly interested in the development of sustainable and energy-efficient materials, such as form-stable composite phase change materials (FSPCM) for thermal regulation in buildings. Abden’s work integrates energy simulations, lifecycle analysis, and multi-model comparisons to optimize material performance in real-world environments. His research has led to the development of innovative solutions, such as energy-efficient recycled concrete and solar roof tiles. By focusing on multifunctional materials, Abden aims to address complex technological challenges, improve energy efficiency, and reduce environmental impacts. His contributions to both academia and industry make him a key figure in advancing sustainable material solutions in construction and engineering sectors.

Publication Top Notes

  1. Physical Properties of Predicted Ti2CdN vs. Existing Ti2CdC MAX Phase: An Ab Initio Study 🔬🧑‍🔬

  2. Inclusion of Methyl Stearate/Diatomite Composite in Gypsum Board Ceiling for Building Energy Conservation 🏠🌍

  3. Multifunctional Hierarchical Graphene-Carbon Fiber Hybrid Aerogels for Strain Sensing and Energy Storage 💡⚡

  4. Improving Performance of Solar Roof Tiles by Incorporating Phase Change Material ☀️🏠

  5. Hierarchical Honeycomb Graphene Aerogels Reinforced by Carbon Nanotubes with Multifunctional Mechanical and Electrical Properties 🧪🔋

  6. Combined Use of Phase Change Material and Thermal Insulation to Improve Energy Efficiency of Residential Buildings 🏠🌞

  7. Microstructure and Mechanical Properties of 3YSZ Ceramics Reinforced with Al2O3 Particles 🏗️🧱

  8. Structural and Electrical Properties of Cu Substituted Ni–Cd Nanoferrites for Microwave Applications 📡💡

  9. Core-Shell Structured Graphene Aerogels with Multifunctional Mechanical, Thermal, and Electromechanical Properties 🧬🔧

  10. Pressureless Sintering and Mechanical Properties of Hydroxyapatite/Functionalized Multi-Walled Carbon Nanotube Composite 🦴💪

Federico Di Prospero | Thermal Energy Recovery | Mechanical Engineering Award

Published on by Popular Engineer

Dr. Federico Di Prospero | Thermal Energy Recovery | Mechanical Engineering Award

PhD student, University of L’Aquila, Italy

Federico Di Prospero is an aspiring mechanical engineer with a focus on sustainable energy and combustion technologies. He holds a Bachelor’s Degree in Industrial Engineering and a Master’s Degree in Mechanical Engineering from the University of L’Aquila, where he graduated with honors. Federico is currently pursuing a PhD in Industrial Engineering and has received his certification as an industrial engineer. His academic and research interests center around improving energy efficiency and reducing CO2 emissions in internal combustion engines. He has contributed to several international publications, reflecting his expertise and commitment to environmental engineering solutions.

Profile

Education

Federico completed his secondary education at Liceo Scientifico A.Bale in L’Aquila (2017). He then pursued a Bachelor’s Degree in Industrial Engineering at the University of L’Aquila, graduating in 2020. Continuing his academic journey, he completed a Master’s Degree in Mechanical Engineering at the same institution in 2023, earning the highest distinction with a 110 e Lode. His thesis focused on reducing CO2 emissions in internal combustion engines, specifically by integrating energy recovery systems through turbines downstream of the turbocharger. Currently, Federico is pursuing a PhD in Industrial Engineering and has obtained certification as a licensed Industrial Engineer. His academic path demonstrates a strong commitment to both technical and research excellence, particularly in sustainable engineering.

Experience

Federico has accumulated a diverse range of experiences in both academia and research. His early academic focus was on industrial engineering, but his passion for mechanical engineering led him to specialize in energy recovery technologies. During his Master’s studies, he worked on advanced research projects exploring turbocompound energy recovery and CO2 emissions reduction. Federico has also participated in prestigious seminars and conferences, including those related to internal combustion engine (M.C.I.) technologies and the H2ICE project. He gained valuable research experience in the School for Experimental Sciences at the Gran Sasso National Laboratories, where he worked on cutting-edge energy recovery technologies. His practical skills include advanced proficiency in software like CATIA V5, Ansys, Matlab, and R, as well as expertise in CAE and CAD tools. His experience aligns with his dedication to solving the modern challenges of energy sustainability and efficiency.

Research Focus

Federico Di Prospero’s research focuses on energy recovery systems and CO2 emission reduction in internal combustion engines (ICEs). His Master’s thesis explored the integration of turbocompound energy recovery systems to capture and reuse exhaust gases, ultimately improving engine efficiency and reducing harmful emissions. His ongoing doctoral research in Industrial Engineering builds upon these concepts, with an emphasis on sustainable energy solutions and the optimization of mechanical systems. Federico’s work integrates simulation tools such as Matlab, R, Ansys, and CATIA V5, and his expertise in computer-aided engineering and finite element analysis supports the development of more effective and eco-friendly engine technologies. By focusing on the environmental impacts of industrial technologies, his research seeks to advance energy recovery solutions for both the automotive and energy sectors. This work has the potential to play a pivotal role in advancing green technology in mechanical engineering.

Publication Top Notes

  1. Turbocompound Energy Recovery Option on a Turbocharged Diesel Engine (2023)
  2. Dual-Stage Energy Recovery from Internal Combustion Engines (2025)
  3. Model-Based Design of a Turbo-Compound Bottomed to Internal Combustion Engine Exhaust Gas (2023)