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Faculty Profile
Mohammad Junaid
Lecturer
Contact Information
- Office Address: Department of Mechanical Engineering, Shahjalal University of Science and Technology, Sylhet-3114, Bangladesh
- Phone: +8801851408949
- Email: [email protected]
Research Profile Links
Biography
Mohammad Junaid completed his B.Sc. in Mechanical Engineering from Shahjalal University of Science and Technology in 2024. He has since begun his Master’s by Research in the Department of Industrial and Production Engineering, where he continues to build on his strong academic foundation and commitment to research-driven innovation. His work reflects a multidisciplinary approach that connects engineering, healthcare, and computational science to develop solutions that are technically rigorous, socially meaningful, and economically accessible. He is currently engaged in projects involving Computational Fluid Dynamics (CFD), cardiovascular biomechanics, phase change materials, and thermo-fluid systems. He aims to pursue interdisciplinary research that integrates computational modeling with experimental investigation and practical implementation, with the long-term goal of advancing healthcare technologies and energy-efficient systems that create tangible benefits for communities.
Education
- Master's by Research in Industrial & Production Engineering, Shahjalal University of Science & Technology (SUST), started in 2026.
- B.Sc. in Mechanical Engineering, Shahjalal University of Science & Technology (SUST), 2024
Research Interests
- Computational Fluid Dynamics
- Computational and Experimental Thermo-fluid System
- Bioengineering
- Energy Harvesting and Storage Systems
- Micro and Nanoengineering
Active Research Project
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1. Analyzing Temperature Distribution in Healthy, Malignant (Cancer Cells), and Infected Tissues Under Various Environmental Conditions Based on Computational Efficiency. Project Code: PS/2024/2/23.
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2. Hemodynamic and Oxygen Transport Alterations Due to Bifurcation Angle and Stenosis Severity at the Brachiocephalic Trunk–Subclavian Artery–Common Carotid Artery Junction. Project Code: PS/2025/1/20.
Previous Research Project
- 1. 2024-25, Combined Experimental and Computational Insights into The Influences of Environmental Factors on Human Health Resulting from Different Physical Activities. Funded by University Research Center, SUST
- 2. 2023-24, Bio-heat Transfer Analysis through the Human Body in an Air-conditioned Space and Thereafter in Outdoor Conditions. Funded by University Research Center, SUST
- 3. 2022-23- First aid Treatments for Burn and Scald Injury from the Heat Transfer Aspects, Funded by University Research Center, SUST
- 4. 2019-2020:3D Finite Element Analysis of Bio-heat Transfer through Human Skin during Burns and Their Treatments, Funded by University Research Center, SUST
Journal Publications
- 1. Energy storage efficiency of phase change materials in dual cavities with solid and porous fins (2026)
- 2. Numerical investigation of a phase change materials-textile-embedded cooling cap for prolonged thermal comfort in hot climates (2026)
- 3. CFD Analysis of Dual‐Layer PCM Roofs for Thermal Mitigation in Residential Buildings (2026)
- 4. Numerical evaluation of a dual phase change material integrated cap for prolonged thermal protection in extreme heat (2025)
- 5. Removal of Fungal Pathogens from Fingernails through Hyperthermal Treatments: A Mathematical Foundation in the Field of Computational Perspective (2025)
- 6. Effect of after burn cooling on temperature and damage of human skin: A finite element approach (2025)
- 7. Enhanced thermal response of phase change materials using optimized fin geometries in a dual-enclosure heat storage unit (2025)
- 8. Impact of bifurcation angle on hemodynamics and oxygen delivery in stenosed arterial junctions (2025)
- 9. Running water as first aid for burn and early hypothermia: A numerical investigation on human skin (2024)
- 10. Computational insights into survival durations and prehospital interventions in accidental cold-water immersion: A comprehensive analysis of fresh and saltwater temperatures (2024)
- 11. Phase change material performance in chamfered dual enclosures: Exploring the roles of geometry, inclination angles and heat flux (2024)
- 12. Physical activities aid in tumor prevention: A finite element study of bio-heat transfer in healthy and malignant breast tissues (2024)
Conference
- 1. Development and Validation of a Bio-heat Transfer Model for Human Abdomen with a Relation Between Skin Temperature and Abdomen Fat (2025)
Book/ Book Chapter
Awards & Recognition
- Centro Tex Ltd. Chairman-Leadership Award 2024
- University Merit Scholarship