Graduated, Shiraz University, Iran
Farhad Zare is a Mechanical Engineer specializing in computational fluid dynamics (CFD) and biomechanics. With an academic background that includes a master’s degree from Shiraz University and a deep interest in drug delivery systems, his research aims to bridge the gap between theoretical simulations and real-world applications. Over the years, Farhad has demonstrated expertise in numerical simulations, fluid mechanics, and microfluidics. His focus on applying computational models in healthcare, especially in nasal drug delivery, showcases his interdisciplinary approach. Farhad is also passionate about mentoring students and sharing his knowledge through his educational YouTube channel, infinitycfd.
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Education
Farhad Zare completed his M.Sc. in Mechanical Engineering—Energy Conversion from Shiraz University (2015-2018), one of the top universities in Iran. His thesis focused on the numerical simulation of drug delivery in the human nasal cavity via a nasal spray device, earning him an excellent degree with a GPA of 3.57/4.0. Prior to this, he obtained his B.Sc. in Mechanical Engineering from Persian Gulf University (2010-2014), where he ranked in the top 10% of his class with a GPA of 3.53/4.0. During his undergraduate years, Farhad worked on the simulation of bed deformation in water channel flow with non-Newtonian deformable beds. His solid academic performance and strong technical background have laid the foundation for his research in fluid dynamics, biomechanics, and computational simulations.
Experience
Farhad Zare has accumulated significant experience in both research and practical applications of mechanical engineering. His numerical simulation projects include drug delivery systems, microfluidics, and the impact of surface roughness on flow characteristics in micro-channels. He has worked with advanced tools like Ansys Fluent, OpenFOAM, and SolidWorks, applying them to simulations of heat exchangers, helical geometries, and complex fluid flows. Farhad also has a solid track record as a mentor and teacher assistant, helping M.Sc. and B.Sc. students. His practical experience includes internships in piping design and maintenance for a sugar factory and water supply and sanitation systems. Additionally, Farhad has been active in the educational field through his YouTube channel, infinitycfd, where he shares his expertise in CFD with a wider audience.
Awards and Honors
Farhad Zare has received multiple accolades for his academic and extracurricular achievements. He was awarded full scholarships for both his graduate and undergraduate studies due to his excellent academic performance. Farhad’s commitment to excellence was recognized when he earned an excellent grade for his master’s thesis, a significant milestone in his educational journey. Additionally, he placed second in the provincial Kyokushin sport competition in Shiraz, Iran, which highlights his perseverance and discipline outside the academic realm. These awards reflect his dedication to both his professional field and personal development, positioning him as an outstanding candidate for future research endeavors and leadership roles in mechanical engineering and biomechanics.
Research Focus
Farhad Zare’s research interests revolve around computational fluid dynamics (CFD), biomechanics, and the simulation of particle and droplet dynamics. His focus includes analyzing the trajectory and fate of particles in complex flow systems, such as nasal drug delivery. He has developed advanced numerical models to study drug deposition in the human nasal cavity and microfluidic systems. His research in microfluidics and MEMS (micro-electromechanical systems) aims to optimize the design and functionality of medical devices, particularly in the realm of targeted drug delivery. Farhad also explores the interaction of surface roughness and airflow within micro-channels, contributing to advancements in both biomedical engineering and mechanical system optimization. By combining his knowledge of CFD, fluid mechanics, and biomechanics, Farhad aspires to make significant contributions to healthcare applications, including more efficient and effective drug delivery devices.
Publication Top Notes
- Optimized gravity-driven intranasal drop administration delivers significant doses to the ostiomeatal complex and maxillary sinus 🌿💉 Drug Delivery and Translational Research, 2023
- Targeted drug delivery to the inferior meatus cavity of the nasal airway using a nasal spray device with angled tip 💡🔬 Computer Methods and Programs in Biomedicine, 2022