M
Mohammad Mastiani
Researcher at Florida Atlantic University
Publications - 19
Citations - 531
Mohammad Mastiani is an academic researcher from Florida Atlantic University. The author has contributed to research in topics: Heat transfer & Nanofluid. The author has an hindex of 14, co-authored 19 publications receiving 408 citations. Previous affiliations of Mohammad Mastiani include Arizona State University & Urmia University of Technology.
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Numerical study of the melting of nano-enhanced phase change material in a square cavity
Seyed Sahand Sebti,Mohammad Mastiani,Hooshyar Mirzaei,Abdolrahman Dadvand,Sina Kashani,Seyed Amir Hosseini +5 more
TL;DR: In this paper, a numerical study was conducted to investigate heat transfer enhancement during the melting process in a 2D square cavity through dispersion of nanoparticles, and the results were presented in terms of temperature and velocity profiles, streamlines, isotherms, moving interface position, solid fraction and dimensionless heat flux.
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Performance evaluation of environmentally benign nonionic biosurfactant for enhanced oil recovery
Seokju Seo,Mohammad Mastiani,Babak Mosavati,Derek Michael Peters,Philippe Mandin,Myeongsub Kim +5 more
TL;DR: In this paper, the performance of a highly biodegradable nonionic surfactant derived from tannic acid, a possible alternative, was evaluated using a microfluidic technology for the replacement of chemically synthesis surfactants by green chemistry products.
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Microscale thermometry
Myeongsub Kim,Alexandre Giry,Mohammad Mastiani,Gustavo O. Rodrigues,Alessandro Reis,Philippe Mandin +5 more
TL;DR: In this paper, a comprehensive review of various advanced microscale thermometry techniques for measurements of bulk fluid or wall surface temperature fields is presented, focusing on how they measure temperature information at the micro-scale, i.e., either contact or noncontact methods.
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Flow regime mapping of aqueous two-phase system droplets in flow-focusing geometries
TL;DR: In this article, the hydrodynamic behavior and mechanisms of all-aqueous droplet formation in two flow-focusing droplet generators were investigated and the results showed that droplet size is very susceptible to the junction angle.
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Entropy generation and natural convection of nanoparticle-water mixture (nanofluid) near water density inversion in an enclosure with various patterns of vertical wavy walls
TL;DR: It was found that both the density inversion and the presence of nanoparticles play a significant role in the flow field structure, heat transfer characteristics and entropy generation and the Boussinesq approximation gave rise to the higher average heat transfer rate and entropygeneration as compared to non-Boussineq approximation.