F
Farshad Shakeriaski
Researcher at Shahid Bahonar University of Kerman
Publications - 18
Citations - 265
Farshad Shakeriaski is an academic researcher from Shahid Bahonar University of Kerman. The author has contributed to research in topics: Nonlinear system & Computer science. The author has an hindex of 5, co-authored 14 publications receiving 109 citations. Previous affiliations of Farshad Shakeriaski include University of New South Wales.
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Nanomaterial between two plates which are squeezed with impose magnetic force
Houman Babazadeh,Taseer Muhammad,Farshad Shakeriaski,Muhammad Ramzan,Muhammad Ramzan,Mohammed Reza Hajizadeh +5 more
TL;DR: In this article, the role of altering Lorentz force on nanomaterial flowing within two discs and its thermal behavior is surveyed, and it is concluded that growth of S guides to reduce in Nu and similar tendency can be seen for A because of reduction of temperature gradient with rise of amount of inlet velocity.
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Role of magnetic force on the transportation of nanopowders including radiation
Tran Dinh Manh,Fatemeh Salehi,Ahmad Shafee,Nguyen Dang Nam,Farshad Shakeriaski,Houman Babazadeh,Ali Vakkar,Iskander Tlili +7 more
TL;DR: In this paper, Runge-Kutta method is applied to achieve solutions of ordinary differential equations acquired from a resemblance solution, considering the influences of Brownian movement, Koo-Kleinstreuer-Li equation is utilized for simulating the CuO-water's features and the impact of significant factors including magnetic factors, speed ratio factors, temperature index, radiation and nanofluid mass fraction on hydrothermal pattern is expressed.
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Nanomaterial thermal treatment along a permeable cylinder
Yong Li,Farshad Shakeriaski,Azeez A. Barzinjy,Azeez A. Barzinjy,Rebwar Dara,Ahmad Shafee,Iskander Tlili +6 more
TL;DR: In this article, the authors investigated the nanomaterial stream and its thermal features on a cylinder which is porous and computed the nanofluid viscosity and the efficient thermal conductivity by KKL equation.
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Existing Improvements in Simulation of Fire–Wind Interaction and Its Effects on Structures
TL;DR: In this article, a detailed overview of existing investigations into the fire-wind interaction phenomena is provided, including the fanning effect of wind, wind direction and slope angle, and the impact of wind on fire modelling, and relevant analysis techniques are evaluated.
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Recent advances in generalized thermoelasticity theory and the modified models: a review
TL;DR: Given that the classical theory is feeble in simulating the temperature distribution, especially in the structures under a sudden thermal shock, this review may be a useful tool for researchers who work in sensitive industries such as steam turbines, micro-temperature sensors, and lithium battery manufacturing.