Ayşegül Öztürk scite author profile

The steady fully developed laminar flow and heat transfer of an electrically conducting viscous fluid between two parallel plates heated with a constant heat flux is investigated analytically in the presence of a transverse magnetic field. The momentum and energy equations are solved under the first order boundary conditions of slip velocity and temperature jump. The effects of the Knudsen number, Brinkman number and Hartmann number on the velocity and temperature distribution and heat transfer characteristics are discussed.

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Buoyancy Effects on Unsteady Laminar and Rotationally Symmetrical Boundary Layer

Öztürk

Ece

1999

Transactions of the Canadian Society for Mechanical Engineering

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Initiai development of the laminar boundary-layer flow over an impulsively started translating and spinning isothermal body of revolution in the case of mixed convection is investigated. Velocity components and temperature are expanded in series in powers of time. Leading and first order functions are obtained analytically and second order functions are determined numerically. The general results are applied to a sphere to investigate the effects of density variations on velocity field and on the onset of separation. The buoyancy force is more effective for small rotational speeds and facilitates the onset of separation for opposing flow and retards it for aiding flow.

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Investigation of the effect of MHD slip flow on heat transfer between parallel plates with second order slip boundary conditions

Şimşek

Öztürk

2021

Heat Trans Res

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Modelling unsteady convective heat transfer for fuel droplets

Ece

Öztürk

2007

Energy Conversion and Management

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