Heat Transport Along an Oscillating Flat Plate

“…In all the studies mentioned above, a periodic pressure gradient produced by moving pistons or membranes is responsible to generate the oscillations in the fluid. Kurzweg and Chen have established that the same enhanced heat transfer can occur along a rigid wall bounded by a viscous incompressible fluid when the wall executes a periodic motion parallel to the fluid–solid interface, when a constant longitudinal temperature gradient is superimposed on the fluid. They have examined the formation and the role of thermal boundary layer in this thermal pumping process.…”

“…Hence, Puvaneswari and Shailendhra have extended the same problem by considering the wall to be thermally conducting and analyzed the effects of conjugation on the net heat flux transported and the thermal boundary layer thickness. Further, Shailendhra and Anjali Devi extended the problem by applying a transverse magnetic field and analyzed its effect on the net heat flux transported and the thermal boundary layer thickness. In the present work, the problem is extended to the magnetic case and the combined effects of conjugation and magnetic field on the enhancement of heat transfer are analyzed explicitly.…”

Enhancement of Heat Transfer in a Laminar Hydromagnetic Flow of a Liquid Metal Past a Thermally Conducting and Oscillating Infinite Flat Plate

“…In all the studies mentioned above, a periodic pressure gradient produced by moving pistons or membranes is responsible to generate the oscillations in the fluid. Kurzweg and Chen have established that the same enhanced heat transfer can occur along a rigid wall bounded by a viscous incompressible fluid when the wall executes a periodic motion parallel to the fluid–solid interface, when a constant longitudinal temperature gradient is superimposed on the fluid. They have examined the formation and the role of thermal boundary layer in this thermal pumping process.…”

“…Hence, Puvaneswari and Shailendhra have extended the same problem by considering the wall to be thermally conducting and analyzed the effects of conjugation on the net heat flux transported and the thermal boundary layer thickness. Further, Shailendhra and Anjali Devi extended the problem by applying a transverse magnetic field and analyzed its effect on the net heat flux transported and the thermal boundary layer thickness. In the present work, the problem is extended to the magnetic case and the combined effects of conjugation and magnetic field on the enhancement of heat transfer are analyzed explicitly.…”

Enhancement of Heat Transfer in a Laminar Hydromagnetic Flow of a Liquid Metal Past a Thermally Conducting and Oscillating Infinite Flat Plate

“…Furthermore, the centrifugal and gravitational forces have been combined with the appropriate pressure terms from Equation (4). They are non-dimensionalized with respect to zV 0 2 in the axial direction and with respect to z(w/D) 2 in the cross-section.…”

“…Movements such as uniform rotation about an axis either parallel or perpendicular to the main flow direction [1][2][3], oscillatory translation [4,5] or axial oscillations [6] have been studied numerically, analytically and experimentally. Most theoretical investigations deal with the fully developed laminar flow case and consider steady or fully established periodic conditions.…”

Transient effects of orthogonal pipe oscillations on laminar developing incompressible flow

“…Due to the potential use of this configuration in a large number of applications, this problem has been studied in detail [6,7]. Heat transport in a boundary layer from an oscillating flat plate with a linear temperature gradient can achieve a large heat flux due to the interaction of a transverse conduction flux with the periodic longitudinal convection [8].…”

Temperature distribution in an oscillatory flow with a sinusoidal wall temperature