Results 131 to 140 of about 488 (167)
A perspective on field-effect in energy and environmental catalysis. [PDF]
Chem SciLi H +5 more
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Heat and mass transfer analysis of s-PTT nanofluid in microchannels under combined electroosmotic and pressure-driven flows with wall slip using the homotopy perturbation method. [PDF]
HeliyonKananipour M +3 more
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A Novel Hybrid Deep Learning Method for Predicting the Flow Fields of Biomimetic Flapping Wings. [PDF]
Biomimetics (Basel)Hu F, Tay W, Zhou Y, Khoo B.
europepmc +1 more source
Magnetohydrodynamic Drive forWater-Based CubeSat Propulsion
2023 Regional Student Conferences, 2023 [ES] Se ha desarrollado un modelo analítico para estimar el rendimiento de una nueva arquitectura de célula electrolítica magnetohidrodinámica (MHD) de microgravedad. Esta tecnología se encuentra actualmente en desarrollo con el objetivo final de separar el hidrógeno y el oxígeno del agua en microgravedad.
Macià Monfort-Castillo +1 more
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Current drive via magnetohydrodynamic helicity waves
Physical Review Letters, 1989 We explore fundamentals of low-frequency current drive produced by a packet of arbitrarily polarized nonlinear shear Alfven waves in an infinite, uniform magnetized plasma. Analysis of the magnetohydrodynamic equations with resistivity and viscosity yields coupled nonlinear equations for the Alfven wave amplitude and an induced magnetic field ...
Richard R. Mett, J. A. Tataronis
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2023 IEEE World Haptics Conference (WHC), 2023 Hydraulic and pneumatic actuators in haptics offer the advantage of soft and compliant interfaces, with the drawback of cumbersome driving devices and limited modulation capabilities. We propose a miniature hydraulic actuator based on a linear electromagnetic motor with an embedded ferrofluid sealing.
Daniele Leonardis +2 more
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An optofluidic variable optical attenuator based on magnetohydrodynamic drive
SPIE Proceedings, 2016 With the development of optical communication, the optical attenuator becomes an important passive device. It is widely used in power equalization of DWDM system and photo detectors. Here an optofluidic variable optical attenuator (VOA) based on magnetohydrodynamic drive is presented.
Fenglan Xue +5 more
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Magnetohydrodynamic Microfluidic Drive of Ionic Liquids
Journal of Microelectromechanical Systems, 2014 Ionic liquids are increasingly attracting the attention of researchers in both academia and industry. However, research into ionic liquids is mainly limited in chemistry, and the electromagnetic characteristics and microfluidic/optofluidic applications of ionic liquids have been rarely studied.
Jing Wan +5 more
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Magnetohydrodynamic current drive for fusion confinement
IEEE Conference Record - Abstracts. 1999 IEEE International Conference on Plasma Science. 26th IEEE International Conference (Cat. No.99CH36297), 1999 Summary form only given, as follows. A closed current loop in a plasma is an effective means of confining plasma for fusion reactions, and is widely used in the tokamak and a variety of other toroidal systems. The problem is that the current loops are typically formed by induction, and therefore limited to pulsed operation.
G.B.K. Meacham, B.J. Quill
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Physics of Plasmas, 2000 A numerical model has been developed to study the use of a Rotating Magnetic Field (RMF) as an electron current drive mechanism for the formation and sustainment of a field-reversed configuration (FRC). Previous models assumed a fixed ion model, but here a full two-dimensional (r-θ) magnetohydrodynamic model has been developed.
R. D. Milroy
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