Advanced study of wavy dynamical behavior of suspended living organisms in generalized nanomaterials with magnetic and buoyancy effects. [PDF]
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Advancing Renewable Energy Systems: A Numerical Approach to Investigate Nanofluidics' Role in Engineering Involving Physical Quantities. [PDF]
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Series Solutions of Three-Dimensional Magnetohydrodynamic Hybrid Nanofluid Flow and Heat Transfer. [PDF]
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Numerical Magnetohydrodynamics
Fusion Science and Technology, 2008The ideal MagnetoHydroDynamic (MHD) equations accurately describe the macroscopic dynamics of a perfectly conducting plasma. Adopting a continuum, single fluid description in terms of the plasma density rho, velocity v, thermal pressure p and magnetic field B, the ideal MHD system expresses conservation of mass, momentum, energy, and magnetic flux ...
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Abstract This chapter discusses some basic aspects of magnetohydrodynamics (MHD) through two alternate presentations. The first describes a fluid physical of MHD based upon guiding-center particle motion, while the second is based on MHD from Braginskii's equation.
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