alexa Abstract | Simulation of Nano Fluid Flow and Natural Convection Heat Transfer in an Incinerator Shaped Cavity Containing a Heated Block
ISSN: 2476-2296

Fluid Mechanics: Open Access
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The present work reports a numerical investigation of characteristic convection in an incinerator molded nook with a limited warmed source arranged at the base. Grid Boltzmann Method (LBM) is utilized to reproduce Nano liquid (water-Al2O3) stream and warmth exchange. Reproductions have been completed for the relevant parameters: Rayleigh number (Ra=103-106), relative warmth source high (0 ≤ δ ≤ 0.5), and relative warmth source width (ε=0.02-0.8). The correlation of the acquired outcomes is in amazing concurrence with results from writing. I might be noticed that the increments of the Rayleigh number (Ra=103-106), the strong volume portion, and the warmth source stature (δ=0.1-0.5) improve the warmth exchange and impacts the stream design and the warm structures and the warmth exchange rate measured by the Nusselt number. However for the relative warmth source width (ε=0.02-0.8), it assumes inverse part for qualities better than 0.4.

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Author(s): Muthuraman Subbiah


Heat transfer, Incinerator geometry, Lattice Boltzmann method, Natural convection, Nano fluid, Autowave Vortex,Dissipative Particle Dynamics,Electron Microscopy, Electronics Fluid Dynamics,Gravitation, Magnetism, Mechanical Engineering, Molecular Dynamics Physics, Quantum Vortex, Radio Astronomy, Scalar Wave, Superconductors, Superfluid?s,Turbulent Flow, Vertical Flow, Vortex, Vortices, Wireless

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