Simulation of Heat Transfer in Husk Furnace with Cone Geometry Based on Conical Coordinate System

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Abstract

Simulation of Heat Transfer in Husk Furnace with Cone Geometry Based on Conical Coordinates has been performed. This simulation aimed to study the heat distribution of temperature based on conduction and convection mechanism on conical coordinate system. Fluid dynamics inside the cone of husk furnace was obtained by solving the Navier - Stokes equations with laminar flow approach. The initial temperature in all parts of the cone is room temperature, except at the bottom of the cone is 700 °C. Through numerical calculation of heat conduction and convection equation by FDM method, we got that the velocity of fluid flow at the center cone is 13.69 m/s for 45 s, 11.90 m/s for 60 s, and 7.25 m/s for 120 s, with unfixed temperature condition in the cone.

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Noor, I., Ahmad, F., Irzaman, & Alatas, H. (2017). Simulation of Heat Transfer in Husk Furnace with Cone Geometry Based on Conical Coordinate System. In Journal of Physics: Conference Series (Vol. 877). Institute of Physics Publishing. https://doi.org/10.1088/1742-6596/877/1/012025

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