Modelling and simulation of cross flow grain dryers.
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2013
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A mathematical model, algorithm, and computer program were developed to simulate the performance of cross flow grain dryers and cross flow dryers with energy saving. The mass and heat transfer processes were described by a system of four non-linear partial differential equations. This system of equations was solved by the MacCormack method with time splitting. The Neumann method was used to determine convergence. The sourceterms in these equations were computed by auxiliary semi-empirical equations obtained by experimental data from thin layer drying. Equipment developed to obtain these data permitted variation of the initial air humidity, temperature, and velocity. Fixed bed drying experiments were conducted to validate the model. Simulations using various control regimens were made to determine the impact on energy consumption and cross flow dryer performance due to recycling air exhausted from various stages of the dryer. An iterative process was used to determine the initial conditions at the entrance to each section of the dryer. The computer simulations were used to evaluate the non-uniformity of temperature and grain moisture content distributions in dryers, the duration of the drying process and the energy efficiency for each geometry and control regimen.
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KHATCHATOURIAN, O. A.; VIELMO, H. A.; BORTOLAIA, L. A. Modelling and simulation of cross flow grain dryers. Biosystems Engineering, v. 116, p. 335-345, 2013. Disponível em: <http://www.sciencedirect.com/science/article/pii/S153751101300144X>. Acesso em: 09 abr. 2015.