下吸式生物质气化炉还原区的数学建模

Akshat Srivastav, P. Arun, C. Muraleedharan
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摘要

近年来,气化已成为最重要的生物质转化过程。迫切需要一种精确的数学模型,以节省进行昂贵实验的成本和时间。在本研究中,建立了一个一维模型,并在MATLAB中求解,以模拟下吸式气化炉。该模型考虑了热解分数和焦炭反应性因子的重要影响。考虑到所涉及的反应动力学,求解了质量和能量平衡。然后得到产物的组成、速度和压力分布以及还原区内的温度分布。模型计算结果与实验结果吻合较好。
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Mathematical Modeling of Reduction Zone of a Downdraft Biomass Gasifier
Gasification has become the most important biomass conversion processes in recent years. There is an imperative need of an accurate mathematical model that can save cost and time from performing expensive experiments. In this study, a one-dimensional model is developed and solved in MATLAB to simulate a downdraft gasifier. The model incorporates the crucial effect of the pyrolysis fraction and char reactivity factor. The mass and energy balance are solved taking into account the kinetics of the reactions involved. The product composition, velocity, and pressure distribution along with temperature profile in the reduction zone are then obtained. The results obtained from the model are in close agreement with the experimental results.
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