Gpyro3D: A Three Dimensional Generalized Pyrolysis Model

C. Lautenberger
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引用次数: 36

Abstract

All objects that burn in fires are three dimensional. However, almost all previous attempts to model the burning or pyrolysis of real materials has resorted to a one-dimensional description. This paper presents the mathematical formulation of Gpyro3D, a generalized three dimensional pyrolysis model that solves conservation equations for transport of heat, mass, and species in a chemically reacting porous medium, as well as its coupling to NIST’s Fire Dynamics Simulator (FDS) for simulating fire development. Gpyro3D facilitates pyrolysis modeling in complex geometries by masking grid cells on a regular Cartesian grid, similar to the way that geometry is specified in FDS. The model’s mathematical formulation is verified by comparing numerical simulations to analogous exact solutions. Next, it is shown that Gpyro3D qualitatively captures the major three dimensional features of long-duration (> 1 hour) oxidative pyrolysis of wet wood under radiative heating. Finally, fire development in a wood crib is simulated with the coupled Gpyro3D/FDS model. By observing condensed-phase temperature contours within burning elements of the wood crib, it is shown that strong three dimensional effects are present.
Gpyro3D:三维广义热解模型
所有在火中燃烧的物体都是三维的。然而,几乎所有以前尝试模拟真实材料的燃烧或热解都诉诸一维描述。本文介绍了Gpyro3D的数学公式,Gpyro3D是一种广义的三维热解模型,可以解决化学反应多孔介质中热量、质量和物质传递的守恒方程,以及它与NIST的火灾动力学模拟器(FDS)的耦合,用于模拟火灾的发展。Gpyro3D通过在规则的笛卡尔网格上遮蔽网格单元,促进了复杂几何形状的热解建模,类似于FDS中指定几何形状的方式。通过数值模拟与类似精确解的比较,验证了模型的数学公式。结果表明,Gpyro3D定性捕捉了湿木材在辐射加热下长时间(> 1小时)氧化热解的主要三维特征。最后,用Gpyro3D/FDS耦合模型模拟了木槽内的火灾发展。通过观察木槽内燃烧元素的凝析相温度曲线,表明存在强烈的三维效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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