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A brief overview is given on the ca
A brief overview is given on the capabilities and on the current limitations of the Discrete Element Method (DEM) coupled with Computational Fluid Mechanics (CFD) to simulate chemical reacting moving granular material. An approach to resolve the internal transport and reaction phenomena in particles of complex geometry is presented. Heat and mass transfer from and to the particles are accounted for as well as heat transfer between particles and between particles and a surrounding gas phase including radiation. Gas phase reactions outside the particle interact with inner particle processes.(#br)Examples will be shown to demonstrate the capabilities of DEM/CFD coupling. These examples are an industrial scale lime shaft kilns, the simulation of a domestic pellet stove and a grate firing system for the incineration of municipal waste. The advantages of a DEM/CFD approach will be highlighted but also the still existing drawbacks and limitations are discussed. The paper ends with an outlook on necessary developments to make DEM/CFD a standard engineering tool for chemically reacting granular material.
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简要概述在能力和上,以模拟化学反应移动颗粒材料加上计算流体力学(CFD)的离散元法(DEM)的当前限制给出。解决复杂的几何形状的颗粒内部传输和反应现象的方法,提出。热并从和向所述颗粒的质量传递是占颗粒之间以及颗粒和周围的气体相,包括辐射之间以及热传递。与内粒子处理粒子相互作用外的气相反应。(#BR)实施例将示出展示DEM / CFD耦合的能力。这些例子是工业规模石灰竖窑,国内球团炉的模拟和城市垃圾焚烧炉排燃烧系统。一个DEM / CFD方法的优点将被突出显示,而且仍然存在的缺点和限制进行了讨论。与必要的发展前景的纸张端部,以使DEM / CFD对粒状材料进行化学反应标准工程工具。
正在翻译中..
A brief overview is given on the capabilities and on the current limitations of the Discrete Element Method (DEM) coupled with Computational Fluid Mechanics (CFD) to simulate chemical reacting moving granular material. An approach to resolve the internal transport and reaction phenomena in particles of complex geometry is presented. Heat and mass transfer from and to the particles are accounted for as well as heat transfer between particles and between particles and a surrounding gas phase including radiation. Gas phase reactions outside the particle interact with inner particle processes.(#br)Examples will be shown to demonstrate the capabilities of DEM/CFD coupling. These examples are an industrial scale lime shaft kilns, the simulation of a domestic pellet stove and a grate firing system for the incineration of municipal waste. The advantages of a DEM/CFD approach will be highlighted but also the still existing drawbacks and limitations are discussed. The paper ends with an outlook on necessary developments to make DEM/CFD a standard engineering tool for chemically reacting granular material.
正在翻译中..
简要综述了离散单元法(DEM)与计算流体力学(CFD)相结合模拟化学反应运动颗粒材料的能力和局限性。提出了一种解决复杂几何粒子内输运和反应现象的方法。从粒子到粒子的热量和质量传递,以及粒子之间、粒子与包括辐射在内的周围气相之间的热量传递。颗粒外部的气相反应与内部颗粒过程相互作用。(#br)将展示示例以证明DEM/CFD耦合的能力。这些例子包括工业规模的石灰竖窑、模拟生活颗粒炉和用于焚烧城市垃圾的炉排燃烧系统。将强调DEM/CFD方法的优点,但也讨论了仍然存在的缺点和局限性。本文最后展望了使DEM/CFD成为化学反应颗粒材料标准工程工具的必要发展。
正在翻译中..
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