A first engineering principles model for dynamical simulation of cement pyro-process cyclones

arXiv - MATH - Dynamical Systems Pub Date : 2024-09-17 DOI:arxiv-2409.10916
Jan Lorenz Svensen, Nicola Cantisani, Wilson Ricardo Leal da Silva, Javier Pigazo Merino, Dinesh Sampath, John Bagterp Jørgensen
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引用次数: 0

Abstract

We provide a cyclone model for dynamical simulations in the pyro-process of cement production. The model is given as an index-1 differential-algebraic equation (DAE) model based on first engineering principle. Using a systematic approach, the model integrates cyclone geometry, thermo-physical aspects, stoichiometry and kinetics, mass and energy balances, and algebraic equations for volume and internal energy. The paper provides simulation results that fit expected dynamics. The cyclone model is part of an overall model for dynamical simulations of the pyro-process in a cement plant. This model can be used in the design of control and optimization systems to improve energy efficiency and reduce CO2 emission.
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用于水泥热法旋流器动态模拟的第一工程原理模型
我们提供了一个用于水泥生产热工过程动态模拟的旋风模型。该模型是基于第一工程原理的指数-1 微分代数方程(DAE)模型。该模型采用系统化方法,将气旋几何形状、热物理方面、化学计量学和动力学、质量和能量平衡以及体积和内能代数方程整合在一起。论文提供的模拟结果符合预期动态。旋风分离器模型是水泥厂热工过程动态模拟整体模型的一部分。该模型可用于控制和优化系统的设计,以提高能源效率和减少二氧化碳排放。
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arXiv - MATH - Dynamical Systems
arXiv - MATH - Dynamical Systems
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