Simulation of multi-component mass diffusion pellet model using least squares spectral element method for steam methane reforming process

机译：用最小二乘谱元素法模拟多分量质量扩散颗粒模型蒸汽甲烷重整过程

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Mass based pellet model has been solved using least-squares formulation to describe the evolution of species composition, pressure, velocity, total concentration, mass diffusion flux in porous pellets for the steam methane reforming (SMR) process. The diffusion-reaction problems are computationally intensive, requiring efficient numerical methods for dealing with them. This paper presents formulation and algorithm of least-squares spectral element method (LS-SEM) for solving multicomponent mass diffusion pellet models. The mass diffusion flux is described according to the rigorous Maxwell Stefan model. The effectiveness factors have been calculated for the SMR process and compared with the literature data. The model evaluations revealed that the least-squares method is well suited for solving the multicomponent mass diffusion pellet models for the SMR process, achieving exponential convergence.

机译：使用最小二乘配方解决了基于质量的颗粒模型，以描述物种组成，压力，速度，总浓度，多孔粒料中的质量扩散通量的蒸汽甲烷重整（SMR）方法的进化。扩散反应问题是计算密集型的，需要有效地处理它们的有效数值方法。本文介绍了用于求解多组分质量扩散颗粒模型的最小二乘光谱元件方法（LS-SEM）的制定与算法。根据严格的麦克斯韦尔斯特凡模型描述质量扩散通量。已为SMR过程计算有效性因素，并与文献数据进行比较。模型评估显示，最小二乘法非常适合于解决SMR过程的多组分质量扩散颗粒模型，实现指数收敛。

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《International Congress of Chemical and Process Engineering》|2013年||共8页
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K. R. Rout; H. A. Jakobsen;
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中图分类化工过程（物理过程及物理化学过程）;
关键词
SMR; Maxwell-Stefan model; mass based pellet model; LS-SEM;

机译：SMR;Maxwell-Stefan模型;基于群众的颗粒模型;LS-SEM.;

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专利

1. SIMULATION OF PELLET MODEL WITH MULTICOMPONENT MASS DIFFUSION CLOSURE USING LEAST SQUARES SPECTRAL ELEMENT SOLUTION METHOD [J] . K. R. Rout, H. A. Jakobsen The Canadian Journal of Chemical Engineering . 2013,第9期

机译：最小二乘谱元求解法模拟多组分弥散封闭的颗粒模型
2. Modeling of multicomponent mass diffusion in porous spherical pellets: Application to steam methane reforming and methanol synthesis [J] . Solsvik J., Jakobsen H.A. Chemical Engineering Science . 2011,第9期

机译：多孔球形颗粒中多组分质量扩散的建模：在蒸汽甲烷重整和甲醇合成中的应用
3. A numerical study of multicomponent mass diffusion and convection in porous pellets for the sorption-enhanced steam methane reforming and desorption processes [J] . Rout K.R., Solsvik J., Nayak A.K., Chemical Engineering Science . 2011,第18期

机译：吸附增强蒸汽甲烷重整和解吸过程中多孔颗粒中多组分质量扩散和对流的数值研究
4. Simulation of multi-component mass diffusion pellet model using least squares spectral element method for steam methane reforming process [C] . K. R. Rout, H. A. Jakobsen International Congress of Chemical and Process Engineering . 2013

机译：用最小二乘谱元素法模拟多分量质量扩散颗粒模型蒸汽甲烷重整过程
5. Heat and mass transfer correlations for steam methane reforming in non-adiabatic, process-intensified catalytic reactors. [D] . Kimmel, Adam S. 2011

机译：非绝热，过程强化催化反应器中蒸汽甲烷重整的传热和传质相关性。
6. Thermochemical Performance Analysis of the Steam Reforming of Methane in a Fixed Bed Membrane Reformer: A Modelling and Simulation Study [O] . João Paulo Fernando de Medeiros, Vitória da Fonseca Dias, José Marcelo da Silva, 2021

机译：固定床膜重整器中甲烷蒸汽重整的热化学性能分析：一种建模与仿真研究
7. Simulation of Multi-Component Mass Diffusion Pellet Model Using Least Squares Spectral Element Method for Steam Methane Reforming Process [O] . Rout K.R., Jakobsen H.A. 2012

机译：最小二乘谱元法模拟甲烷蒸汽重整过程中多组分扩散颗粒模型

Simulation of multi-component mass diffusion pellet model using least squares spectral element method for steam methane reforming process

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