真实气体的简化粗颗粒动力学模型

物理化学期刊(英文) Pub Date : 2017-05-11 DOI:10.4236/OJPC.2017.72005

P. G. Papadopoulos, C. Koutitas, Yannis N. Dimitropoulos, E. Aifantis

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引用次数: 0

摘要

为了便于理解粗粒度技术并实现气体行为的第一近似，提出了一个简化模型。在一个立方体容器中，气体物质的摩尔数由六个对称运动的粒子表示。考虑了粒子对容器壁的影响、粒子间碰撞、粒子体积和粒子间吸引力，遵循Lennard-Jones曲线。由于对称性，该问题被简化为SDOF振荡器的非线性动力学分析，并通过逐步时间积分算法进行数值求解。介绍了所提出的模型在二氧化碳方面的五个应用：1）STP条件下的理想气体。2） STP条件下的实际天然气。3）小摩尔体积的冷凝。4）关键点。5）临界点区域的等动能曲线和等热流。将所提出的模型的结果与实际气体的试验数据和范德华模型的结果进行了比较。

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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Simplified Coarse-Grained Dynamic Model for Real Gases

A simplified model is proposed for an easy understanding of the coarse-grained technique and for achieving a first approximation to the behavior of gases. A mole of a gas substance, within a cubic container, is represented by six particles symmetrically moving. The impacts of particles on container walls, the inter-particle collisions, as well as the volume of particles and the inter-particle attractive forces, obeying a Lennard-Jones curve, are taken into account. Thanks to the symmetry, the problem is reduced to the nonlinear dynamic analysis of a SDOF oscillator, which is numerically solved by a step-by-step time integration algorithm. Five applications of proposed model, on Carbon Dioxide, are presented: 1) Ideal gas in STP conditions. 2) Real gas in STP conditions. 3) Condensation for small molar volume. 4) Critical point. 5) Iso-kinetic energy curves and iso-therms in the critical point region. Results of the proposed model are compared with test data and results of the Van der Waals model for real gases.

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物理化学期刊(英文)

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