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相关概念视频

Real Gases: Effects of Intermolecular Forces and Molecular Volume Deriving Van der Waals Equation04:01

Real Gases: Effects of Intermolecular Forces and Molecular Volume Deriving Van der Waals Equation

34.5K
Thus far, the ideal gas law, PV = nRT, has been applied to a variety of different types of problems, ranging from reaction stoichiometry and empirical and molecular formula problems to determining the density and molar mass of a gas. However, the behavior of a gas is often non-ideal, meaning that the observed relationships between its pressure, volume, and temperature are not accurately described by the gas laws. 
34.5K
Van der Waals Equation01:10

Van der Waals Equation

4.0K
The ideal gas law is an approximation that works well at high temperatures and low pressures. The van der Waals equation of state (named after the Dutch physicist Johannes van der Waals, 1837−1923) improves it by considering two factors.
First, the attractive forces between molecules, which are stronger at higher densities and reduce the pressure, are considered by adding to the pressure a term equal to the square of the molar density multiplied by a positive coefficient a. Second, the volume...
4.0K
Molecular Kinetic Energy01:21

Molecular Kinetic Energy

5.0K
The word "gas" comes from the Flemish word meaning "chaos," first used to describe vapors by the chemist J. B. van Helmont. Consider a container filled with gas, with a continuous and random motion of molecules. During collisions, the velocity component parallel to the wall is unchanged, and the component perpendicular to the wall reverses direction but does not change in magnitude. If the molecule’s velocity changes in the x-direction, then its momentum is changed.
5.0K
Basic Postulates of Kinetic Molecular Theory: Particle Size, Energy, and Collision02:43

Basic Postulates of Kinetic Molecular Theory: Particle Size, Energy, and Collision

33.9K
The ideal-gas equation, which is empirical, describes the behavior of gases by establishing relationships between their macroscopic properties. For example, Charles’ law states that volume and temperature are directly related. Gases, therefore, expand when heated at constant pressure. Although gas laws explain how the macroscopic properties change relative to one another, it does not explain the rationale behind it.
33.9K
Kinetic Molecular Theory: Molecular Velocities, Temperature, and Kinetic Energy03:07

Kinetic Molecular Theory: Molecular Velocities, Temperature, and Kinetic Energy

27.4K
The kinetic molecular theory qualitatively explains the behaviors described by the various gas laws. The postulates of this theory may be applied in a more quantitative fashion to derive these individual laws.
27.4K
Kinetic Theory of an Ideal Gas01:12

Kinetic Theory of an Ideal Gas

3.5K
A mole is defined as the amount of any substance that contains as many molecules as there are atoms in exactly 12 grams of carbon-12. An Italian scientist Amedeo Avogadro (1776–1856) formed the  hypothesis that equal volumes of gas at equal pressure and temperature contain equal numbers of molecules, independent of the type of gas. Later, the hypothesis was developed to form the SI unit for measuring the amount of any substance.
The number of molecules in one mole is called...
3.5K

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相关实验视频

Updated: Jun 16, 2025

Multiscale Sampling of a Heterogeneous Water/Metal Catalyst Interface using Density Functional Theory and Force-Field Molecular Dynamics
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Multiscale Sampling of a Heterogeneous Water/Metal Catalyst Interface using Density Functional Theory and Force-Field Molecular Dynamics

Published on: April 12, 2019

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改进了用于接口捕获的离散统一气体运动方案.

Kaiyu Shi1, Guanqing Wang1, Jiangrong Xu1

  • 1School of Science, <a href="https://ror.org/0576gt767">Hangzhou Dianzi University</a>, Hangzhou 310018, China.

Physical review. E
|August 20, 2024
PubMed
概括

这项研究引入了一个改进的离散统一气体运动方案 (DUGKS) 用于相场方程,增强数值稳定性,用于准确的两相流界面捕获. 新方法允许更大的时间步骤,减少错误并提高预测准确性.

科学领域:

  • 计算流体动力学的流体动力学.
  • 阶段场建模 阶段场建模
  • 数字分析 数字分析

背景情况:

  • 离散统一气体运动方案 (DUGKS) 已扩展到解决水力动力学方程.
  • 在二相流程中准确地捕捉接口仍然是计算流体动力学的挑战.

研究的目的:

  • 扩展改进的 DUGKS 来解决相场方程,以实现增强的接口捕获.
  • 为准确的双相流量模拟开发一个更数值稳定的DUGKS方法.

主要方法:

  • 提出了保守的艾伦-卡恩方程及其修改后的形式.
  • 两种改进的DUGKS方法用于使用动力方程进行接口捕获.
  • 改进的 DUGKS 使用节点分布函数进行界面流量评估,增强稳定性.

主要成果:

  • 与原来的DUGKS相比,改进的DUGKS表现出更好的数值稳定性.
  • 该方案允许更大的时间步骤,减少累积错误并提高预测准确性.
  • 数字实验验证了该方案捕捉利和复杂的变形接口的能力.

结论:

  • 改进的DUGKS提供了一种简单而有效的方法来捕获双相流界面.

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  • 增强的稳定性和精度使其适合复杂的变形接口模拟.
  • 这项工作推进了DUGKS在流体动力学相场建模中的应用.