Vapor-liquid Phase Equilibria Using Monte Carlo Wang-Landau Simulations
| Author | : Tsvetan Dobromirov Aleksandrov |
| Publisher | : |
| Total Pages | : 264 |
| Release | : 2012 |
| Genre | : Alkanes |
| ISBN | : 9781267937506 |
Vapor Liquid Phase Equilibria Using Monte Carlo Wang Landau Simulations
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Vapor-liquid Phase Equilibria of Water Modelled by a Kim-Gordon Potential
| Author | : |
| Publisher | : |
| Total Pages | : 12 |
| Release | : 2009 |
| Genre | : |
| ISBN | : |
Gibbs ensemble Monte Carlo simulations were carried out to investigate the properties of a frozen-electron-density (or Kim-Gordon, KG) model of water along the vapor-liquid coexistence curve. Because of its theoretical basis, such a KG model provides for seamless coupling to Kohn-Sham density functional theory for use in mixed quantum mechanics/molecular mechanics (QM/MM) implementations. The Gibbs ensemble simulations indicate rather limited transferability of such a simple KG model to other state points. Specifically, a KG model that was parameterized by Barker and Sprik to the properties of liquid water at 300 K, yields saturated vapor pressures and a critical temperature that are significantly under- and over-estimated, respectively.
Exact Calculations of Phase and Membrane Equilibria for Complex Fluids by Monte Carlo Simulation
| Author | : |
| Publisher | : |
| Total Pages | : 12 |
| Release | : 1990 |
| Genre | : |
| ISBN | : |
The general objective of this project is the investigation of phase equilibria for complex fluids using a novel methodology, Monte Carlo simulation in the Gibbs ensemble. The methodology enables the direct determination of the properties of two coexisting fluid phases (e.g. a liquid at equilibrium with its vapor) from a single computer experiment, and is applicable to multicomponent systems with arbitrary equilibrium constraints imposed. The specific goals of this work are to adapt the Gibbs technique to (a) highly asymmetric mixtures with large differences in size and potential energies of interaction (b) chain molecules and (c) ionic systems. Significant progress has been made in all three areas. In this paper, we will briefly describe the progress made in each area, using the same numbering scheme for the tasks as in the original proposal.
Free Energy Calculations
| Author | : Christophe Chipot |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 528 |
| Release | : 2007-01-08 |
| Genre | : Language Arts & Disciplines |
| ISBN | : 3540384472 |
Free energy constitutes the most important thermodynamic quantity to understand how chemical species recognize each other, associate or react. Examples of problems in which knowledge of the underlying free energy behaviour is required, include conformational equilibria and molecular association, partitioning between immiscible liquids, receptor-drug interaction, protein-protein and protein-DNA association, and protein stability. This volume sets out to present a coherent and comprehensive account of the concepts that underlie different approaches devised for the determination of free energies. The reader will gain the necessary insight into the theoretical and computational foundations of the subject and will be presented with relevant applications from molecular-level modelling and simulations of chemical and biological systems. Both formally accurate and approximate methods are covered using both classical and quantum mechanical descriptions. A central theme of the book is that the wide variety of free energy calculation techniques available today can be understood as different implementations of a few basic principles. The book is aimed at a broad readership of graduate students and researchers having a background in chemistry, physics, engineering and physical biology.
Determination of Phase Equilibria and the Critical Point Using Two-phase Molecular Dynamics Simulations with Monte Carlo Sampling
| Author | : Sonal Patel |
| Publisher | : |
| Total Pages | : 121 |
| Release | : 2012 |
| Genre | : Electronic dissertations |
| ISBN | : |
The two-phase MD technique employed in this work determines the liquid and vapor phase densities from a histogram of molecular densities within phase clusters in the simulation cell using a new Monte Carlo (MC) sampling method. These equilibrium densities are then fitted in conjunction with known critical-point scaling laws to obtain the critical temperature, and the critical density. This MC post-processing method was found to be more easily implemented in code, and it is efficient and easily applied to complex, structured molecules. This method has been successfully applied and benchmarked for a simple Lennard-Jones (LJ) fluid and a structured molecule, propane. Various degrees of internal flexibility in the propane models showed little effect on the coexisting dessities far from critical point, but internal flexibility (angle bending and bond vibrations) seemed to affect the saturated liquid densities in the near-critical region, changing the critical temperature by approximately 20 K. Shorter cutoffs were also found to affect the phase dome and the location of the critical point.
Working Guide to Vapor-Liquid Phase Equilibria Calculations
| Author | : Tarek Ahmed |
| Publisher | : Gulf Professional Publishing |
| Total Pages | : 149 |
| Release | : 2009-08-27 |
| Genre | : Technology & Engineering |
| ISBN | : 1856179028 |
Working Guide to Vapor-Liquid Phase Equilibria Calculations offers a practical guide for calculations of vapor-phase equilibria. The book begins by introducing basic concepts such as vapor pressure, vapor pressure charts, equilibrium ratios, and flash calculations. It then presents methods for predicting the equilibrium ratios of hydrocarbon mixtures: Wilson's correlation, Standing's correlation, convergence pressure method, and Whitson and Torp correlation. The book describes techniques to determine equilibrium ratios of the plus fraction, including Campbell's method, Winn's method, and Katz's method. The remaining chapters cover the solution of phase equilibrium problems in reservoir and process engineering; developments in the field of empirical cubic equations of state (EOS) and their applications in petroleum engineering; and the splitting of the plus fraction for EOS calculations. Includes explanations of formulas Step by step calculations Provides examples and solutions
Computer Simulation of Liquids
| Author | : Michael P. Allen |
| Publisher | : Oxford University Press |
| Total Pages | : 640 |
| Release | : 2017-08-15 |
| Genre | : Science |
| ISBN | : 0192524704 |
This book provides a practical guide to molecular dynamics and Monte Carlo simulation techniques used in the modelling of simple and complex liquids. Computer simulation is an essential tool in studying the chemistry and physics of condensed matter, complementing and reinforcing both experiment and theory. Simulations provide detailed information about structure and dynamics, essential to understand the many fluid systems that play a key role in our daily lives: polymers, gels, colloidal suspensions, liquid crystals, biological membranes, and glasses. The second edition of this pioneering book aims to explain how simulation programs work, how to use them, and how to interpret the results, with examples of the latest research in this rapidly evolving field. Accompanying programs in Fortran and Python provide practical, hands-on, illustrations of the ideas in the text.
Vapor-Liquid Equilibria Using Unifac
| Author | : Aage Fredenslund |
| Publisher | : Elsevier |
| Total Pages | : 393 |
| Release | : 2012-12-02 |
| Genre | : Technology & Engineering |
| ISBN | : 0444601503 |
Vapor-Liquid Equilibria Using UNIFAC: A Group-Contribution Method focuses on the UNIFAC group-contribution method used in predicting quantitative information on the phase equilibria during separation by estimating activity coefficients. Drawing on tested vapor-liquid equilibrium data on which UNIFAC is based, it demonstrates through examples how the method may be used in practical engineering design calculations. Divided into nine chapters, this volume begins with a discussion of vapor and liquid phase nonidealities and how they are calculated in terms of fugacity and activity coefficients, respectively. It then introduces the reader to the UNIFAC method and how it works, the procedure used in establishing the parameters needed for the model, prediction of binary and multicomponent vapor-liquid equilibria for a large number of systems, the potential of UNIFAC for predicting liquid-liquid equilibria, and how UNIFAC can be used to solve practical distillation design problems. This book will benefit process design engineers who want to reliably predict phase equilibria for designing distillation columns and other separation processes.
Molecular Simulation of Three-body Interactions for Vapor-liquid and Solid-liquid Phase Equilibria
| Author | : Liping Wang |
| Publisher | : |
| Total Pages | : |
| Release | : 2006 |
| Genre | : Chemical engineering |
| ISBN | : |
