API MPMS Chapter 20
Page 8 Selection of Multiphase Flow Metering Systems. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48
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Chapter 6 – Multiphase Systems
where p* is the vapor pressure of the pure substance, T is the absolute temperature, ?Hˆ v is the latent heat of vaporization (i.e. energy required to vaporize one mole of the liquid at a point (T,P) on the VLE curve), and Vˆ g and Vˆ l are the specific molar volumes of the gas and liquid phases. For ideal gases, equation 1 can be ...
Continue Reading...Liquid Vapor Phase Change Phenomena
1.5 Multiphase Systems and Phase Changes Chapter 1: Introduction Transport Phenomena in Multiphase Systems by Amir Faghri & Yuwen Zhang 3 Based on the phases that are involved in the system, phase change problems can be classified as: 1 solid-liquid phase change (melting and solidification) 2 solid-vapor phase change (sublimation and deposition) 3 liquid-vapor phase change (boiling/evaporation
Continue Reading...Chapter 8 - Thermal-Fluids Central
Transport Phenomena in Multiphase Systems by A. Faghri & Y. Zhang 2 Chapter 8: Condensation 8.1 Introduction Condensation occurs when a saturated vapor – pure or multi-component – comes into contact with an object, such as a wall or other contaminant that has a temperature below the saturation temperature. In a multi-component vapor, the saturation temperature is referred to as the dew ...
Continue Reading...11.5 Forced Convective Chapter 11: Two-Phase Flow and Heat ...
Transport Phenomena in Multiphase Systems by A. Faghri & Y. Zhang 1 Chapter 11: Two-Phase Flow and Heat Transfer The typical sequence of flow regimes for upward flow forced convective boiling in a uniformly-heated vertical tube (q”=const) is shown in Fig. 11.13. Since gravity acts parallel to the flow direction, the upward flow boiling in the tube is axisymmetric. The gravitational force ...
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Models in Reliability T Handbook of Multiphase Polymer Systems Multiphase flow - thermopedia Details of the approach for multiphase systems are given by Lahey and Moody Chapter 2.3.1 of the Heat Exchanger Design Handbook, Hemisphere Publishing Annular flow - a-to-z guide to thermodynamics, Annular flow is a flow regime of two-phase gas-liquid flow Hewitt, G. F. (1982) Chapter 2 of Handbook of ...
Continue Reading...Chapter 6 – Multiphase Systems
Chapter 6 – Multiphase Systems Single-Component Systems Phase Diagram: a plot that shows conditions under which a pure substance exists in a particular phase – e.g. a liquid, a solid, or a gas. Often, the y-axis indicates pressure and the x-axis the temperature. On the above phase diagram: Where does boiling occur? Where does sublimation occur? Where does melting take place? Where can ...
Continue Reading...Chapter 6. Multiphase Systems - cheric.org
Chapter 6. Multiphase Systems 고려대학교 화공생명공학과. Introduction Multiphase systems – Mainly involved in separation process Distillation (증류) : vapor-liquid Driving force of separation : Vapor pressure Crystallization (결정화) : liquid – solid Driving force of separation : solubility Extraction (추출) : liquid – liquid Driving force of separation : distribution ...
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Chapter 6 Name: _____ Multiphase Systems Date: _____ Chapter 6 will introduce student to operations in chemical processes which involve the change of a material from one phase into another. These phase changes are used in separation and purification processes. The following problems build upon the fundamentals covered in your text as applied to hydrogen processing, hydrogen as an energy ...
Continue Reading...Chapter 6 Newtonian Microfluidic Multiphase System
Chapter 6 Microdroplets Advancement in Newtonian and Non-Newtonian Microfluidic Multiphase System Kai Seng Koh, Voon Loong Wong and Yong Ren Additional information is available at the end of the chapter
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Chapter 6 Multiphase Systems ... Example 6.1-1 Vapor Pressure Estimation using Clausius 10/17/2012 ChE 201/[email protected] 7 -Clapeyron Equation: If the vapor pressure of benzene is 40 mm Hg at 7.6 oC and 60 mm Hg at 15.4 oC, find the vapor pressure at 42.2 oc using Clausius-Clapeyron Equation Antoine Equation •log 10 p* = A - B/ (T + C) •p* = 10^(A - B/( C))/ (T + C)) T is in oC p* is ...
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