Presentation is loading. Please wait.

Presentation is loading. Please wait.

Separation of Phases Vapor + Liquid. Vapor-Liquid Separation Vapor and liquid volumes from thermodynamics Remove liquid drops from vapor, vapor bubbles.

Published byClementine Wheeler Modified over 8 years ago

Similar presentations

Presentation on theme: "Separation of Phases Vapor + Liquid. Vapor-Liquid Separation Vapor and liquid volumes from thermodynamics Remove liquid drops from vapor, vapor bubbles."— Presentation transcript:

1 Separation of Phases Vapor + Liquid

2 Vapor-Liquid Separation Vapor and liquid volumes from thermodynamics Remove liquid drops from vapor, vapor bubbles from liquid Avoid foaming Key processes: –Gravity settling –Impingement

3 Gas Liquid Separators Vessel volume = time for settling Mesh pads = impingement

4 Gravity Settling Terminal settling velocity of droplets in vapor: C’=f(Re)

5 Souders-Brown Approximation K = factor for sizing separators Horizontal 0.12-0.15 m/s Vertical 0.05 to 0.11 m/s Ulrich recommends K=0.06 m/s - use 1/2 of these values when no demisters Approximation for 125  m droplets:

6 Liquid/Liquid Separations Called decanters or coalescers Low terminal velocities due to small  Coalescence of droplets is important Typically design from time and L/D Horizontal to allow maximum interfacial area e.g. Hydrocarbon water - 3-5 min

7 Lecture Problem Gas-liquid and liquid-liquid separators are very common in the process industries. These vessels are given many different names, but they all operate on similar principles of gravity- driven fluid separation. What do the following vessels do? How much of each fluid phase (as a fraction of vessel volume) would be present in each at normal operation? Compressor knock-out drum Steam drum API Separator Reflux accumulator Slug catcher Steam trap Flash tank Fluid-Fluid Separators

Download ppt "Separation of Phases Vapor + Liquid. Vapor-Liquid Separation Vapor and liquid volumes from thermodynamics Remove liquid drops from vapor, vapor bubbles."

Similar presentations

Fluid Mechanics Research Group Two phase modelling for industrial applications Prof A.E.Holdø & R.K.Calay.

Fluid Mechanics Research Group Two phase modelling for industrial applications Prof A.E.Holdø & R.K.Calay.
Liquid Meter Run & Water Cut Demo Our goal today is to provide a detailed demonstration of a complete liquid meter run along with water cut measurement.

Liquid Meter Run & Water Cut Demo Our goal today is to provide a detailed demonstration of a complete liquid meter run along with water cut measurement.
Control calculations Heat Engines & Boilers.

Control calculations Heat Engines & Boilers.
Modelling & Simulation of Chemical Engineering Systems

Modelling & Simulation of Chemical Engineering Systems
Where We Go Wrong In Line Sizing Dick Hawrelak Presented to ES317Y in 1999 at UWO.

Where We Go Wrong In Line Sizing Dick Hawrelak Presented to ES317Y in 1999 at UWO.
Copyright © 2000, A.W. Etchells, R.K.Grenville & R.D. LaRoche All rights reserved. CHEG 615 - Special Topics in Mixing Lecture 7 Liquid-Liquid Mixing.

Copyright © 2000, A.W. Etchells, R.K.Grenville & R.D. LaRoche All rights reserved. CHEG Special Topics in Mixing Lecture 7 Liquid-Liquid Mixing.
Using Separations in Chemical Processing reactor separator 1 1 2 2 3 3 4 4 6 6 5 5 raw materials products recycle stream.

Using Separations in Chemical Processing reactor separator raw materials products recycle stream.
Lecture 4.

Lecture 4.
Advanced Thermodynamics Note 6 Applications of Thermodynamics to Flow Processes Lecturer: 郭修伯.

Advanced Thermodynamics Note 6 Applications of Thermodynamics to Flow Processes Lecturer: 郭修伯.
Design Of Vertical Knock-Out Vessel With No Internals Favorable Inlet 2 phase flow regime Particle Dynamics – Separation of Liquid Droplets in Vapor Stream.

Design Of Vertical Knock-Out Vessel With No Internals Favorable Inlet 2 phase flow regime Particle Dynamics – Separation of Liquid Droplets in Vapor Stream.
PETE 310 Lectures # 6 & # 7 Phase Behavior – Pure Substances (Lecture # 5) Two Component Mixtures Three & Multicomponent Mixtures.

PETE 310 Lectures # 6 & # 7 Phase Behavior – Pure Substances (Lecture # 5) Two Component Mixtures Three & Multicomponent Mixtures.
Drums, Vessels, & Storage Tanks Design Considerations.

Drums, Vessels, & Storage Tanks Design Considerations.
Flashing Liquids Source Models.

Flashing Liquids Source Models.
Nelson Research, Inc. 2142 – N. 88 th St. Seattle, WA. 98103 USA 206-498-9447 aol.com Two Phase “Bubbly” Fluid Flow in a Vertical Chamber A.

Nelson Research, Inc – N. 88 th St. Seattle, WA USA aol.com Two Phase “Bubbly” Fluid Flow in a Vertical Chamber A.
Chapter Four Separation.

Chapter Four Separation.
Properties of Emulsions and Foams FDSC400. Goals Properties of emulsions –Type –Size –Volume fraction Destabilization of emulsions –Creaming –Flocculation.

Properties of Emulsions and Foams FDSC400. Goals Properties of emulsions –Type –Size –Volume fraction Destabilization of emulsions –Creaming –Flocculation.
Vapor-Liquid Separator Design

Vapor-Liquid Separator Design
Chris, Stephanie, Kyle, Mariam

Chris, Stephanie, Kyle, Mariam
What is it?. Fluid Mechanics  The study of fluids and the forces on them.  What are fluids?

What is it?. Fluid Mechanics  The study of fluids and the forces on them.  What are fluids?
Lesson 7 Steam Power Plant.

Lesson 7 Steam Power Plant.

Similar presentations

Ads by Google