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Distillation columns : Principles , Operation & Design

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Distillation columns : Principles , Operation & Design, available at $49.99, has an average rating of 4.54, with 79 lectures, based on 213 reviews, and has 1237 subscribers.

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You will learn about Understand the thermodynamics of Vapor Liquid Equilibria for pure components and mixtures Know, understand and master the concepts necessary to optimize the operation of your distillation column Know about all parameters and profiles for the analysis of your distillation column operation Detect deficiencies in the operation of your distilling column, find their origin and solutions Know and understand the operating variables and process control systems used for your distillation column Know the different types of internals, how they operate and how you can optimize them Use the Aspen Plus simulation results to understand and predict the performance of a distillation column This course is ideal for individuals who are Chemical engineers or Process engineers or Design engineers or Process control personnel and technical staff in the refining, petrochemicals, chemical and process industries or Production and Shift Supervisors in charge of distilling columns or Field Operators or Experienced field operators preparing for console operations It is particularly useful for Chemical engineers or Process engineers or Design engineers or Process control personnel and technical staff in the refining, petrochemicals, chemical and process industries or Production and Shift Supervisors in charge of distilling columns or Field Operators or Experienced field operators preparing for console operations.

Enroll now: Distillation columns : Principles , Operation & Design

Summary

Title: Distillation columns : Principles , Operation & Design

Price: $49.99

Average Rating: 4.54

Number of Lectures: 79

Number of Published Lectures: 79

Number of Curriculum Items: 79

Number of Published Curriculum Objects: 79

Original Price: €219.99

Quality Status: approved

Status: Live

What You Will Learn

  • Understand the thermodynamics of Vapor Liquid Equilibria for pure components and mixtures
  • Know, understand and master the concepts necessary to optimize the operation of your distillation column
  • Know about all parameters and profiles for the analysis of your distillation column operation
  • Detect deficiencies in the operation of your distilling column, find their origin and solutions
  • Know and understand the operating variables and process control systems used for your distillation column
  • Know the different types of internals, how they operate and how you can optimize them
  • Use the Aspen Plus simulation results to understand and predict the performance of a distillation column

Who Should Attend

  • Chemical engineers
  • Process engineers
  • Design engineers
  • Process control personnel and technical staff in the refining, petrochemicals, chemical and process industries
  • Production and Shift Supervisors in charge of distilling columns
  • Field Operators
  • Experienced field operators preparing for console operations

Target Audiences

  • Chemical engineers
  • Process engineers
  • Design engineers
  • Process control personnel and technical staff in the refining, petrochemicals, chemical and process industries
  • Production and Shift Supervisors in charge of distilling columns
  • Field Operators
  • Experienced field operators preparing for console operations

Distillation columns of various designs and applications are encountered nowadays throughout petroleum refining, petrochemical, chemical and process industries.

This course is designed to provide you with a complete understanding of construction details and functioning of distilling columns. This understanding is a prerequisite for successful operationof your plant.

The course features 5 major items :

1- VAPOR LIQUID EQUILIBRIA :(thermodynamics of pure components and complex mixtures)

  • Volatility of pure components : boiling point, vapor pressure

  • Concept of Sensible and Latent Heat

  • Behavior of mixtures in distillation : dew and bubble points, vaporization curves, total/partial condensation and vaporization, liquid-vapor separation and distribution of components according to their volatility

  • Relation between temperature, pressure and composition of distillate and residue

2- INDUSTRIAL DISTILLATION PRACTICES :

  • Operating parameters of an industrial distillation column (Pressure, Temperature, Flow rates, Reflux Ratio…)

  • Separating power : number of stages, liquid and vapor traffics, feed inlet location

  • Column pressure : pressure control and pressure profile along the column

  • Internal flow rates profiles, concentration and temperature profiles, concentration peaks

  • Material balance of the column : concepts of cut point, separation quality and fractionation capability

  • Heat balance : condenser and reboiler duties, Reflux and Boil-up ratios and industrial configurations

  • Instrumentation and process control loops around the column

3- INDUSTRIAL DISTILLATION EQUIPMENT :

  • Trays : technology, performances, flexibility

  • Packings (structured or random) : technology, performances, flexibility

  • Different types of contacting systems for the active area : bubble caps, fixed or floating valves

  • Liquid or vapor distributors, collectors and redistributors

  • Troubles such as flooding, weeping, fouling…

4- ASSESSING DISTILLING COLUMN PERFORMANCE USING ASPEN PLUS (A CHEMICAL ENGINEERING SIMULATOR)

  • Base case

  • Effect of temperature

  • Effect of pressure

  • Effect of feed stage location

  • Effect of reflux ratio

5- SOLVED PROBLEMS

  • Ethylene / Ethane fractionator

  • Reboiler operation

  • Flash separator

  • Distilling column overhead operations

  • Depropanizer case study

Many images, cross sectional views, graphs and animations can be found throughout, increasing the value of this course as an educational tool and industrial reference for personnel involved in distilling operations.

So this course is not only of use to practicing engineers and operators to whom a knowledge of the distillation process is of crucial importance in efficient operation of distilling columns but also intended as a study guide for undergraduates in process, chemical, petrochemical & petroleum engineering disciplines.

So with no further ado, check out the free preview videos and the curriculum of the course and we look forward to seeing you in the first section.

Hope to see you there !

WR Training

Spread the wings of your knowledge

Course Curriculum

Chapter 1: ABOUT THE COURSE

Lecture 1: Introduction

Lecture 2: Before you start this course

Chapter 2: INTRODUCING THE DISTILLATION PROCESS

Lecture 1: What is distillation ?

Lecture 2: Types of distillation processes

Lecture 3: Limits of distillation

Lecture 4: Concept of volatility

Lecture 5: Distillation practices

Lecture 6: Distillation column operation in 3D

Lecture 7: Vapor Liquid contact

Chapter 3: VAPOR – LIQUID EQUILIBRIUM OF PURE COMPONENTS

Lecture 1: Introduction

Lecture 2: Vapor Liquid Equilibrium

Lecture 3: Vaporization of a pure component at constant pressure

Lecture 4: Condensation of a pure component at constant pressure

Lecture 5: Boiling point

Lecture 6: Vaporization and Condensation of a pure component at different pressures

Lecture 7: Vapor pressure curve

Lecture 8: Vapor pressure curve : The case of water

Lecture 9: More on vapor pressure curves

Lecture 10: Flash vaporization

Lecture 11: Heat of vaporization

Lecture 12: Critical point

Lecture 13: VLE : What you need to know for pure components

Lecture 14: Enthalpy diagram for a pure component 1/3

Lecture 15: Enthalpy diagram for a pure component 2/3

Lecture 16: Enthalpy diagram for a pure component 3/3

Lecture 17: PRACTICE SESSION #1 : Ethylene / Ethane fractionator

Lecture 18: PRACTICE SESSION #2 : Reboiler operation

Chapter 4: VAPOR – LIQUID EQUILIBRIUM OF MIXTURES

Lecture 1: Vaporization of a hydrocarbon mixture at constant pressure

Lecture 2: What do we learn ?

Lecture 3: Vapor – Liquid Equilibrium of mixtures

Lecture 4: Vapor pressure of mxitures

Lecture 5: Raoult's law

Lecture 6: Dalton's law

Lecture 7: Concept of Equilibrium Coefficient

Lecture 8: Scheibel and Jenny Chart

Lecture 9: Concept of Relative Volatility

Lecture 10: Relative volatility : Industrial applications

Lecture 11: Relative volatility : Effect of pressure

Lecture 12: VLE : What you need to know for mixtures

Lecture 13: PRACTICE SESSION #3 : Flash Separator

Lecture 14: PRACTICE SESSION #4 : Distillation Column – The vaporization curves

Lecture 15: PRACTICE SESSION #5 : Distillation Column Overhead Operation

Lecture 16: PRACTICE SESSION #6 : Distillation Column – Cut Point & Separation Line

Chapter 5: DISTILLATION PRACTICES

Lecture 1: A typical distillation column

Lecture 2: Industrial application : The depropanizer (Steam Cracking Process)

Lecture 3: Industrial application : The depropanizer Material Balance

Lecture 4: Reflux drum pressure

Lecture 5: Pressure profile

Lecture 6: Simple pressure control

Lecture 7: Complex pressure control

Lecture 8: Overhead composition control

Lecture 9: Alternative control strategies

Lecture 10: Overall thermal balance

Lecture 11: Condenser thermal balance

Lecture 12: Optimum Reflux Ratio

Lecture 13: Flow rate profile

Lecture 14: Concentration and temperature profiles – Binary distillation

Lecture 15: Concentration profiles – Complex mixtures

Lecture 16: Temperature profile – Complex mixtures

Chapter 6: DISTILLATION EQUIPMENT

Lecture 1: Introduction

Lecture 2: The shell

Lecture 3: The trays

Lecture 4: Tray arrangements

Lecture 5: Tray types

Lecture 6: Packings

Lecture 7: Packing support

Lecture 8: Liquid distributors

Lecture 9: Collector trays

Lecture 10: Packing restrainers

Lecture 11: Combined Tray / Packed distilling column

Lecture 12: The reboiler

Lecture 13: The condenser

Chapter 7: ASSESSING DISTILLING COLUMN PERFORMANCE USING ASPEN PLUS

Lecture 1: Learning objectives

Lecture 2: The base case

Lecture 3: Effect of reflux ratio

Lecture 4: Effect of feed stage location

Lecture 5: Effect of feed temperature

Chapter 8: DOWNLOADABLE RESOURCES

Lecture 1: Downloadable resources

Lecture 2: Bonus

Instructors

  • WR Training
    WR Training
    Petroleum Petrochemical & Chemical Engineering

Rating Distribution

  • 1 stars: 3 votes
  • 2 stars: 2 votes
  • 3 stars: 26 votes
  • 4 stars: 80 votes
  • 5 stars: 102 votes

Frequently Asked Questions


How long do I have access to the course materials?


You can view and review the lecture materials indefinitely, like an on-demand channel.


Can I take my courses with me wherever I go?


Definitely! If you have an internet connection, courses on Udemy are available on any device at any time. If you don’t have an internet connection, some instructors also let their students download course lectures. That’s up to the instructor though, so make sure you get on their good side!

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