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    Multicomponent Distillation For Chemical Process Engineers

    Posted By: ELK1nG
    Multicomponent Distillation For Chemical Process Engineers

    Multicomponent Distillation For Chemical Process Engineers
    Published 4/2023
    MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
    Language: English | Size: 1.08 GB | Duration: 2h 7m

    Learn How to Design Distillation Columns Considering Real-case Multicomponent Feed Scenarios

    What you'll learn

    Principles of Distillation Process

    Principles of Multicomponent Distillation

    How to Model Distillation of Multicomponent Feed

    Model Rectifying and Stripping Sections of Distillation Column

    Understand and Interpret "Number of Stages", "Reflux Ratio", "Tray Efficiency"

    How to Implement Fenske Equation for Minimum Number of Stages

    How to Implement Underwood Equations for Reflux Ratio

    How to Implement Gilliland Correlations for Actual Number of Stages

    Understand Design Considerations for Distillation Column

    Requirements

    Theory, background and practical sides of distillation are discussed here. No requirements for all levels of learners.

    Description

    Distillation refers to the selective boiling and subsequent condensation of a component in a liquid mixture. It is a separation technique that can be used to either increase the concentration of a particular component in the mixture or to obtain (almost) pure components from the mixture.The problem of determining the stage and reflux requirements for multicomponent distillations is much more complex than for binary mixtures.Multicomponent Distillation for Chemical Process Engineers training course will be the best fit in Udemy aiming to fill the needs for multicomponent distillation column design. The course is specifically designed to cover the principles of multicomponent distillation, distillation column design with Fenske-Underwood-Gilliland Method and column sizing by going over the following essential topics:Distillation Process OverviewDistillation Column and Supporting EquipmentDistillation PrinciplesOperating Challenges in Distillation ProcessDistillation Column DesignImplementation of Fenske and Underwood Equations for Number of Stages and Reflux Ratio CalculationsImplementation of Gilliland Correlations for Actual Number of Stages CalculationColumn Sizing Considerations, such as, Tray Efficiency, Operating Pressure, Height/Diameter Calculations, Process Control, etc.Above points have clearly been discussed during the course. This training can be really helpful for students, engineers and even teachers aiming to deliver the essentials of multicomponent distillation from engineering point of view. By spending only 2 hours, you can really understand the whole topic and further do practical calculations. Course instructor does also provide the service of answering questions for all course participants for free.

    Overview

    Section 1: Distillation Overview and Principles

    Lecture 1 Distillation Process Overview

    Lecture 2 Driving Force for Distillation Process

    Lecture 3 Distillation Column and Supporting Equipment

    Lecture 4 Definition of Light and Heavy Components

    Lecture 5 Distillation Principles - PART I

    Lecture 6 Distillation Principles - PART II

    Section 2: Operating Challenges in Distillation Process

    Lecture 7 Operating Challenges: Azeotropes

    Lecture 8 Operating Challenges: Solid Deposition

    Lecture 9 Operating Challenges: Selection of Operating Conditions

    Section 3: Multicomponent Distillation Column Design

    Lecture 10 Design Overview

    Lecture 11 Light and Heavy Key Components

    Lecture 12 Design Deliverables

    Lecture 13 Fenske Equation, Minimum Number of Stages

    Lecture 14 Underwood Equations, Reflux Ratio

    Lecture 15 Practice: Implementation of Fenske Equation

    Lecture 16 Practice: Implementation of Underwood Equations - PART I

    Lecture 17 Practice: Implementation of Underwood Equations - PART II

    Lecture 18 Practice: Multicomponent Distillation - PART I

    Lecture 19 Practice: Multicomponent Distillation - PART II

    Lecture 20 Gilliland Correlations, Actual Number of Stages

    Lecture 21 Practice: Implementation of Gilliland Correlations

    Section 4: Other Considerations for Column Design

    Lecture 22 Tray Efficiency

    Lecture 23 Decision of Operating Pressure

    Lecture 24 Decision of Appropriate Internals

    Lecture 25 Tower Sizing: Height and Diameter Calculations

    Lecture 26 Process Control Considerations

    Lecture 27 Q&A Session

    Engineers working with Distillation Columns,Process Engineers,Chemical Engineers,Chemical Process Engineering Graduates or Undergraduates,Any Discipline Engineers aiming to learn essentials of distillation column sizing