We a good story
Quick delivery in the UK

Distillation Engineering

About Distillation Engineering

Partial Table of Contents I. The Thermal Separation of Liquids II. Thermodynamics of Mixtures 1. Definitions and Relationships A. Separability of a Liquid Mixture B. Partial Pressures in Vapor Mixtures C. Evaporation of Liquid Mixtures 2. Types of Mixtures A. Ideal Binary Mixtures B. Nonideal Binary Mixtures C. Ideal Multicomponent Mixtures D. Nonideal Multicomponent Mixtures III. Continuous Rectifiers 1. Mode of Operations 2. Operating Lines A. Enrichment Line B. The Stripping Line 3. Stepwise Separation in Rectifiers A. Theoretical Plates for Separation of Binaries B. The Reflux Ratio in the Separation of Binaries C. Multicomponent Mixtures 4. Column Diameter and Column Throughput 5. Heat Requirements IV. The Batch Still 1. Operation 2. Operating Line and Separation Steps 3. Column Diameter, Column Throughput, and Heat Requirements 4. Time for Separation and Related Variables at Constant Product Concentration A. Molar Vapor Load Constant in Time B. Heat Requirement Constant in Time 5. Separation Time for Variable Heating Area V. The Semicontinuous Still 1. Operation 2. Finding the Operating Lines, the Separation Steps, the Column Load, the Column: Size, and the Heat Demand VI. Engineering Data, Optimization of Costs, and Selection of Column Internals 1. General A. Packing Types B. Plates and Trays 2. Designs and Functions A. Packed Towers B. Plate Columns 3. Evaluation of Rectifying Columns and Best Mode of Operation A. Evaluating and Calculations, Separating Effect, Pressure Loss, Load, Specific Column Volume, and Specific Column Cost B. Numerical Evaluation for Packed Towers C. Quantitative Evaluation for Plate-Type Columns D. Packed Columns versus Tray Columns-Operational Features and Cost E. Special Designs for Vacuum Operation 4. Tests of Full-Size Tower Internals VII. Optimum Separation 1. Optimization of Simple Columns A. The Theory and Its Application B. Quantitative Evaluation 2. Optimization of Multiple Columns A. Duplex Columns: Number of Theoretical Steps, Reflux Ratios, and Vapor Loads B. Vapor Loads of Multiple Columns Subdivided Because of Limited Height C. Optimizing Duplex Rectifiers for Minimum Pressure Loss 3. Optimum Operation of Combined Columns of Different Types Under Special Consideration A. Parallel Arrangement B. Series Arrangement 4. Specialized Operations A. Specialized Hookups and their Calculation B. Rectification in Straight Stripping Columns C. Rectification in Straight Enriching Columns D. Direct Heating of Columns E. Saving Heat in Rectification VIII. Detail Planning of Separating Columns 1. General Viewpoints in the Selection of Column Types 2. Packed Columns F. Maximum Loads for Metallic; Pall-Ring and Raschig Ring Columns 3. Special Packings 4. Plate-Type Columns 5. Pressure Losses in Rectification Columns IX. Partial Distillation 1. Separation of Liquids by Continuous Partial Distillation 2. Separation of Liquids by Dis

Show more
  • Language:
  • English
  • ISBN:
  • 9780820602158
  • Binding:
  • Hardback
  • Pages:
  • 534
  • Published:
  • January 29, 1979
  • Dimensions:
  • 229x152x33 mm.
Delivery: 2-3 weeks
Expected delivery: December 19, 2024
Extended return policy to January 30, 2025

Description of Distillation Engineering

Partial Table of Contents

I. The Thermal Separation of Liquids

II. Thermodynamics of Mixtures
1. Definitions and Relationships
A. Separability of a Liquid Mixture
B. Partial Pressures in Vapor Mixtures
C. Evaporation of Liquid Mixtures
2. Types of Mixtures
A. Ideal Binary Mixtures
B. Nonideal Binary Mixtures
C. Ideal Multicomponent Mixtures
D. Nonideal Multicomponent Mixtures

III. Continuous Rectifiers
1. Mode of Operations
2. Operating Lines
A. Enrichment Line
B. The Stripping Line
3. Stepwise Separation in Rectifiers
A. Theoretical Plates for Separation of Binaries
B. The Reflux Ratio in the Separation of Binaries
C. Multicomponent Mixtures
4. Column Diameter and Column Throughput
5. Heat Requirements

IV. The Batch Still
1. Operation
2. Operating Line and Separation Steps
3. Column Diameter, Column Throughput, and Heat Requirements
4. Time for Separation and Related Variables at Constant
Product Concentration
A. Molar Vapor Load Constant in Time
B. Heat Requirement Constant in Time
5. Separation Time for Variable Heating Area

V. The Semicontinuous Still
1. Operation
2. Finding the Operating Lines, the Separation Steps, the
Column Load, the Column: Size, and the Heat Demand

VI. Engineering Data, Optimization of Costs, and Selection of Column Internals
1. General
A. Packing Types
B. Plates and Trays
2. Designs and Functions
A. Packed Towers
B. Plate Columns
3. Evaluation of Rectifying Columns and Best Mode of Operation
A. Evaluating and Calculations, Separating Effect,
Pressure Loss, Load, Specific Column Volume, and Specific Column Cost
B. Numerical Evaluation for Packed Towers
C. Quantitative Evaluation for Plate-Type Columns
D. Packed Columns versus Tray Columns-Operational
Features and Cost
E. Special Designs for Vacuum Operation
4. Tests of Full-Size Tower Internals

VII. Optimum Separation
1. Optimization of Simple Columns
A. The Theory and Its Application
B. Quantitative Evaluation
2. Optimization of Multiple Columns
A. Duplex Columns: Number of Theoretical Steps, Reflux
Ratios, and Vapor Loads
B. Vapor Loads of Multiple Columns Subdivided Because of
Limited Height
C. Optimizing Duplex Rectifiers for Minimum Pressure Loss
3. Optimum Operation of Combined Columns of Different Types
Under Special Consideration
A. Parallel Arrangement
B. Series Arrangement
4. Specialized Operations
A. Specialized Hookups and their Calculation
B. Rectification in Straight Stripping Columns
C. Rectification in Straight Enriching Columns
D. Direct Heating of Columns
E. Saving Heat in Rectification

VIII. Detail Planning of Separating Columns
1. General Viewpoints in the Selection of Column Types
2. Packed Columns
F. Maximum Loads for Metallic; Pall-Ring and Raschig Ring Columns
3. Special Packings
4. Plate-Type Columns
5. Pressure Losses in Rectification Columns

IX. Partial Distillation
1. Separation of Liquids by Continuous Partial Distillation
2. Separation of Liquids by Dis

User ratings of Distillation Engineering



Find similar books
The book Distillation Engineering can be found in the following categories:

Join thousands of book lovers

Sign up to our newsletter and receive discounts and inspiration for your next reading experience.