Practical column design guide. ([2017])
- Record Type:
- Book
- Title:
- Practical column design guide. ([2017])
- Main Title:
- Practical column design guide
- Further Information:
- Note: M. Nitsche, R. Gbadamosi.
- Authors:
- Nitsche, M
Gbadamosi, R - Contents:
- Preface; Contents; Recommendation for Further Reading: Literature; 1 Planning of Distillation and Absorption Columns; 1.1 Planning Information; 1.2 Mass Balance for the Separation Task; 1.3 Separation Conditions; 1.4 Vapour-Liquid Equilibrium [4]; 1.4.1 The Ideal Equilibrium According to Raoult-Dalton; 1.4.2 Equations of State; 1.4.3 Equilibrium Models for Non-polar Materials Considering the Non-ideal Behaviour in the Liquid Phase Based on Pure Component Data. 1.4.4 Equilibrium Models for Polar Components with High Non-ideal Behaviour in the Liquid Phase1.5 Energy and Mass Balance in the Column; 1.5.1 Mass Balance (Fig. 1.4); 1.5.2 Energy Balance (Fig. 1.5); 1.5.3 Required Column Diameter; 1.6 Selection of Column Internals; 1.7 Condensers [2]; 1.8 Reboiler [2]; 1.9 Vacuum Pumps [3]; 1.10 Control Facilities [5]; 1.11 Heating Systems with Steam or Hot Oil [3]; 1.11.1 Heat Transfer Coefficients; 1.11.2 Steam Heating [3]; 1.11.3 Heating with Hot Oil [3]; 1.12 Cooling Systems [3]. 1.12.1 Cooling Water Circulation Systems1.12.2 Comparison Between a Cooling Tower and an Air Cooler; 1.12.3 Cooling Water by Evaporating a Refrigerant or Adiabatic Evaporation; 1.12.4 Direct Condensation in Columns [6]; References; 2 Equilibria, Bubble Points, Dewpoints, Flash Calculations, and Activity Coefficients; 2.1 Vapour Pressure Calculations; 2.2 Phase Equilibrium of Ideal Binary Mixtures; 2.3 Bubble Point Calculation; 2.4 Dew Point Calculation; 2.5 Dew Point Calculation of Vapour ContainingPreface; Contents; Recommendation for Further Reading: Literature; 1 Planning of Distillation and Absorption Columns; 1.1 Planning Information; 1.2 Mass Balance for the Separation Task; 1.3 Separation Conditions; 1.4 Vapour-Liquid Equilibrium [4]; 1.4.1 The Ideal Equilibrium According to Raoult-Dalton; 1.4.2 Equations of State; 1.4.3 Equilibrium Models for Non-polar Materials Considering the Non-ideal Behaviour in the Liquid Phase Based on Pure Component Data. 1.4.4 Equilibrium Models for Polar Components with High Non-ideal Behaviour in the Liquid Phase1.5 Energy and Mass Balance in the Column; 1.5.1 Mass Balance (Fig. 1.4); 1.5.2 Energy Balance (Fig. 1.5); 1.5.3 Required Column Diameter; 1.6 Selection of Column Internals; 1.7 Condensers [2]; 1.8 Reboiler [2]; 1.9 Vacuum Pumps [3]; 1.10 Control Facilities [5]; 1.11 Heating Systems with Steam or Hot Oil [3]; 1.11.1 Heat Transfer Coefficients; 1.11.2 Steam Heating [3]; 1.11.3 Heating with Hot Oil [3]; 1.12 Cooling Systems [3]. 1.12.1 Cooling Water Circulation Systems1.12.2 Comparison Between a Cooling Tower and an Air Cooler; 1.12.3 Cooling Water by Evaporating a Refrigerant or Adiabatic Evaporation; 1.12.4 Direct Condensation in Columns [6]; References; 2 Equilibria, Bubble Points, Dewpoints, Flash Calculations, and Activity Coefficients; 2.1 Vapour Pressure Calculations; 2.2 Phase Equilibrium of Ideal Binary Mixtures; 2.3 Bubble Point Calculation; 2.4 Dew Point Calculation; 2.5 Dew Point Calculation of Vapour Containing Inert Gases. 2.6 Dew and Bubble Point Lines of Ideal Binary Mixtures2.7 The Bubble Point and Dew Point of Immiscible Mixtures; 2.8 Flash Calculations for Ideal Binary Mixtures [1]; 2.9 Calculation of the Equilibrium and the Bubble and Dew Point Temperatures of Ideal Multi-component Mixtures; 2.10 Flash Calculations for Ideal Multi-component Mixtures [2]; 2.11 Phase Equilibrium of Non-ideal Binary Mixtures; 2.12 Calculation of the Activity Coefficients; 2.12.1 Calculation According to Wilson for Miscible Components [8]. 2.12.2 Calculation According to NRTL for Partially Miscible Components with Two Liquid Phases [9]2.12.3 Calculation According to Uniquac for Components with a Miscibility Gap; 2.12.4 Critical Comparison of the Activity Coefficients Calculated Using Different Models; 2.13 Bubble Point, Dew Point, and Flash Separation for Non-ideal Binary Mixtures; 2.14 Non-ideal Multi-component Mixtures; References; 3 Fractionation of Binary Mixtures; 3.1 Material Balance; 3.2 Vapoura-Liquid Equilibria; 3.2.1 Equilibria of Ideal Mixtures. … (more)
- Publisher Details:
- Cham, Switzerland : Springer
- Publication Date:
- 2017
- Extent:
- 1 online resource, illustrations
- Subjects:
- 660/.28425
Distillation apparatus -- Design and construction
Distillation -- Design and construction
SCIENCE -- Chemistry -- Industrial & Technical
TECHNOLOGY & ENGINEERING -- Chemical & Biochemical
Distillation apparatus -- Design and construction
Engineering
Engineering Design
Engineering Thermodynamics, Heat and Mass Transfer
Industrial Chemistry/Chemical Engineering
Electronic books - Languages:
- English
- ISBNs:
- 9783319516882
3319516884 - Related ISBNs:
- 9783319516875
3319516876 - Notes:
- Note: Includes bibliographical references.
Note: Online resource; title from PDF title page (EBSCO, viewed November 03, 2017). - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.379086
- Ingest File:
- 02_361.xml