Section 1 : Introduction

Lecture 1 INTRODUCTION TO BRAINMEASURES PROCTOR SYSTEM Pdf
Lecture 2 Introduction 5:5
Lecture 3 Requirements 4:49
Lecture 4 Recommended Public 3:49
Lecture 5 Reference Material 2:42

Section 2 : Mass Transfer Review

Lecture 6 Section 2 - Introduction 2:26
Lecture 7 2 0:29
Lecture 8 What is Equilibrium- 3:36
Lecture 9 Vapor Pressure 4:55
Lecture 10 Partial Pressure 2:38
Lecture 11 Raoult’s Law 5:17
Lecture 12 Gas Solubility in Liquids - Overview 5:25
Lecture 13 Gas Solubility Analysis 2:49
Lecture 14 Henry’s Law 6:48
Lecture 15 2 0:44
Lecture 16 What is Flux- 9:5
Lecture 17 What is Ja- Diffusion Flux 2:42
Lecture 18 What is Diffusion- 6:48
Lecture 19 Fick's Law 4:56
Lecture 20 Engineering Applications for Diffusion 3:21
Lecture 21 Case A - Equimolar Counter-Difussion (EMD) 6:46
Lecture 22 Exercise#01 - EMD 14:4
Lecture 23 Case B - Unimolecular Diffusion (UMD) 16:24
Lecture 24 Exercise#02 - UMD 6:31
Lecture 25 Convection 4:38
Lecture 26 2 1:12
Lecture 27 Equilibrium Distribution Curve 6:9
Lecture 28 Film Concept 5:4
Lecture 29 Two-Film Theory 6:8
Lecture 30 Two-Film Theory and Equilibrium Solubility Curve 8:53
Lecture 31 Analysis of Mass Transfer Process using Two-Film Theory 5:46
Lecture 32 Film MT Coefficients 7:50
Lecture 33 Local MTC- kx, ky 3:27
Lecture 34 Mass Transfer Coefficients & Correlations 3:31
Lecture 35 Overall Mass Transfer Coefficients 6:29
Lecture 36 Local vs 3:23
Lecture 37 Mass Transfer Resistance 2:35
Lecture 38 Analysis of Gas Solubility 4:44
Lecture 39 Section 2 - Closure 0:56

Section 3 : Gas Absorption

Lecture 40 Introduction to Gas Absorption 1:13
Lecture 41 What is Absorption- 8:32
Lecture 42 Nomenclature in Absorption 2:58
Lecture 43 Gas Absorption Examples 9:22
Lecture 44 Physical vs 2:34
Lecture 45 Scope of the Course 3:53
Lecture 46 Desorption & Stripping 3:8
Lecture 47 Stripping Examples 3:39
Lecture 48 Case Study - Amine Gas Treating AKA Sweetening Sour Gas 9:20
Lecture 49 Equipment & Operation (Absorption and Stripping) 4:10
Lecture 50 Type of Equipment - Dispersion of Gas-Liquid and Liquid-Gas 4:12
Lecture 51 Spray Column 2:36
Lecture 52 Bubble Column 2:0
Lecture 53 Packed Column Intro 1:32
Lecture 54 Tray Column Intro 1:25
Lecture 55 Design Steps 6:27
Lecture 56 Solvent Selection 1:40
Lecture 57 Solvent Selection - Gas Solubility 2:13
Lecture 58 Solvent Selection - Volatility 0:58
Lecture 59 Solvent Selection - Corrosiveness 0:45
Lecture 60 Solvent Selection - Cost 1:9
Lecture 61 Solvent Selection - Viscosity 1:19
Lecture 62 Solvent Selection - Safety 1:0
Lecture 63 Types of Operations
Lecture 64 Single vs 8:28
Lecture 65 Gas Absorption Closure 0:46

Section 4 : Tray Column - Absorbers

Lecture 66 Section 4 - Introduction 4:18
Lecture 67 4 0:57
Lecture 68 Introduction to Tray Columns 4:18
Lecture 69 4 1:20
Lecture 70 Sieve Trays 4:5
Lecture 71 Valve Trays 3:57
Lecture 72 Bubble Cap Trays 3:39
Lecture 73 Tray Considerations 0:27
Lecture 74 Trays - Spacing 2:27
Lecture 75 Trays - Sizing 1:12
Lecture 76 Trays - Layouts
Lecture 77 Trays - Materials 2:50
Lecture 78 Trays - Manways 1:30
Lecture 79 Trays - Operations 1:37
Lecture 80 Tray - Pressure Drop 1:27
Lecture 81 Trays - Costs 1:7
Lecture 82 Tray - Maintenance 0:53
Lecture 83 Trays - Summary 1:4
Lecture 84 All other Pieces 0:27
Lecture 85 Bubbling Area 1:43
Lecture 86 Contact Area 1:24
Lecture 87 Weir 2:33
Lecture 88 Downcomer 3:54
Lecture 89 4 0:23
Lecture 90 Counter-current Operation 5:47
Lecture 91 Counter-current Operation for Dilute Systems 5:47
Lecture 92 Operation Line 4:40
Lecture 93 Exercise#03 - Operation Line
Lecture 94 Equilibrium Line 4:9
Lecture 95 Plotting both Lines 6:11
Lecture 96 Min 12:23
Lecture 97 Exercise#04 - Min 5:51
Lecture 98 Exercise#05- Analytical Lmin 13:33
Lecture 99 Other Cases 1:22
Lecture 100 Co-Current Operation 1:53
Lecture 101 Counter-Current Gas Stripping 1:39
Lecture 102 4 1:18
Lecture 103 Nomenclature used in Gas Absorption 6:30
Lecture 104 Graphical Method - McCabe Thiele 5:33
Lecture 105 Exercise#06 - Graphical Method 13:47
Lecture 106 The Dilute Absorption Factor -A- 1:25
Lecture 107 Analytical Method - Kremser Equation 3:16
Lecture 108 Exercise#07 - Kremser Equation 4:46
Lecture 109 Exercise#08- Kremser vs 3:58
Lecture 110 Dynamic Simulation - Absorption Column 7:26
Lecture 111 Dynamic Simulation - Stripping Column 4:9
Lecture 112 Exercise#09 - Absorption (mass fraction) 9:56
Lecture 113 Stage Efficiency 5:44
Lecture 114 Murphree's Efficiency 3:30
Lecture 115 Examples of real industrial process stage efficiencies 1:44
Lecture 116 Exercise#10- Stage & Murphree Efficiencies 2:53
Lecture 117 Exercise#11- Gas Absorber & Murphree Efficiencies 11:49
Lecture 118 Column Operation 2:51
Lecture 119 Column Operation - Normal 2:4
Lecture 120 Column Operation - Flooding 3:41
Lecture 121 Column Operation - Priming 2:26
Lecture 122 Column Operation - Coning 1:43
Lecture 123 Column Operation - Weeping 1:47
Lecture 124 Column Operation - Dumping 3:37
Lecture 125 Column Operation - Summary 3:34
Lecture 126 Tray Diameter Introduction 6:14
Lecture 127 Tray Spacing 2:25
Lecture 128 Exercise#12- Diameter of a Tray Column 13:58
Lecture 129 Pressure Drop in Trays 3:49
Lecture 130 Hd, Dry Liquid sieve loss - Pressure Drop in trays 3:7
Lecture 131 Hl, (equivalent h eight of clear liquid holdup) 3:39
Lecture 132 Hd, Surface Tension Pressure loss 1:17
Lecture 133 Exercise#13- Pressure Drop in a Tray Columns 11:25
Lecture 134 Summary of Exercises 11, 12 and 13 4:42
Lecture 135 Section 3 - Closure

Section 5 : Packed Column - Absorbers

Lecture 136 Introduction to Packed Columns 2:6
Lecture 137 5 1:51
Lecture 138 Approach to Design 2:29
Lecture 139 5 0:19
Lecture 140 Packed Columns vs 5:3
Lecture 141 Introduction to Packings 4:4
Lecture 142 Packing Material 2:26
Lecture 143 Random Packing 1:28
Lecture 144 Stacked Packing 1:39
Lecture 145 Structural Packing 0:58
Lecture 146 Other Column Internals 1:51
Lecture 147 Liquid distributor 2:13
Lecture 148 Liquid-Vapour Re-Distributor 1:7
Lecture 149 Vapour Distributor 1:12
Lecture 150 Demister - Mist Eliminator 1:45
Lecture 151 Vortex breaker 0:48
Lecture 152 Packing Supports 1:22
Lecture 153 Retaining devices (Hold-down Plate & Bed limiter ) 1:7
Lecture 154 Column Structure - Top 1:23
Lecture 155 Column Structure - Middle 0:0
Lecture 156 Column Structure - Bottom 10:33
Lecture 157 5 2:31
Lecture 158 Introduction to Column Diameters & Pressure Drop 3:51
Lecture 159 Analysis of Drop in Pressure in Packed Towers 7:52
Lecture 160 Flow Parameter vs 4:6
Lecture 161 Flow Parameter vs
Lecture 162 Flooding Pressure Drop Correlation 1:49
Lecture 163 Method 1- Fractional Approach to Flooding Gas Velocity (Absorber Diameter) 4:35
Lecture 164 Method 2- Maximum Pressure Drop Approach (Absorber Diameter) 7:35
Lecture 165 Exercise#14 - Drop in Pressure due to Packings 12:55
Lecture 166 Exercise#15- Pressure drop in a Packed Column 6:58
Lecture 167 Exercise#16- Pressure Drop in an Ethanol Absorber (50mm Hiflow Metallic Rings) 11:48
Lecture 168 HETP (Height Equivalent to a Theoretical Plate) 10:14
Lecture 169 Exercise#17 - HETP 2:3
Lecture 170 Exercise#18 - HETP 4:39
Lecture 171 Method of Transfer Units 4:34
Lecture 172 Number of Transfer Units (NTU) 1:25
Lecture 173 Height of Transfer Unit (HTU) 2:11
Lecture 174 Overall vs 3:0
Lecture 175 Gas Phase - Method of Transfer UnitsMTU 4:23
Lecture 176 Liquid Phase - Method of Transfer UnitsMTU 2:13
Lecture 177 Exercise#19 - Mass Transfer Units Method in a Packed Columns 6:14
Lecture 178 Steps - Method of Transfer UnitsMTU 2:31
Lecture 179 HETP vs MTU 3:48
Lecture 180 Exercise#20- Mass Transfer Units Design 6:45
Lecture 181 Exercise#21 Packed Column Height increase due to increase in purity 4:41
Lecture 182 Exercise#22 Packing Height- Acetone-Air-Water 6:14
Lecture 183 Section 5 - Closure 2:33

Section 6 : Advanced Systems

Lecture 184 Introduction to Section 6 2:40
Lecture 185 Non-diluted Cases in Tray Columns 7:46
Lecture 186 Exercise#23 Concentrated Tray Column Absorber 11:5
Lecture 187 Packed Columns in Non-diluted Cases 1:35
Lecture 188 Exercise#24 Concentrated Case - Packed Column 11:20
Lecture 189 6 5:20
Lecture 190 Methodology for Multicomponent Absorption 6:16
Lecture 191 Case Study - Multicomponent Absorption 15:12
Lecture 192 Sum-Rates (SR) Method for Absorption and Stripping 9:38
Lecture 193 6 4:6
Lecture 194 Section 6 - Closure 1:7

Section 7 : Software Simulation

Lecture 195 Introduction to Section 7 1:35
Lecture 196 Aspen Plus - Introduction 3:8
Lecture 197 Models of Absorption in Aspen Plus 2:18
Lecture 198 Case Study 1 - Problem Statement 3:54
Lecture 199 Case Study 1 - Simulation & Results 14:59
Lecture 200 EXTRA - Case Study 1 - Tray Sizing Effects 3:4
Lecture 201 EXTRA - Case Study 1 - Trays vs 4:18
Lecture 202 EXTRA - Case Study 1 - Diluted vs 5:19
Lecture 203 Aspen HYSYS - Introduction 1:46
Lecture 204 Models of Absorption Columns in Aspen HYSYS 3:4
Lecture 205 Case Study 2 - Problem Statement 2:39
Lecture 206 Case Study 2 - Simulations & Results 7:54
Lecture 207 EXTRA - Case Study 2 - Multicomponent Absorption 3:13
Lecture 208 Closure - Section 7 1:8