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PD1 Process Engineering Design - Boot Camp 2021
1. Introduction to Chemical/Process Engineering
1.1 Introduction to Process Engineering (8:25)
1.2 Chemical Engineering Projects (7:39)
1.3 Organization of Chemical Engineering Projects (13:36)
1.4 Nature of Design (8:23)
1.5 System of Units (10:31)
2. Process Engineering Drawings
2.1 Engineering Diagrams and Drawings (3:49)
2.2 Block Flow and Process Flow Diagrams (9:42)
2.3 Piping and Instrumentation Diagrams (13:04)
2.4 Drawing Development, Revision and Update (11:47)
2.5 Cause and Effect Diagrams (3:42)
2.6 Other Drawings (5:57)
3. Mixture Properties
3.1 Chemical and Physical Properties (4:10)
3.2 Molecular Weight and Density (8:22)
3.3 Compressibility Factor and Viscosity (5:17)
3.4 Specific Heat Capacity and Thermal Conductivity (4:45)
3.5 Sensible & Latent Heat and Boiling Temperature (9:18)
3.6 Vapor Pressure (5:22)
4. Material and Energy Balance
4.1 Mass/Material Balance (9:11)
4.2 Conversion and Yield (6:52)
4.3 Thermodynamic Processes (9:17)
4.4 Energy Balance (7:58)
4.5 Enthalpy Calculation (10:28)
4.6 Heat of mixture, reaction and formation (5:40)
4.7 Problem Solving (8:38)
5. Fluid Flow Fundamentals
5.1 Introduction to fluid flow fundamentals and fluid types (9:15)
5.2 Flow Regimes and Reynolds Number (5:21)
5.3 Pressure Drop and Head Loss Calculations (18:37)
5.4 Bernoulli's Principle (6:40)
5.5 Line/Pipe Sizing (3:47)
5.6 Problem Solving (10:42)
6. Valves
6.1 Introduction to Valves (10:10)
6.2 Valve Internals (11:57)
6.3 Isolation Valves (8:28)
6.4 Control Valves (11:32)
6.5 Check Valves (5:58)
6.6 Control Valve Sizing for Liquid Service (4:34)
7. Pumps
7.1 Pump operation principles and selection (11:34)
7.2 Cavitation Phenomenon (11:47)
7.3 Centrifugal Pumps (14:36)
7.4 System Curve and Capacity Control (7:47)
7.5 Multiple Pumps in Operation (8:36)
7.6 Positive Displacement Pumps (4:33)
New Lecture
8. Compressors
8.1 General Information (6:31)
8.2 Power Requirements (5:07)
8.3 Polytropic Compression Phenomenon (4:55)
8.4 Compressor Performance Curve (6:17)
8.5 Capacity Control of Compressor (7:43)
9. Gravity Separation, Separators
9.1 Principles of Separation Theory (6:11)
9.2 Phase Diagrams (10:42)
9.3 Vapor-Liquid Equilibrium (10:34)
9.4 Flash Calculation (4:18)
9.5 Selection criterion of separators (7:06)
9.6 Separator Sizing - Part I (12:04)
9.7 Separator Sizing - Part II (5:06)
10. Heat Exchangers
10.1 Heat Transfer Fundamentals (21:54)
10.2 Heat Exchanger Types (8:13)
10.3 Shell & Tube Heat Exchangers (16:10)
10.4 Basic Heat Balance around HX (7:03)
10.5 Shell & Tube Heat Exchanger Design (9:27)
11. Process Control Fundamentals
11.1 Importance of Process Control (9:41)
11.2 Elements of Process Control - Part I (10:52)
11.3 Elements of Process Control - Part II (11:48)
11.4 Control Systems - Part I (9:19)
11.5 Control Systems - Part II (6:47)
11.6 Solution Methods for ODEs (10:44)
11.7 P, PI, PID Control Systems (8:50)
12. Introduction to Process Safety
12.1 Fundamentals of Process Safety (24:51)
12.2 Risk Assessment Techniques (20:00)
12.3 Fundamentals of HAZOP - Part I (13:55)
12.4 Fundamentals of HAZOP - Part II (20:09)
12.5 Fundamentals of LOPA (17:08)
8.3 Polytropic Compression Phenomenon
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