Part 1 : Need for Air Dryer, Analysis of Moisture Removal from Air, Typical Air Drying Methods, Basic Types of Air Dryers Part 3: Pressure drop Predictions using Various Empirical Formulae and Nomogram, Best Practices for Compressed Air Piping System and Installation Tips Part 2: What causes Pressure Drop ?, Minimising Pressure Drop, Air Distribution System- Sizing of Pipes, Tubes, Materials and Fittings, Important Air Flow Parameters Part 1: Energy Loss and Cost Break Down in Air Preparation Process, Pressure Drop and its Effect Part 4: Construction and Operation of Two-stage Reciprocating type Air Compressor, Diaphragm Type Air Compressor, Rotary Vane Compressor, Twin Lobe Air compressor, Screw Compressor, Liquid Ring Compressor and Selection Criteria Part 3: Reciprocating Type Air Compressor-Single and Multi-stage Piston Pump, PV Diagram and Work Done Part 2: Pneumatic Power Source- Compressor, Classification, Air Receiver and Control Methods Part 1: Pneumatic Control System-Introduction, Air preparation-Primary and Secondary Air Treatment Part 3: Radial Piston Pumps- Construction and Operation, Pump failure and Cavitations, Important parameters while selecting Pump, Numerical Part 2: Axial Piston Pump- Construction and Operating principles of Bent axis and Swash plate type pump Part 1: Piston pump, Pumping theory, Constructional features and Operations of Hand Pump-Single acting, Twin single acting, Double acting, Two-stage Part 3: Variable Displacement Pressure Compensated Vane Pump, Balance Vane Pump, Kinematic Inversion of Vane pump and Numerical Part 2: Vane Pump, Pumping theory, Construction and Operation of Unbalanced Vane Pump, Vane loading and solutions, Different Vanes Part 1:Numericals on Gear Pump, Tree Structure of Vane Pump Part 4: Construction features and operations of Internal Gear Pump, Gerotor Pump and Screw Pump Part 3: Ideal pump, pump losses, efficiency curve, Constructional features and Operations of External Gear pump Part 2: Positive Displacement pump and pumping theory Part 1: Introduction to Hydraulic Pumps, Facts and Figures, Classifications Part 3 : Symbols for Filters, Check Valves, DCVs, Spool Actuation methods, PCV, Miscellaneous, Port Configurations Part 2 : Symbols for Functional Units, Hydraulic Pumps, Hydraulic Motors, Cylinders, Air Compressors, Pneumatic Motors and Orifices Part 1 : Introduction to Fluid Power Symbols, Hydraulic lines and Color Coding Part 3: Applications of Bernoulli equation-Venturi,Torricelli's theorem, Siphon, Continuity equation and flow configuration, Concept of pressures and Gas laws Part 2: Pressure Intensifier, Numericals, Air-to-Hydraulic Booster and Bernoulli equation Part 1 : Pascal's law and its application-Hydraulic jack, Hydraulic brake and Numerical Part 3 : Typical Application of Fluid Power System, Status and Development Part 2: Introduction to Pneumatic and its Basic Components, Applications-Stationary and Mobile Part 1: Introduction to Oil Hydraulics and its Basic Components Part 3: Brief History, Application Areas, Major Divisions of Fluid Power System Part 2: Merits and Demerits of Fluid Power, Power Transmission Method Part 1: Introduction, Learning Objectives, Course Content and References
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