
Mod01 Lec01 Introduction to Fluid Machines 1

Mod01 Lec02 Energy Transfer in Fluid Machines Part  I

Mod01 Lec03 Energy Transfer in Fluid Machines Part  II

Mod01 Lec04 Energy Transfer  impulse and Reaction Machines, efficiencies of Fluid Machines

Mod01 Lec05 Principles of Similarity in Fluid Machines

Mod01 Lec06 Concept of specific speed and introduction to Impulse Hydraulic Turbine

Mod01 Lec07 Analysis of force on the Bucket of Pelton wheel and Power Generation

Mod01 Lec08 Specific speed, Governing and Limitation of a Pelton Turbine

Mod01 Lec09 Introduction to reaction Type of Hydraulic Turbine  A Francis Turbine

Mod01 Lec10 Analysis of Force on Francis Runner and Power Generation

Mod01 Lec11 Axial Flow Machine and Draft Tube

Mod01 Lec12 Governing of Reaction Turbine

Mod01 Lec13 Introduction to Rotodynamic Pumps

Mod01 Lec14 Flow and Energy Transfer in a Centrifugal Pump

Mod01 Lec15 Characteristics of a Centrifugal Pump

Mod01 Lec16 Matching of Pump and System Characteristics

Mod01 Lec17 Diffuser and Cavitation

Mod01 Lec18 Axial Flow Pump

Mod01 Lec19 Reciprocating Pump

Mod01 Lec20 Reciprocating Pump Part II

Mod01 Lec21 Centrifugal Compressor Part I

Mod01 Lec22 Centrifugal Compressor Part II

Mod01 Lec23 Centrifugal Compressor Part III

Mod01 Lec24 Axial Flow Compressor Part I

Mod01 Lec25 Axial Flow Compressor Part II

Mod01 Lec26 Introduction to Compressible Flow

Mod01 Lec27 Introduction to Compressible Flow Part II

Mod01 Lec28 Thermodynamic Relations and Speed of Sound

Mod01 Lec29 Disturbance propagation, Stagnation and Sonic Properties

Mod01 Lec30 Effects of Area Variation on Properties in an Isentropic Flow

Mod01 Lec31 Choking in a Converging Nozzle

Mod01 Lec32 Isentropic Flow through Convergent  Divergent Duct

Mod01 Lec33 Normal Shock

Mod01 Lec34 Normal Shock Part II

Mod01 Lec35 Normal Shock Part III

Mod01 Lec36 Normal Shock Part IV

Mod01 Lec37 Normal Shock Part V

Mod01 Lec38 Oblique Shock Part I

Mod01 Lec39 Oblique Shock Part II

Mod01 Lec40 Introduction to Expansion Wave and Prandtl Meyer Flow