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Rothalpy P M V Subbarao Professor Mechanical Engineering Department Design variations through Conservation of Rothalpy….

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Presentation on theme: "Rothalpy P M V Subbarao Professor Mechanical Engineering Department Design variations through Conservation of Rothalpy…."— Presentation transcript:

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2 Rothalpy P M V Subbarao Professor Mechanical Engineering Department Design variations through Conservation of Rothalpy….

3 Blade Velocity Vs Tangential Component of Fluid Velocity UbUb UbUb ViVi V ai V fi V ri In maridional plane at mean radius of rotor & inlet

4 UbUb V  iV  i V ai V fi V ri UbUb V  iV  i V ai V fi V ri V  iV  i UbUb V ai V fi V ri

5 Relative Angular Velocity Constant in an ideal turbo-machine

6 Evolution of Relative Velocity Along Flow Path

7 For stator path : U blade =0 For rotor Paths : For a true axial flow rotor paths: U blade constant Classification of Isentropic Expansion Paths

8 Turbo-machines working with Vapors/Gas For an ideal gas:

9 For simple compressible fluid: Like Inert Gas Turbo-machines working with Perfect Gas

10 The Fourth Generation Nuclear Power Plants

11 An Advanced Nuclear Power Plant

12 The Ultimate Importance of Invariant Property : Rothalpy

13 Selection of Stator-Rotor Combinations

14 From Books of Sir Charles Parson In 1884 or four years previously, I dealt with the turbine problem in a different way. It seemed to me that moderate surface velocities and speeds of rotation were essential if the turbine motor was to receive general acceptance as a prime mover. I therefore decided to split up the fall in pressure of the steam into small fractional expansions over a large number of turbines in series, so that the velocity of the steam nowhere should be great. A moderate speed of turbine suffices for the highest economy.

15 This principle of compounding turbines in series is now universally used in all except very small engines, where economy in steam is of secondary importance. The arrangement of small falls in pressure at each turbine also appeared to me to be surer to give a high efficiency. The steam flowed practically in a non-expansive manner through each individual turbine, and consequently in an analogous way to water in hydraulic turbines whose high efficiency at that date had been proved by accurate tests.

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17 Classification of Steam Turbine Flow Paths


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