P M V Subbarao Professor Mechanical Engineering Department

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Presentation transcript:

P M V Subbarao Professor Mechanical Engineering Department Kaplan Turbine P M V Subbarao Professor Mechanical Engineering Department Pure Axial Flow with Aerofoil Theory….

Kaplan Turbine The kaplan turbine is a great development of early 20th century. Invented by Prof. Viktor Kaplan of Austria during 1913 – 1922. The Kaplan is of the propeller type, similar to an airplane propeller. The difference between the Propeller and Kaplan turbines is that the Propeller turbine has fixed runner blades while the Kaplan turbine has adjustable runner blades. It is a pure axial flow turbine uses basic aerofoil theory. The kaplan's blades are adjustable for pitch and will handle a great variation of flow very efficiently. They are 90% or better in efficiency and are used in place of the old (but great) Francis types in a good many of installations. They are very expensive and are used principally in large installations. The kaplan turbine, unlike all other propeller turbines, the runner's blades were movable.

Classification of Kaplan Turbines The Kaplan turbine can be divided in double and single regulated turbines. A Kaplan turbine with adjustable runner blades and adjustable guide vanes is double regulated while one with only adjustable runner blades is single regulated. The application of Kaplan turbines are from a head of 2m to 40m. The advantage of the double regulated turbines is that they can be used in a wider field. The double regulated Kaplan turbines can work between 15% and 100% of the maximum design discharge; the single regulated turbines can only work between 30% and 100% of the maximum design discharge.

Schematic of Kaplan Turbine

Major Parts of A Kaplan Turbine

Design of Guide Wheel Degv

Kug Kfg Kug Kfg Ns

Number of Guide Vanes Z= 8 10 12 14 16 18 20 24 Dge, mm <300 300 – 450 450 – 750 750 – 1200 1200 – 1600 1600 - 2200 2200 4000 >4000

Outlines of Kaplan Runner b Whirl Chamber Guide Vanes The space between guide wheel outlet and kaplan runner is known as Whirl Chamber. a=0.13 Drunner & b=0.16 to 0.2 Drunner.

Design of Kaplan Runner Drunner Dhub

Specific Speed of Kaplan Turbine Using statistical studies of schemes, F. Schweiger and J. Gregory established the following correlation between the specific speed and the net head for Kaplan turbines: P in watts.

Runner diameter section

Kug Qfactor

Hub diameter The hub diameter Dhub can be calculated with the following equation: