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050201s1965||||xxu|||||||||||||||||eng|| |
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|a eng
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082 |
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|a 621.24
|b W814
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100 |
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|a Wislicenus, George F.
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245 |
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|a Fluid Mechanics of Turbomachinery. /
|c George F. Wislicenus..
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260 |
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|a New York :
|b Dover Publications, Inc.,
|c 1965
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300 |
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|a 2 Volumenes
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592 |
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|a 1. Introduction to the Fluid Mechanics of Turbomachine2. Fundamentals Similarity Consideration3. Influence of Viscosity and Turbulence Described by Similarity Considerations, and Model Laws4. The Influence of Cavitation Described by Similarity Considerations5. Introduction and the Principles of One-dimensional Fluid Mechanics (Hydraulics)6. Fundamental Theory of Hydrodynamic Machines7. One_dimensional Theory of Hydrodinamics MAchine8. Two-dimensional Fluid Motions of Constant Energy9. Two-dimensional and Irrotational Fluid Motions in Axial-flow Turbomachinery10. Two-dimensional Theory of Frictionless Flow in Radial-flow Turbomachinery11. The Three-dimensional Problem of Turbomachinery13. Hydraulic Theory of Cavitation in Turbomachinery14. Hydrodynamic Transmissions-Vol I17. Thermodynamics of the Flow of Gases Without Losses in Mechanical Energy18. Thermodynamics of the Flow of Gases Considering Losses in Mechanical Energy. Application to Turbomachinery19. Introduction to the Two-dimensional Theory of the Flow of Compressible Fluids20. The Influence of Compressibility Described the by Similarity Considerations21. General Principles and the Geometry of Systems with no Rotation22. The Geometry of Systems with Rotational and Radial Flow23. The Geometry of Systems with Rotational and Axial or Conical Flow24. Geometry of Systems with Rotational Flow and Transmitions Between Axial, Conical, and Radial Flow25. General Considerations26. The Three-dimensional Problem Turbomachinery and its Two-dimensional Solutions27. The Relation Between the Mean Stream Lines and the Vane Camber Lines in Two-dimensional Cascades28. Applications of the Mean-stream-line Method to Compressible Fluids29. The Design of an Axial-flow Pump Runner by the Mean-stream-line Method-Vol II.
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