Fluid mechanics in channel, pipe and aerodynamic design geometries 2 / Christina G. Georgantopoulou, George A. Georgantopoulos

By:

Georgantopoulou, Christina G [VerfasserIn]

Contributor(s):

Georgantopoulos, George A [VerfasserIn]

Resource type: Ressourcentyp: Buch (Online)Book (Online)Language: English Series: Science, society and new technologies series | Engineering, energy and architecture set ; volume 3Publisher: Hoboken, NJ : John Wiley & Sons, Inc, 2018Publisher: London : ISTE Ltd, 2018Description: 1 Online-RessourceISBN:

9781119522355

Subject(s):

Additional physical formats: 9781786301406 | 1119457009. | 9781119457008. DDC classification:

620.1/06

LOC classification:

TA357

Online resources:

Zugang im Netz des KIT

Summary: 2.3. Open channel types of flow2.4. Open channels' geometrical shapes; 2.4.1. Channels of rectangular cross-sectional area; 2.4.2. Channels of trapezoidal cross-sectional area; 2.4.3. Channels of circular cross-sectional area; 2.5. The hydraulic jump; 2.6. Calculation of the depth flow after the hydraulic jump; 2.7. Velocity distribution; 2.8. Velocity distribution at the vertical level; 2.9. Uniform flow in open channel equations -- Chezy type; 2.10. Best hydraulic cross-sectional area; 2.11. Specific flow energy; 2.12. Channels of rectangular cross-sectional areaSummary: 2.13. Open channels' more adequate cross-sectional areas2.13.1. Rectangular cross-sectional area; 2.13.2. Trapezoidal cross-sectional area; 2.14. Non-uniform flow in open channels; 2.15. Channels of non-rectangular cross-section area; 2.16. Formulae; 2.16.1. Channels of rectangular cross-sectional area formulae; 2.16.2. Channels of trapezoidal cross-section formulae; 2.16.3. Channels of circular cross-sectional area formulae; 2.16.4. Channels of rectangular cross-sectional area formulae; 2.16.5. Channels of non-rectangular cross-sectional area formulae; 2.17. QuestionsSummary: 4.6. Lift curve4.7. Drag force and drag coefficient curve; 4.7.1. Drag of skin friction; 4.7.2. Form drag; 4.7.3. Induced drag; 4.8. Parameters that influence the drag coefficient; 4.8.1. Dependence of CD on the body's shape; 4.8.2. Dependence of CD on relative roughness; 4.8.3. Dependence of CD on the Reynolds number; 4.9. External flow around industrial solid bodies; 4.9.1. Car's motion; 4.9.2. Surface vessel's motion; 4.9.3. Wind flow in ground constructions; 4.9.4. Airplane's motion; 4.10. Drag in fluid drops and gas bubbles in creeping flow; 4.11. Formulae; 4.12. QuestionsSummary: Cover; Half-Title Page; Dedication; Title Page; Copyright Page; Contents; Preface; 1. Pipe Networks; 1.1. Introduction; 1.2. Calculation of pipe networks; 1.3. Problem-solving methodology for pipe networks; 1.4. Overall approach for the network calculation; 1.5. The Hazen-Williams equation for network analysis; 1.6. Hazen-Williams and Darcy-Weisbach identity; 1.7. Hardy-Cross method; 1.8. Formulae; 1.9. Questions; 1.10. Problems with solutions; 1.11. Problems to be solved; 2. Open Channel Flow; 2.1. Introduction; 2.2. Non-dimensional parameters in open channelsPPN: PPN: 1026354501Package identifier: Produktsigel: ZDB-4-NLEBK

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