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Table of Contents |
I. Introduction
II. Table of contents
III. Summary
1. Flux in pipes
1.1. Physical essentials
1.2. Design elements
1.3. Significant aspekts
2. Engines
2.1. Physical essentials
2.2. Design elements
2.3. Significant aspects
3. Lift and propulsion
3.1. Physical essentials
3.2. Design elements
3.3. Significant aspekts
IV. Pipe invention
1.1. Problems
1.2. Objectives
2. Physical essentials
2.1. Molecular movement in pipes
2.1.1. īMolecule in restī
2.1.2. īMolecule in motionī
2.1.3. Friction at pipe wall
2.1.4. Movement to pipe center
2.1.5. Blocking longitudinal flow
2.1.6. Vortex formation
2.1.7. Turbulence
2.1.8. Movement model
2.2. Directed movement in pipe
2.2.1. Suction or pressure
2.2.2. Rolling
2.2.3. Roll layer
2.2.4. Twist path
2.2.5. Main flow
2.2.6. Vortes core
2.2.7. Potential twist flow
2.2.8. Starting points
3. Design elements
3.1. Tank outflow resp. pipe inflow
3.2. Pipe outflow resp. tank inflow
3.3. Potential twist flow generator
3.4. Roll layer generator
3.5. Pipe cross section increase
3.6. Pipe cross section decrease
3.7. Jet
3.8. Nozzle with ring shaped jet
3.9. Throttle valve
3.10. Fin set at ring shaped jet
3.11. Bend
3.12. Potential twist flow fin set
3.13. Inflow resp. outflow
3.14. Potential twist flow pipe
4. Summary
V. Mashine invention
1. Introduction
1.1. Problems
1.2. Basis
1.3. Objectives
2. Physical essentials
2.1. Potential twist flow
2.2. Whirlwinds
2.3. Whirlpools
2.4. Vortex energy
2.5. Pressure within fluidflows
2.6. Suction within fluidflows
2.7. Suction of fluid to bodies
2.8. Suction of bodies to fluid
2.9. Pressure of bodies to fluid
2.10. Pressure of fluid to bodies
2.11. Starting points
3. Design elements
3.1. Pre twist generator
3.2. Pipe pump
3.3. Centrifugal pump
3.4. Pressure locking device
3.5. Potential twist pump
3.6. Suction pump
3.7. Vortex tank
3.8. Ring vortex tank
3.9. Pressure pump
3.10. Combustion chamber
3.11. Intake of turbines
3.12. Turbo charger
3.13. Rotation valve pipe
3.14. Intake / outlet rotation valve pipe
3.15. Stroke piston gear
3.16. Four stroke rotation stroke piston motor
3.17. Rotation stroke piston gear
3.18. Rotation stroke piston mashine
3.19. Rotation stroke piston motor
3.20. Tangential turbine
3.21. Axial turbine
3.22. Jet engine
4. Summary
VI. Vehicle invention
1. Introduction
1.1. Problems and objectives
1.2. Basis und terms
2. Physical essentials
2.1. Drag
2.2. Lift / buoyancy
2.3. Drive
2.4. Control surface
3. Design elements
3.1. Impulse transformer
3.2. Pressure pump engine
3.3. Rotary stroke piston engine
3.4. Jet wing
3.5. Fuselage wing
3.6. Wing fuselage
3.7. Rudder
3.8. Pipe prop
3.9. Vortex prop
3.10. Groove hull
3.11. Buoyancy body
3.12. Drive body
3.13. Drive channals
4. Summary
VII. Final Chapter