Fluid Friction In Pipes, With Basic Hydraulic Feed System [Code: FM0061]

Fluid Friction In Pipes, With Basic Hydraulic Feed System
Description & Specification:

Fluid Friction In Pipes, With Basic Hydraulic Feed System.
Fluid Friction In Pipes, With Basic Hydraulic Feed System EXERCISES AND PRACTICAL POSSIBILITIES Some Practical Possibilities of the Unit: 1.-   Load loss by friction in a rough pipe of 17 mm of interior diameter. 2.-   Load loss by friction in a rough pipe of 23 mm of interior diameter. 3.-   Load loss by friction in a smooth pipe of 6.5 mm of interior diameter 4.-   Load loss by friction in a smooth pipe of 16.5 mm of interior diameter. 5.-   Load loss by friction in a smooth pipe of 26.5 mm of interior diameter. 6.-   Influence of the diameter in the load loss by friction in rough pipes. 7.-   Influence of the diameter in the load loss by friction in smooth pipes. 8.-   Load loss by friction in smooth and rough pipes. 9.-   Friction coefficient in a rough pipe of 17 mm of interior diameter. 10.- Friction coefficient in a rough pipe of 23 mm of interior diameter. 11.- Friction coefficient in a smooth pipe of 6.5 mm of interior diameter. 12.- Friction coefficient in a smooth pipe of 16.5 mm of interior diameter. 13.- Friction coefficient in a smooth pipe of 26.5 mm of interior diameter. 14.- Influence of the diameter in the friction coefficient in rough pipes. 15.- Influence of the diameter in the friction coefficient in smooth pipes. 16.- Friction coefficient in smooth and rough pipes. 17.- Load losses in the inclined seat valve. 18.- Load losses in the floodgate valve. 19.- Load losses in the filter. 20.- Load losses in the membrane valve. 21.- Load losses in an abrupt broadening. 22.- Load losses in the Venturi. 23.- Load losses in the diaphragm. 24.- Load losses in an abrupt contraction. 25.- Load losses in the accessories. 26.- Flow measurements by load loss in a Venturi. 27.- Flow measurements by load loss in a diaphragm. 28.- Flow measurements by means of load loss. 29.- Load losses in a symmetrical bifurcation. 30.- Load losses after two 90º elbows. 31.- Load losses in a T-junction. 32.- Load losses for a 90º elbows. 33.- Load losses on the ball valve. 34.- Load losses for an elbow of 45º. 35.- Load losses in a inclined T-junction. 36.- Study of laminar regime. 37.- Study of turbulent regime. Other possible practices: 38.- Filling of the manometers. 39.- Universal graph for the pipe calculation.

Related Products

www.elabengineeringequipments.com | 2020 © Copyright | Privacy Policy | Terms of Use