Fundamentals of hydraulics and pneumatics, fluidic control system components including compressors, pumps, motors, actuators, valves, regulators and spool valves; Pressure and flow characteristics of spool valves, ISO graphic symbols for fluid power components; Fundamentals of fluidic power systems, properties of fluids, conservation laws, fluid passive components including Resistance, Capacitance and Inertance, compressible fluids and propagation of disturbance, compressible flow through nozzles; Lumped parameter modeling of fluidic systems; Modeling of simple fluidic and fluid-mechanical systems comprising of lines, storage tanks and actuators, using lumped parameter modeling; Continuous parameter modeling of fluidic systems, transmission line dynamics using continuum approach and pressure transients; Friction and hysteresis in hydraulic cylinders and servo-valves; Modeling and analysis of hydraulic/pneumatic servo systems including flapper-nozzle servo valves and power steering. Modeling of electrohydraulic servo systems.
Suggested Text:
- Modeling and Simulation of Dynamic Systems by R. L. Woods and K.L. Lawrence.
- Hydraulic Control Systems by H. E. Merritt.
- Fluid Power Control by J.F. Blackburn, G. Reethoff, J.L. Shearer.
- Course Notes.