ENTC 303: Fluid Mechanics and Fluid Power

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Presentation transcript:

ENTC 303: Fluid Mechanics and Fluid Power Fluid Properties (i.e. density, viscosity) Instrumentation to measure fluid properties Pressure (i.e. absolute, gage, devices) Static forces due to pressure (i.e. on walls, curved surfaces) Buoyancy (note: stability is not covered) Flowing Fluids Flowrate Bernoulli’s Equation

ENTC 303: Fluid Mechanics and Fluid Power Flowing Fluids Energy Equation Reynolds Number Energy losses in straight pipes Non-circular sections Minor losses Piping systems in parallel Piping systems in series Pumps Kinetic and Positive Displacement Fluid Power Hydraulic components and circuits Pneumatic components and circuits

ENTC 370: Thermodynamics Basic concepts Fluid States and Ideal gases Open systems Closed systems Fluid properties Fluid States and Ideal gases Steam tables 1st law for closed systems Piston-cylinder devices Rigid container 1st law for open systems Pipes Heat exchangers Mixing chambers Turbines and compressors

ENTC 370: Thermodynamics Carnot Cycle 2nd Law for closed and open systems Entropy as a property Entropy generation Steady flow devices Isentropic efficiency Cycles Otto cycle (internal combustion engine) Refrigeration cycle Gas (Brayton) turbine cycle Steam (Rankine) cycle