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Course Code : 402041
Course Name : Hydraulics and Pneumatics
Credits TH : 03 TH : 03
Unit 1: Basics of Fluid Power and Pumps
Fluid power basics, advantages and limitations, fluid power distribution, standard symbols, energy loss in hydraulic systems.
Pumps - types, classification, principle of working and constructional details of vane pumps, gear pumps, radial and axial plunger pumps, screw pumps, power and efficiency calculations, and characteristics curves.
Unit 2: Actuators and Power Unit
Linear and rotary actuators- types, construction and characteristics. Cylinder mountings, cushioning of cylinders.
Power units and accessories - types of power units, reservoir assembly, constructional details.
Accumulators, Intensifiers, Pressure and Temperature switches /sensors, level sensors.
Unit 3: Fluid Power Control
Direction control valves - center positions, methods of actuation, two stage valves, Flow control valves - pressure and temperature compensated. Pressure control valves - pressure reducing valve, sequence valve, unloading valve, brake valve, back pressure valve, counter balance valve, check valves, prefill valve, servo valves, cartridge valves, proportional valves.
Unit 4: Hydraulic Circuits and Contamination Control
Hydraulic circuits: Simple reciprocating, regenerative, speed control (meter in, meter out and bleed off), sequencing, synchronization, traverse and feed, automatic reciprocating, fail safe circuit, counter balance circuit, actuator locking, unloading circuit, motor breaking circuit etc.
Contamination control: Contamination, sources of contamination, suction strainer, filters, filtration, filter ratings.
Unit 5: Pneumatics – Components, Control Valves and Circuits
Compressors - Types, principle of working and constructional details. Comparison of pneumatic with hydraulic power transmissions. Types of filters, pressure regulators, lubricators, mufflers, dryers, direction control valves, pneumatic actuators, shuttle valve, two pressure valve, quick exhaust valve and time delay valves, electro-pneumatics. Speed regulating methods, pneumatic circuits, reciprocating, cascading time delay etc. Application of pneumatics in low cost automation and in industrial automation.
Unit 6: System Analysis and Design
Calculation of piston velocity, thrust under static and dynamic applications, considering friction, inertia loads, design considerations for cylinders, Design of hydraulic/pneumatic circuits for practical application, selection of different components such as reservoir, control elements, actuators, accumulator, intensifier, filters, pumps. (Students are advised to refer manufacturers’ catalogues for design and use simulation tool like Automation Studio for analysis).
Books
Text :
1. Esposito A, Fluid Power with application, Prentice Hall
2. Majumdar S.R, Oil Hydraulic system- Principle and maintenance ,Tata McGraw Hill
3. Majumdar S.R, Pneumatics Systems Principles and Maintenance ,Tata McGraw Hill
4. Stewart H. L, Hydraulics and Pneumatics , Taraporewala Publication
References :
1. Pipenger J.J, Industrial Hydraulics, McGraw Hill
2. Pinches, Industrial Fluid Power, Prentice Hall
3. Yeaple, Fluid Power Design Handbook
4. Andrew A. Parr, Hydraulics and Pneumatics, Elsevier Science and Technology Books
5. ISO - 1219, Fluid Systems and components, Graphic Symbols
6. Standard Manufacturer’s Catalogues
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