Training on Fluid Power Systems & Applications

Skill Assessment | Skill Gap Training | Industrial Certification

Fluid Power Engineering is extensively used in manufacturing plants, heavy equipment, machine tools, robotics, aerospace, marine systems, automotive assemblies, industrial automation, and construction machinery. Mechanical engineers must understand design, control, troubleshooting and maintenance of hydraulic and pneumatic systems.
Pertecnica Engineering offers a comprehensive industry-focused training program on Fluid Power Systems & Applications, bridging the gap between theory and real-world engineering practices.

Why Fluid Power Systems Training?

Improper system design or troubleshooting of hydraulic/pneumatic circuits leads to safety risks, low efficiency, pressure losses, overheating, component failure, leaks and high maintenance cost. This training enables engineers to:

  • Design & interpret hydraulic and pneumatic circuits

  • Select components based on performance requirements

  • Diagnose pressure, flow, leakage and actuator issues

  • Apply safety, maintenance & reliability practices

  • Integrate fluid power with industrial automation

Who Should Join?

  • Mechanical Engineering Students & Graduates

  • Maintenance, Production, Automation, Utility Engineers

  • Engineers in Machine Tools, Robotics, Marine, EPC, Automotive, Oil & Gas & Industrial Machinery

  • Professionals seeking Skill Gap Training in hydraulics & pneumatics

Key Topics Covered

1. Fundamentals of Fluid Power

  • Concepts of pressure, flow, power & efficiency

  • Pascal’s law, flow continuity & friction losses

  • Energy transmission using fluids

2. Hydraulic Systems & Components

  • Pumps: Gear, Vane, Piston pumps

  • Valves: Directional, Pressure & Flow control valves

  • Actuators: Cylinders, Motors, Servo-hydraulics

  • Reservoirs, accumulators, filters & piping design

3. Pneumatic Systems & Applications

  • Compressors, FRL units & air distribution

  • Pneumatic cylinders & air motors

  • Valves, logic control & air throttling

  • Drying, lubrication & air quality management

4. System Design & Circuit Development

  • Designing hydraulic & pneumatic circuits

  • Flow rate, speed & force calculations

  • Accumulator sizing & pressure drops

  • Selection of hoses, fittings & seals

5. Control & Automation Integration

  • Electro-hydraulic & electro-pneumatic systems

  • PLC-based control for fluid power

  • Sensors, proportional & servo valves

  • Machine tool & robotic integration

6. Troubleshooting & Failure Analysis

  • Overheating, leakage, cavitation, pressure spikes

  • Actuator malfunction, vibration & noise issues

  • Pump wear, contamination & valve sticking

  • Root cause analysis & corrective actions

7. Safety & Maintenance Practices

  • Hydraulic hazards & safe operation

  • Lockout/Tagout (LOTO) & pressure isolation

  • Preventive & predictive maintenance

  • Filtration, inspection & contamination control

Skill Assessment & Certification

Pertecnica evaluates engineers through:

  • Circuit design and calculation assignments

  • Troubleshooting & root cause analysis case studies

  • Component selection & system sizing tasks

  • Control logic and maintenance planning exercises

Candidates needing support receive Skill Gap Training in circuits, control logic, system selection & diagnostics. Successful participants receive Industrial Certification in Fluid Power Systems & Applications.

How This Training Helps Engineers

  • Builds strong competency in hydraulic & pneumatic engineering

  • Enhances ability to design, troubleshoot & maintain systems

  • Improves productivity, reliability & safety of industrial machines

  • Opens opportunities in automation, manufacturing, heavy machinery, marine, aviation and process industries

  • Strengthens employability in core mechanical, maintenance, commissioning & system design roles