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Effect of Energy Recovery on Efficiency in Electro-Hydrostatic Closed System for Differential Actuator

Thales Agostini, Victor De Negri, Tatiana Minav, Matti Pietola

2020Actuators29 citationsDOIOpen Access PDF

Abstract

This paper investigates energy efficiency and dynamic behavior through simulation and experiments of a compact electro-hydrostatic actuator system (EHA) consisting of an electric motor, external gear pump/motors, hydraulic accumulator, and differential cylinder. Tests were performed in a stand-alone crane in order to validate the mathematical model. The influence and importance of a good balance between pump/motors displacement and cylinder areas ratios is discussed. The overall efficiency for the performed motion is also compared considering the capability or not of energy recovery. The results obtained demonstrate the significant gain of efficiency when working in the optimal condition and it is compared to the conventional hydraulic system using proportional valves. The proposed system presents the advantages and disadvantages when utilizing components off-the-shelf taking into account the applicability in mobile and industrial stationary machines.

Topics & Concepts

Control theory (sociology)ActuatorAccumulator (cryptography)Hydraulic pumpHydrostatic equilibriumHydraulic machineryHydraulic cylinderCentrifugal pumpHydraulic motorEfficient energy useDisplacement (psychology)CylinderAutomotive engineeringStatorEnergy recoveryVariable displacement pumpEngineeringMechanical engineeringEnergy (signal processing)Computer scienceMathematicsPhysicsPsychologyImpellerQuantum mechanicsStatisticsArtificial intelligencePsychotherapistAlgorithmElectrical engineeringControl (management)Hydraulic and Pneumatic SystemsIndustrial Technology and Control SystemsIndustrial Automation and Control Systems
Effect of Energy Recovery on Efficiency in Electro-Hydrostatic Closed System for Differential Actuator | Litcius