A Case Study on the Detection and Prognosis of Internal Leakages in Electro-Hydraulic Flight Control Actuators

Bertolino, Antonio Carlo; Martin, Andrea De; Jacazio, Giovanni; Sorli, Massimo

doi:10.3390/act10090215

Cited by 11 publications

(5 citation statements)

References 30 publications

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“…The latter depends on the dynamics of the first-stage torque motor [30], which is represented as a second-order transfer function with hysteresis, null bias, current offset, non-linearities, and saturations. The leakages occurring in the EHSV and dynamic sealings, as well as friction levels, are calculated according to [31,32], while the bypass orifice is considered an orifice with turbulent flow conditions. Finally, the force generated by the internal EHSA is obtained by the differential pressure between the actuator chambers, considering the temperature-dependent rheological properties of the oil.…”

Section: Mathematical Model Validationmentioning

confidence: 99%

Development of a High-Performance Low-Weight Hydraulic Damper for Active Vibration Control of the Main Rotor on Helicopters—Part 2: Preliminary Experimental Validation

Bertolino,

Gaidano,

Smorto

et al. 2023

Aerospace

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Vibrations generated by the main rotor-gearbox assembly in a helicopter are the principal cause of damage to cockpit instruments and crew discomfort in terms of cabin noise. The principal path of vibration transmission to the fuselage is through the gearbox’s rigid support struts. This article is Part 2 of a two-part paper presenting an innovative solution involving the replacement of rigid struts with low-weight, high-performance active dampers for vibration control developed by Elettronica Aster S.p.A. Part 1 provided a comprehensive overview of the system layout obtained through a model-based design process and presented a thorough description of the adopted nonlinear mathematical model. Part 2 focuses on the physical realization of the damper and its dedicated experimental test bench. The mathematical model parameter fitting procedure is presented in detail, as it has been used to help in the definition and optimization of the control schemes and the verification of the expected performance. The experimental results obtained in Part 2 not only demonstrate the compliance of the active damper prototype with the acceptance tests outlined in the ATP but also provide compelling evidence reinforcing the promise of the presented solution for effective vibration reduction.

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Section: Mathematical Model Validationmentioning

confidence: 99%

Development of a High-Performance Low-Weight Hydraulic Damper for Active Vibration Control of the Main Rotor on Helicopters—Part 2: Preliminary Experimental Validation

Bertolino,

Gaidano,

Smorto

et al. 2023

Aerospace

Self Cite

View full text Add to dashboard Cite

show abstract

“…Ensuring the reliability of these systems is essential for maintaining aircraft safety standards. That why, monitoring the condition of aircraft hydraulic systems is significantly important in both academic and industrial fields (Bertolino et al, 2021;Mehmood et al, 2021;Stosiak, 2012). Evidently, to ensure the safe and reliable operation of aircrafts' hydraulic system, fault diagnoses and prediction of the hydraulic system failures are crucial for researcher (Lu et al, 2017).…”

Section: Introduction: Energy Losses and Operation Delay Connected Wi...mentioning

confidence: 99%

Aircraft Hydraulic Drive Energy Losses and Operation Delay Associated With the Pipeline and Fitting Connections

Karpenko

2024

Aviation

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Theoretical research on hydraulic processes occurring in aircraft hydraulic drives is presented in the studies. Installation of angular fitting connections in aircraft pipeline systems influences hydrodynamic processes and fluid flow characteristics analysed in the research. The provided analysis is based on a validated numerical model utilizing Navier–Stokes equations and the k-epsilon turbulence model. Fluid flow inside the aircraft hydraulic drive pipeline system was investigated with flow rates up to 100 l/min. A mesh independence study was conducted for numerical simulation of the fluid flow. The obtained results include fluid pressure drops, energy losses, and operational delays associated with fluid flow vortex formations at 45° and 90° angular fitting connections. Additionally, compared results from standard methods of calculation for angular fitting connections, including the equivalent length and equivalent length same shape methods.

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“…Hydraulic systems, due to the possibility of ensuring high pressure, high rotation forces, and torques with high accuracy and low energy consumption, have numerous industrial applications, including robotics and manipulators [1,2], machine tools [3], active car suspension systems [4], hydraulic positioning systems [5,6], hydraulic load simulators [7], in aircraft, cranes and lathes [8], in construction machinery [9], and in automatic transmission of motor vehicles [10]. Electro-hydraulic servomechanisms are currently deemed state-of-the-art solutions for regulating primary flight control systems in civilian and military aircraft [11]. A hydraulic cylinder, owing to its structural simplicity, reliable operation, and high load capacity, is the primary actuator widely applied in hydraulic systems.…”

Section: Introductionmentioning

confidence: 99%

Modelling Internal Leakage in the Automatic Transmission Electro-Hydraulic Controller, Taking into Account Operating Conditions

Dziubak,

Szczepaniak

2023

Energies

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The basic malfunction of automatic transmissions (ATs) is oil flow through hydraulic precision pair clearances called an “internal leakage”, leading to difficulties in controlling the AT. There are no sufficiently accurate methods for assessing the impact of “internal leakage” on the AT technical condition in the course of operation. A proprietary hydraulic precision pair internal leak flow model has been proposed in the paper. The novelty of the model is applying electro-hydraulic controller precision pair clearance values as data that was determined through measurements involving an actual object with a specific AT operation period. The authors conduct variant tests of the model to determine the total AT hydraulic system controller leakage. Reduced oil viscosity (approx. 20%) results in internal leakage increasing by 25%. Significant wear of the controller’s precision pair and increased oil temperature (above 80 °C) lead to internal leakage increasing by more than 50% and oil pressure decreasing below the permissible value.

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A Case Study on the Detection and Prognosis of Internal Leakages in Electro-Hydraulic Flight Control Actuators

Cited by 11 publications

References 30 publications

Development of a High-Performance Low-Weight Hydraulic Damper for Active Vibration Control of the Main Rotor on Helicopters—Part 2: Preliminary Experimental Validation

Development of a High-Performance Low-Weight Hydraulic Damper for Active Vibration Control of the Main Rotor on Helicopters—Part 2: Preliminary Experimental Validation

Aircraft Hydraulic Drive Energy Losses and Operation Delay Associated With the Pipeline and Fitting Connections

Modelling Internal Leakage in the Automatic Transmission Electro-Hydraulic Controller, Taking into Account Operating Conditions

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