Abstract
Hydraulic cylinders are used in a wide range of applications such as oil drilling equipment, construction vehicles and manufacturing machines. Seal failure is one of the primitive causes of failure in hydraulic cylinders, possibly leading to fluid spill, unscheduled maintenance, reduced availability and thus leading to lower productivity. Regular visual inspection of seals without affecting the productivity is difficult as the seals are placed internally in the hydraulic cylinder requiring disassembly of the piston. Therefore, condition monitoring is required to assess the current health of the seals. There have been successful attempts made in literature for the assessment of seal quality using acoustic emission-based condition monitoring. However, there have been very few studies performed to diagnose the seal failure under varying speed and pressure parameters. Therefore, this study aims at increasing the understanding of seal failure under varying speed and pressure conditions through correlation with the acoustic emission signal. Experiments were performed on a hydraulic test rig using unworn, semi-worn and worn piston rod seals. For each seal wear condition, experiments were performed for five strokes at pressure conditions of 10, 20, 30 and 40 bar and speeds of 50 mm/s and 100 mm/s. Continuous acoustic emission data were acquired during all the tests. The acoustic emission signal of each piston rod stroke was analyzed using different acoustic emission features such as power spectral density, root mean square, peak, mean frequency, median frequency and band power. From the acoustic emission analysis, by using power spectral density, mean frequency and median frequency feature it is possible to identify and segregate unworn seal, leakage due to semi-worn seal and leakage due to worn seal in the test rig. The acoustic emission-based condition monitoring methodology developed in this study lays a strong foundation for further research to develop real-time monitoring of the piston rod seal in hydraulic cylinders that are used in the offshore industry.
Highlights
Hydraulic cylinders are widely used in offshore oil and gas (O&G) industry for different applications such as material handling, clamping systems and heave compensation
To identify the acoustic emission (AE) signal related to the piston rod seal wear at 50 mm/s and 100 mm/s, bandpass filtering is performed
This study investigated the AE features that can be used to detect piston rod seal wear at different pressure and speed conditions in a hydraulic test rig
Summary
Hydraulic cylinders are widely used in offshore oil and gas (O&G) industry for different applications such as material handling, clamping systems and heave compensation. Condition monitoring of hydraulic cylinders is gaining importance in the O&G industry to prevent the failure of any critical part as to minimize unscheduled maintenance. One of the primitive causes of failure in hydraulic cylinders is fluid leakage due to piston rod seal wear. Leakage in hydraulic cylinders can result in lack of force, variation in speed or instability in the system (Zhao et al 2015). Detection of the very initial stage of piston rod seal wear by the visual inspection method is difficult due to concealment of the piston rod seal in the cylinder (An et al, 2005 & Zhao et al, 2015). It is important to detect the piston rod seal wear using sensor-based condition monitoring methods that allow active monitoring of the wear-state of the piston rod seal, and preventing fluid leakage
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
