Predictive maintenance of a reducer with contaminated oil under an excentrical load through vibration and oil analysis

Gonçalves, Aparecido Carlos; Silva, João Batista Campos

doi:10.1590/s1678-58782011000100001

Cited by 10 publications

(5 citation statements)

References 2 publications

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“…Gear condition can be monitored through process parameter measurement [27], vibratory [28,29], thermal [30], acoustic [31] and oil-based analysis [32]. Out of these, the use of vibrating signals in gear fault diagnosis has seen a surge in popularity due to its direct mensuration and rich systemcritical content [33].…”

Section: Vibration In Rotating Machinery With Gearmentioning

confidence: 99%

Efficient gear fault feature selection based on moth-flame optimisation in discrete wavelet packet analysis domain

Ong

Tieh

Lai

et al. 2019

J Braz. Soc. Mech. Sci. Eng.

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Rotating machinery-a crucial component in modern industry, requires vigilant monitoring such that any potential malfunction of its electromechanical systems can be detected prior to a fatal breakdown. However, identifying faulty signals from a defective rotating machinery is challenging due to complex dynamical behaviour. Therefore, the search for features which best describe the characteristic of different fault conditions is often crucial for condition monitoring of rotating machinery. For this purpose, this study used the intensification and diversification properties of the recently proposed moth-flame optimisation (MFO) algorithm and utilised the algorithm in the proposed feature selection scheme. The proposed method consisted of three parts. First, the vibration signals of gear with different fault conditions were decomposed by a fourth-level discrete wavelet packet transform, and the statistical features at all constructed nodes were derived. Second, the MFO algorithm was utilised to select the optimal discriminative features. Lastly, the MFO-selected features were used as the input for a support vector machine (SVM) diagnostic model to identify fault patterns. To further demonstrate the superiority of the proposed method, other feature selection approaches were applied, including randomly selected features and complete features, and other diagnostic models, namely the multilayer perceptron neural network and k-nearest neighbour. Comparative experiments demonstrated that SVM with the MFO-selected features outperformed the others, with the classification accuracy of 99.60%, thus validating its effectiveness.

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Section: Vibration In Rotating Machinery With Gearmentioning

confidence: 99%

Efficient gear fault feature selection based on moth-flame optimisation in discrete wavelet packet analysis domain

Ong

Tieh

Lai

et al. 2019

J Braz. Soc. Mech. Sci. Eng.

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show abstract

“…OA has three main purposes [61]: (i) to monitor the lubricant; condition and reveal whether the system fluid is healthy and fit for further service or requires a change; (ii) to ensure the oil quality (e.g., contamination by parts, moisture); and (iii) to safeguard the components involved (part characterization). Six main tests are generally employed in the OA process: [57,[63][64][65] OA techniques can be divided into two categories: real-time continuous monitoring and offline oil sample analysis [66]. These processes are typically executed off line by taking samples.…”

Section: Oamentioning

confidence: 99%

Land Cover and Topography Affect the Land Transformation Caused by Wind Facilities

2015

Wind Resources and Future Energy Security

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Abstract:As the demand for wind energy continues to grow at exponential rates, reducing operation and maintenance (OM) costs and improving reliability have become top priorities in wind turbine (WT) maintenance strategies. In addition to the development of more highly evolved WT designs intended to improve availability, the application of reliable and cost-effective condition-monitoring (CM) techniques offers an efficient approach to achieve this goal. This paper provides a general review and classification of wind turbine condition monitoring (WTCM) methods and techniques with a focus on trends and future challenges. After highlighting the relevant CM, diagnosis, and maintenance analysis, this work outlines the relationship between these concepts and related theories, and examines new trends and future challenges in the WTCM industry. Interesting insights from this research are used to point out strengths and weaknesses in today's WTCM industry and define research priorities needed for the industry to meet the challenges in wind industry technological evolution and market growth.

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“…The method ASTM D445 is used for identification of viscosity, the method ASTM D 974 or D 664 is to determine the total number of acids and ASTM D 1744 to determine the water concentration by titration ( Gonçalves, Padovese, 2010). In cases where the water is at levels above 0.05 vol.%, infrared spectrography can be used.…”

Section: Physical Testsmentioning

confidence: 99%

“…This counting informs the number of particles larger than a given size found in a specified volume of fluid. For the counting of particles the standard SAE AS 4059, NAS 1638 (National Aerospace Agency), or ISO can be used (Gonçalves and Padovese, 2010). The ISO 4406 norm (International Standard Organization) is the most widely used.…”

Section: Particle Countmentioning

confidence: 99%

Maintenance of Reducers with an Unbalanced Load Through Vibration and Oil Analysis Predictive Techniques

Gonçalves¹,

Lago²,

Albuquerque³

2011

Recent Advances in Vibrations Analysis

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Predictive maintenance of a reducer with contaminated oil under an excentrical load through vibration and oil analysis

Cited by 10 publications

References 2 publications

Efficient gear fault feature selection based on moth-flame optimisation in discrete wavelet packet analysis domain

Efficient gear fault feature selection based on moth-flame optimisation in discrete wavelet packet analysis domain

Land Cover and Topography Affect the Land Transformation Caused by Wind Facilities

Maintenance of Reducers with an Unbalanced Load Through Vibration and Oil Analysis Predictive Techniques

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