Abstract
Power output is one of the main working parameters of a diesel engine, which not only reflects its dynamic performance but also acts as an important indicator of its operating state. At present, diesel engine power monitoring mainly depends on dynamometers, but most engines cannot be so equipped during operation. In addition, other techniques, such as in-cylinder pressure measurements used to gauge power output are invasive and have higher requirements for sealing and reliability. Therefore, it is important to study other means for achieving real-time monitoring of engine power that do not damage the engine. In this paper, we use the vibration acceleration of the combustion phase in the angle domain as the original signal to identify the output power. However, the signal contains many interference signals and must be pre-processed by purification techniques such as filtering, de-noising and empirical mode decomposition. Finally, the automatic identification of the power of a diesel engine is realized by means of inductive monitoring system algorithms. The test results show that the recognition accuracy under the five different working loads ranges between 83% and 95%, which demonstrates the effectiveness of the proposed method.
Highlights
The diesel engine is widely used in ship propulsion and power systems, playing an important role in these fields
This shows that when the power output is 0, the characteristic values distribution of the diesel cylinders’ vibration data are more
A novel method for identifying the output power of diesel engines based on vibration signals is proposed
Summary
The diesel engine is widely used in ship propulsion and power systems, playing an important role in these fields. Condition assessment and fault diagnosis (CAFD) of diesel engines has been a research topic of interest for many years. Power output, one of the most important indicators for CAFD, is still unable to be measured in the practical applications of diesel engines. Output power is usually measured through a dynamometer, which is large and expensive. In-cylinder pressure measurement, which can be used for the indirect gauging of output power, is a destructive method with high cost and low durability. It is of interest to study other methods for diesel engine power measurement that are easy to use and do not cause damage
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