Abstract
Internal combustion engine noise sources are complex and changeable. Combustion noise is usually drowned out by mechanical noise and aerodynamic noise. Traditional noise source identification methods can only qualitatively identify combustion noise. In order to quantitatively obtain the independent pure combustion noise of an internal combustion engine, it is necessary to design and build a separate noise source simulation test bench. In this paper, the combustion noise separation test bench based on transfer function method is designed and implemented. In the test, a pressure pulse device is installed in the combustion chamber. When the piston is at top dead center (TDC), pulse pressure is generated to excite the internal combustion engine to radiate noise. The pressure signal and noise signal are utilized to obtain the transfer function of combustion pressure and noise. Then, according to the cylinder pressure and transfer function, the combustion noise can be directly calculated. The test was carried out on 4120SG diesel engine. Experimental results show that when the internal combustion engine is under 1500 rpm and no-load condition and 800 rpm and no-load condition, the frequency components of independent pure combustion noise are both mainly concentrated at 1100 Hz, 1400 Hz, and 3000 Hz. Furthermore, the internal combustion engine vibration test method and the combustion noise empirical formula calculation method are both carried out to show accuracy and effectiveness of the obtained independent combustion noise through the combustion noise separation test based on transfer function method.
Highlights
Internal Combustion Engine Test PlatformEn, the internal combustion engine body structure combustion noise transfer function H(f) can be calculated
Internal combustion engine noise sources are complex and changeable
Before formulating the noise reduction plan for internal combustion engine, the first step is to analyse the acoustic characteristic information of independent noise sources. e noise source identification method of internal combustion engine can be divided into the traditional noise source identification method, the noise source identification method based on acoustic array technology, and the noise source identification method based on modern signal processing technology
Summary
En, the internal combustion engine body structure combustion noise transfer function H(f) can be calculated It is defined as follows: H(f) PYF(f). E traditional battery ignition system contains power supply, ignition switch, ignition coil, distributor, and spark plug In this test, because the internal combustion engine is in a shutdown state, the ignition system does not need to achieve the automatic ignition and continuous ignition. Because the internal combustion engine is in a shutdown state, the ignition system does not need to achieve the automatic ignition and continuous ignition It is mainly requires the power supply, ignition coil, and injectorshaped spark plug. E right microphone corresponds to the internal combustion engine vice slap side, named as the vice slap side microphone, and the measured radiation pulse noise is named as the vice slap side sound pressure. The evaporated no. 97 gasoline is utilized as the combustible. e high concentration oxygen is employed as the oxidizing agent. e ignition system is used to ignite the combustible mixture
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