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Study on Online Identification Method of Injection Time Characteristics for the High Pressure Diesel-Natural Gas Co-direct Injection Engine

Journal Article
03-16-05-0035
ISSN: 1946-3936, e-ISSN: 1946-3944
Published October 31, 2022 by SAE International in United States
Study on Online Identification Method of Injection Time
                    Characteristics for the High Pressure Diesel-Natural Gas Co-direct Injection
                    Engine
Sector:
Citation: Wei, D., Dong, Q., Yang, X., Wang, X. et al., "Study on Online Identification Method of Injection Time Characteristics for the High Pressure Diesel-Natural Gas Co-direct Injection Engine," SAE Int. J. Engines 16(5):589-604, 2023, https://doi.org/10.4271/03-16-05-0035.
Language: English

Abstract:

The complex hydropneumatic electromagnetic coupling structure of the dual-fuel injector leads to its complicated injection process. The unknown problem of fuel injection characteristics limits the injector design and optimization process of combustion efficiency. Therefore, the scientific study of dual-fuel injection mechanism and online identification method is the key to grasping the diesel-gas coupled injection mechanism, and an important theoretical basis for advanced closed-loop control.
In this study, an identification method for the time characteristics of the dual-fuel injector injection process is based on the injector inlet pressure, which can be applied to the diesel-natural gas co-direct injection engine. First, the cause and transfer process of diesel injection pressure waves were analyzed based on the Riemann invariant theory. In addition, the identification method of diesel injection time characteristics is proposed by combining the characteristics of the derivative diesel pressure signal and the pressure wave of an expansion wave transmitted from the injector to the diesel rail (W 2) and a compression wave transmitted from the injector to the diesel rail (W 4), which are caused by the upstroke and downstroke process of the needle valve. Second, the gas injection time characteristics are highlighted on the frequency domain by the short-time Fourier transform (STFT), and the gas injection time characteristics are located in the time domain. To adapt to the processing capacity of the engine electronic control unit (ECU), the mean instantaneous frequency (MIF) is used as the representative frequency to reduce the signal dimension. Based on the MIF signal, the time characteristics can be identified according to the zero and local maximum. Finally, the identification method is validated by a multi-function measurement system. The results show that the error of identification method of diesel injection time characteristics is 0.02 ms and, for the gas injection process, is 0.015 ms. Therefore, the method can identify the time characteristics of the dual-fuel injection process, and the accuracy is pretty good.