论文信息 - Adaptive prediction of intake manifold absolute pressure for a coal-bed gas engine

Adaptive prediction of intake manifold absolute pressure for a coal-bed gas engine

In order to correctly calculate the engine cylinder charges for determining fueling, a precise real-time estimation of the engine intake manifold absolute pressure is required for speed-density methods. With the nonlinear time-varying characteristics of the engine intake manifold system, an intake manifold adaptive model is constructed and an adaptive identifier based on the recursive identification algorithm is used to estimate intake manifold pressure during different engine operating conditions. For comparison, two recursive identification methods, Kalman Filter algorithm and Forgetting Factor algorithm are adopted. Subsequently, the predictor based on the parameters estimations is used for real-time prediction of the manifold pressure before sensor measurements. According to the manifold pressure state equation, the manifold pressure is treated as a bivariant function of throttle valve angle and engine speed, so a linear structure of equation error model is selected. Based on experiment data on engine test bench, the adaptive prediction results by recursive algorithms are compared with the estimates from conventional IIR Filter. The result shows that both of the recursive adaptation algorithms can be used for real-time prediction of manifold pressure of the coal-bed gas engine during different engine operating conditions.

[1] Marco Sorrentino,et al. Development and Real-Time Implementation of Recurrent Neural Networks for AFR Prediction and Control , 2008 .

[2] Dingli Yu,et al. Adaptive RBF network for parameter estimation and stable air-fuel ratio control , 2008, Neural Networks.

[3] Bo-Chiuan Chen,et al. A Study of the Characteristics of Fuel-Film Dynamics for Four-Stroke Small-Scale Spark-Ignition Engines , 2009 .

[4] Elbert Hendricks,et al. Modelling of the Intake Manifold Filling Dynamics , 1996 .

[5] Elbert Hendricks,et al. Avoiding Signal Aliasing in Event Based Engine Control , 2000 .

[6] Gianfranco Rizzo,et al. An adaptive estimator of fuel film dynamics in the intake port of a spark ignition engine , 2003 .

[7] Yoshihisa Iwaki,et al. Secondary O2 Feedback Using Prediction and Identification Type Sliding Mode Control , 2000 .

[8] Yucai Zhu,et al. Multivariable System Identification For Process Control , 2001 .

[9] H. Bischof,et al. A New Approach to Functional and Software Structure for Engine Management Systems - BOSCH ME7 , 1998 .

[10] Bo-Chiuan Chen,et al. ADAPTIVE IDLE SPEED CONTROL FOR SPARK-IGNITION ENGINES , 2007 .

[11] Elbert Hendricks,et al. Predicting the Port Air Mass Flow of SI Engines in Air/Fuel Ratio Control Applications , 2000 .