Transient engine cylinder charge model on crank-angle domain

被引:0
|
作者
Hu, Jing [1 ,2 ]
Xiao, Bing [1 ]
Luo, Fei [1 ]
机构
[1] South China Univ Technol, Coll Automat Sci & Engn, Guangzhou 510640, Peoples R China
[2] Guangzhou Maritime Coll, Guangzhou 510725, Guangdong, Peoples R China
来源
WCICA 2006: SIXTH WORLD CONGRESS ON INTELLIGENT CONTROL AND AUTOMATION, VOLS 1-12, CONFERENCE PROCEEDINGS | 2006年
关键词
crank-angle domain; amendatory coefficient; cylinder charge; model;
D O I
暂无
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
The engine model development is the core and basis of engine control system. This paper presents a transient cylinder charge model for engine based on crank-angle domain. An apparent expression of the amendatory coefficient k, which is used to estimates the transient cylinder charge m., is given. It is also concluded that the k is decided by values of (P-ms-P-m) and (m(as)-m(a)), P-ms and P-m is steady and transient intake manifold pressure respectively, m. is steady cylinder charge. Results of experiments denote that the model can estimate transient changes of the cylinder charge accurately, and the precision can satisfy the request of real requirements.
引用
收藏
页码:4761 / +
页数:2
相关论文
共 50 条
  • [31] Cylinder air rate prediction during engine start and crank-to-run transition
    Ma, Qi
    Yurkovich, Stephen
    Dudek, Kenneth P.
    2007 AMERICAN CONTROL CONFERENCE, VOLS 1-13, 2007, : 421 - +
  • [32] A STUDY OF CYLINDER-TO-CYLINDER DISTRIBUTION OF CHARGE IN A 6 CYLINDER SPARK-IGNITION ENGINE
    WOODS, WA
    SAG, OK
    JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER-TRANSACTIONS OF THE ASME, 1988, 110 (03): : 470 - 474
  • [33] A generic, transient model of a turbocharged, multi-cylinder, common-rail diesel engine
    Ceausu, Radu
    Taraza, Dinu
    Henein, Naeim A.
    Bryzik, Walter
    PROCEEDINGS OF THE 2005 SPRING TECHNICAL CONFERENCE OF THE ASME INTERNAL COMBUSTION ENGINE DIVISION, 2005, : 375 - 386
  • [34] DYNAMIC ANALYSIS OF THE CRANK TRAIN IN A SINGLE CYLINDER DIESEL ENGINE USING A LUMPED PARAMETER METHOD
    Zhang, X. Y.
    Guo, J.
    Zhang Wenping
    PROCEEDINGS OF THE ASME INTERNAL COMBUSTION ENGINE FALL TECHNICAL CONFERENCE, 2016, 2016,
  • [35] Crank Train Concept Design of an In-Line Two-Cylinder Range Extender Engine
    Drapal, L.
    Voparil, J.
    TRANSPORT MEANS 2018, PTS I-III, 2018, : 978 - 982
  • [36] Engine cylinder pressure reconstruction using crank kinematics and recurrently-trained neural networks
    Bennett, C.
    Dunne, J. F.
    Trimby, S.
    Richardson, D.
    MECHANICAL SYSTEMS AND SIGNAL PROCESSING, 2017, 85 : 126 - 145
  • [37] Virtual Multi-Cylinder Engine Transient Test System
    Moskwa, John J.
    Mangun, Derek A.
    Lemke, Austin R.
    Lahti, John L.
    Snyder, Matthew W.
    Klick, Stephen J.
    SAE INTERNATIONAL JOURNAL OF FUELS AND LUBRICANTS, 2009, 2 (02) : 346 - 353
  • [38] Numerical evaluation of the quality of filling the engine cylinder with a fresh charge
    Zholobov, L. A.
    Medvedev, A., V
    Pasin, A., V
    Novozhilov, A., I
    II INTERNATIONAL SCIENTIFIC CONFERENCE ON APPLIED PHYSICS, INFORMATION TECHNOLOGIES AND ENGINEERING 25, PTS 1-5, 2020, 1679
  • [39] KINEMATICS AND KINETIC ANALYSIS OF THE SLIDER-CRANK MECHANISM IN OTTO LINEAR FOUR CYLINDER SAMAND ENGINE
    Mohammadi, Masoud
    Asadil, Mohammad Reza
    Ranjbarkohani, Mohammd
    Moharrampour, Mahdi
    4TH INTERNATIONAL CONFERENCE ON ADVANCED COMPUTER THEORY AND ENGINEERING ( ICACTE 2011), 2011, : 39 - 41
  • [40] Crank train multi-body dynamic and finite element analyses for one-cylinder engine
    Wang, Yong
    Wang, Jing
    INFORMATION TECHNOLOGY AND COMPUTER APPLICATION ENGINEERING, 2014, : 109 - 112
12345