摩托车发动机电喷改造的理论与实验研究
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摘要
随着我国经济的不断发展,摩托车保有量急剧增加,随之带来的摩托车排放问题越来越严重。现有化油器摩托车大部分达不到国家最新颁布的摩托车排放标准。本文在对汽车发动机电喷系统原理进行分析研究的基础上,以国产125ml摩托车为主要研究对象,对原化油器摩托车进行了电喷改造,在分析研究摩托车发动机工作过程的基础上,创新性的建立了摩托车电喷系统的初始喷油MAP和点火MAP的数学模型,并进行了仿真,且与实际调试好的喷油和点火MAP图进行了对比,两者趋势相似,从而能对初始喷油量和初始点火时刻根据不同的工况进行各种修正,最终获得最优的控制量;对摩托车怠速采用了模糊控制,在控制怠速稳定性的同时改善了其怠速时的排放;最后,对改造后的新型电喷摩托车和原车进行了发动机台架试验和整车试验,结果表明,此电喷车在保持动力性和经济性的同时,排放得到了明显改善。
总之,初始喷油和点火MAP数学模型,能运用于各种型号的摩托车汽油发动机电喷改造,可大大缩短电喷系统开发的周期,采用怠速模糊控制使摩托车怠速转速不稳定得到了控制,此电喷摩托车满足了日益严格的排放标准,具有极其重要的应用价值。
The motorcycle's emission problems become more and more serious with the development of Chinese economy and the increase of motorcycle's quantity. Most of carburetor motorcycle can not reach the new emission control regulation. The paper designs the motorcycle's electronic fuel injection system. The mathematical model of the electronic fuel injection system basic fuel injection pulse-width MAP and ignition advance angle MAP is set up. At the same time, the simulating result is compared with the actual MAP. Besides, fuzzy control technology is used in motorcycle's idle speed control in order to control the idle instability and decrease the exhaust emission; Finally, engine bad experiments and motorcycle integer experiments are done. The results show that the new motorcycle is agreed with carburetor motorcycle in dynamic characteristic and fuel economic characteristic, but exhaust emission is decrease greatly.
In conclusion, the set up of initial MAP model can shorten the cycle of the electronic fuel injection system design. The instability of the engine idle-speed is controlled by using fuzzy control technology. The new motorcycle can achieve the strict emission law and is worthy of being spread.
总之,初始喷油和点火MAP数学模型,能运用于各种型号的摩托车汽油发动机电喷改造,可大大缩短电喷系统开发的周期,采用怠速模糊控制使摩托车怠速转速不稳定得到了控制,此电喷摩托车满足了日益严格的排放标准,具有极其重要的应用价值。
The motorcycle's emission problems become more and more serious with the development of Chinese economy and the increase of motorcycle's quantity. Most of carburetor motorcycle can not reach the new emission control regulation. The paper designs the motorcycle's electronic fuel injection system. The mathematical model of the electronic fuel injection system basic fuel injection pulse-width MAP and ignition advance angle MAP is set up. At the same time, the simulating result is compared with the actual MAP. Besides, fuzzy control technology is used in motorcycle's idle speed control in order to control the idle instability and decrease the exhaust emission; Finally, engine bad experiments and motorcycle integer experiments are done. The results show that the new motorcycle is agreed with carburetor motorcycle in dynamic characteristic and fuel economic characteristic, but exhaust emission is decrease greatly.
In conclusion, the set up of initial MAP model can shorten the cycle of the electronic fuel injection system design. The instability of the engine idle-speed is controlled by using fuzzy control technology. The new motorcycle can achieve the strict emission law and is worthy of being spread.
引文
[1] 聂君臣,杨涛.国内外摩托车基础技术综述.摩托车技术,2002,(8):20~21
[2] 胡春明.摩托车电喷系统的匹配技术及其丌发系统的研究.小型内燃机与摩托车,2002,(2):23~26
[3] Mohammad Metghalchi. Burning Velocities of Mixture of air with Methanol, Isooctane, and Indolene at High Pressure and Temperature. COMBUSTION and FIAME, 1982
[4] 胡春明.摩托车燃油喷射技术发展现状.摩托车技术,2002,(4):35~38
[5] 何渝生,余成波,龚培康等.汽车电子技术及控制系统.北京:北京国防工业出版社,1996
[6] 潘旭峰.现代汽车电子技术.北京:北京理工大学出版社,1997
[7] 皇甫鉴,范明强.现代汽车电子技术与装置.北京:北京理工大学出版社,1999
[8] 徐向阳.电控汽油喷射技术原理.黑龙江:黑龙江科学技术出版社.1997
[9] 陈庆平,夏钧.电控喷射技术在摩托车中的应用.浙江水利水电专科学校学报,2001,(2):45~48
[10] Elbert Hendricks, Spencer C. Sorenson. Mean Value Modelling Of Spark Ignition Engines.SAE,900616
[11] Jialin Yang,Richard W.Anderson.Fuel Injection Strategies to Increase Full-load Torque Output of a Direct-Injection SI Engine.SAE,980495
[12] 张志涌等.精通MATLAB5.3版.北京:北京航空航天出版社.2000
[13] 陈培陵,李则纯等.汽车发动机原理.北京:人民交通出版社.1998
[14] 李岳林,张雨,万力等.汽油机多区燃烧模型的建立及应用研究,内燃机工程,2002,(3):34~36
[15] 胡志越等.小型二冲程汽油机缸内工作过程模拟.小型内燃机,1999,(2):45~47
[16] 胡文俊,张付军,黄军.电控摩托车汽油机初始MAP图的仿真计算
和优化.北京理工大学,2002,(6):12~14
[17] Elbert Hendricks,Alain Chevalier, Michael Jensen. Modelling of the Intake Manifold Filling Dynamics,SAE,960037
[18] Domenic A. Santavicca, Deryuh Liou, Gary L. North. A Fractal Model of Turbulent Flame Kernel Growth,SAE,900024
[19] 蒋德明,夏来庆,袁大宏等.火花点火发动机的燃烧.西安:西安交通大学出版社,1992
[20] 欧阳黎明等.MATLAB控制系统设计.北京:国防工业出版社.2001
[21] Ault. A. Jones,VK. Powell. Adaptive air—fuel ratio control of a SI engine.SAE,940373
[22] 刘有才,刘增良等.模糊专家系统原理与设计.北京:北京航空航天出版社.1996
[23] 王耀南等.计算智能信息处理技术及其应用.长沙:湖南大学出版社,1999
[24] William E. Leisenring,Stephen Yurkovich.Comparative Analysis of Closed Loop AFR Control During Cold Start, Proceedings of the American Control Conference,1998 June
[25] Maurizio Abate,Norberto Dosio.Use of Fuzzy Logic for Engine Idle Speed Control,SAE,900594
[26] 程勇,王建昕,杨涛等.电控汽油机起动及暖机工况燃烧状况的分析统计,内燃机学报,2002,(1):24~26
[27] 朱访君,吴坚.内燃机工作过程数值计算及其优化.北京:国防工业出版社.1999
[28] Yoshihiro Nishimura, Katsuyuki ishii. Engine Idle Stability Analysis and control,SAE,880415
[29] Cliff Y Wu. Emission Control of Four-Stroke Motorcycle Engine, SAE, 951760
[30] 董弘等.摩托车排放污染控制技术综述.摩托车技术,2002,(2):10~14
[31] 韩以仑,张翠平,杨庆佛.基于专家的汽车发动机怠速控制的仿真实验研究.内燃机工程,2003,(1):26~28
[32] 潘胜军.CG125摩托车怠速控制的研究.浙江大学硕士论文.2002
[33] 黄英,赵经纬,张付军.125摩托车发动机电控燃汕喷射系统的开发研究.小型内燃机与摩托车,2003,(1):25~26
[34] Angelo S. Martinez, Mohammed Jamshidi. Design of Fuzzy Logic Based Engine Idle-speed Controllers, IEEE, 1993
[35] 魏胜峰,王绍光,张云龙等.计算机模拟技术在摩托~车发动机电控系统开发中的应用.内燃机工程,2002,(1):24~25
[36] 胡春明,王海铭,戴海涛.摩托车汽油机电喷系统怠速工况的优化匹配研究.小型内燃机与摩托车,2002,(3):23~26
[37] 李彬轩,何文华,吴锋.模糊控制在发动机怠速控制中应用的研究.小型内燃机,1998,(2):24~27
[38] 石山.摩托车排气污染与控制.机械丌发,2000,(1):25~27
[39] 王颂秦,刘欣.欧盟和台湾摩托车排放法规及降低排放技术对策.小型内燃机,2000,(1):9~10
[40] George Vachtsevanos, Shehu S. Farinwata. A Systematic Design Method for Fuzzy Logic Control With Application to Automotive Idle Speed Control, IEEE, 1992
[41] 吴锋,杨志家,潘胜军.利用旁通空气的摩托车发动机怠速控制系统研究.内燃机工程,2002,(5):17~19
[42] 赵光宙,杨志家.应用神经网络模糊控制器的发动机怠速控制.内燃机工程.2000,(1):40~43
[43] Lang. Rechnerische und experimentelle Optimierung am direkteinspritzenden Ottomotor. 7. Aachener Kolloquium Fahrzeug und Motorrentechnik, 1998
[44] Hendricks, E.L. Mean Value Modeling of Large Turbocharged Two-stoke Disel Engines, SAE, 890564
[45] Dobner, J.D. An Engine Model for Dynamic Control System Development. ASME, 1983
[2] 胡春明.摩托车电喷系统的匹配技术及其丌发系统的研究.小型内燃机与摩托车,2002,(2):23~26
[3] Mohammad Metghalchi. Burning Velocities of Mixture of air with Methanol, Isooctane, and Indolene at High Pressure and Temperature. COMBUSTION and FIAME, 1982
[4] 胡春明.摩托车燃油喷射技术发展现状.摩托车技术,2002,(4):35~38
[5] 何渝生,余成波,龚培康等.汽车电子技术及控制系统.北京:北京国防工业出版社,1996
[6] 潘旭峰.现代汽车电子技术.北京:北京理工大学出版社,1997
[7] 皇甫鉴,范明强.现代汽车电子技术与装置.北京:北京理工大学出版社,1999
[8] 徐向阳.电控汽油喷射技术原理.黑龙江:黑龙江科学技术出版社.1997
[9] 陈庆平,夏钧.电控喷射技术在摩托车中的应用.浙江水利水电专科学校学报,2001,(2):45~48
[10] Elbert Hendricks, Spencer C. Sorenson. Mean Value Modelling Of Spark Ignition Engines.SAE,900616
[11] Jialin Yang,Richard W.Anderson.Fuel Injection Strategies to Increase Full-load Torque Output of a Direct-Injection SI Engine.SAE,980495
[12] 张志涌等.精通MATLAB5.3版.北京:北京航空航天出版社.2000
[13] 陈培陵,李则纯等.汽车发动机原理.北京:人民交通出版社.1998
[14] 李岳林,张雨,万力等.汽油机多区燃烧模型的建立及应用研究,内燃机工程,2002,(3):34~36
[15] 胡志越等.小型二冲程汽油机缸内工作过程模拟.小型内燃机,1999,(2):45~47
[16] 胡文俊,张付军,黄军.电控摩托车汽油机初始MAP图的仿真计算
和优化.北京理工大学,2002,(6):12~14
[17] Elbert Hendricks,Alain Chevalier, Michael Jensen. Modelling of the Intake Manifold Filling Dynamics,SAE,960037
[18] Domenic A. Santavicca, Deryuh Liou, Gary L. North. A Fractal Model of Turbulent Flame Kernel Growth,SAE,900024
[19] 蒋德明,夏来庆,袁大宏等.火花点火发动机的燃烧.西安:西安交通大学出版社,1992
[20] 欧阳黎明等.MATLAB控制系统设计.北京:国防工业出版社.2001
[21] Ault. A. Jones,VK. Powell. Adaptive air—fuel ratio control of a SI engine.SAE,940373
[22] 刘有才,刘增良等.模糊专家系统原理与设计.北京:北京航空航天出版社.1996
[23] 王耀南等.计算智能信息处理技术及其应用.长沙:湖南大学出版社,1999
[24] William E. Leisenring,Stephen Yurkovich.Comparative Analysis of Closed Loop AFR Control During Cold Start, Proceedings of the American Control Conference,1998 June
[25] Maurizio Abate,Norberto Dosio.Use of Fuzzy Logic for Engine Idle Speed Control,SAE,900594
[26] 程勇,王建昕,杨涛等.电控汽油机起动及暖机工况燃烧状况的分析统计,内燃机学报,2002,(1):24~26
[27] 朱访君,吴坚.内燃机工作过程数值计算及其优化.北京:国防工业出版社.1999
[28] Yoshihiro Nishimura, Katsuyuki ishii. Engine Idle Stability Analysis and control,SAE,880415
[29] Cliff Y Wu. Emission Control of Four-Stroke Motorcycle Engine, SAE, 951760
[30] 董弘等.摩托车排放污染控制技术综述.摩托车技术,2002,(2):10~14
[31] 韩以仑,张翠平,杨庆佛.基于专家的汽车发动机怠速控制的仿真实验研究.内燃机工程,2003,(1):26~28
[32] 潘胜军.CG125摩托车怠速控制的研究.浙江大学硕士论文.2002
[33] 黄英,赵经纬,张付军.125摩托车发动机电控燃汕喷射系统的开发研究.小型内燃机与摩托车,2003,(1):25~26
[34] Angelo S. Martinez, Mohammed Jamshidi. Design of Fuzzy Logic Based Engine Idle-speed Controllers, IEEE, 1993
[35] 魏胜峰,王绍光,张云龙等.计算机模拟技术在摩托~车发动机电控系统开发中的应用.内燃机工程,2002,(1):24~25
[36] 胡春明,王海铭,戴海涛.摩托车汽油机电喷系统怠速工况的优化匹配研究.小型内燃机与摩托车,2002,(3):23~26
[37] 李彬轩,何文华,吴锋.模糊控制在发动机怠速控制中应用的研究.小型内燃机,1998,(2):24~27
[38] 石山.摩托车排气污染与控制.机械丌发,2000,(1):25~27
[39] 王颂秦,刘欣.欧盟和台湾摩托车排放法规及降低排放技术对策.小型内燃机,2000,(1):9~10
[40] George Vachtsevanos, Shehu S. Farinwata. A Systematic Design Method for Fuzzy Logic Control With Application to Automotive Idle Speed Control, IEEE, 1992
[41] 吴锋,杨志家,潘胜军.利用旁通空气的摩托车发动机怠速控制系统研究.内燃机工程,2002,(5):17~19
[42] 赵光宙,杨志家.应用神经网络模糊控制器的发动机怠速控制.内燃机工程.2000,(1):40~43
[43] Lang. Rechnerische und experimentelle Optimierung am direkteinspritzenden Ottomotor. 7. Aachener Kolloquium Fahrzeug und Motorrentechnik, 1998
[44] Hendricks, E.L. Mean Value Modeling of Large Turbocharged Two-stoke Disel Engines, SAE, 890564
[45] Dobner, J.D. An Engine Model for Dynamic Control System Development. ASME, 1983