小型LPG单一燃料发动机的试验研究
摘要
随着石油资源的不断开发以及对环境保护的要求,代用燃料发动机越来越受到人们的重视,其发展也越来越迅速。代用燃料的研究已成为发动机领域的重要研究方向。为了充分利用液化石油气(LPG)和天然气(NG)资源,保护环境,国家和地方政府制定了一系列政策鼓励开发燃气汽车,推进其产业化。因此,进行气体燃料发动机燃烧过程的基础理论研究和试验研究、开发低排放的燃气发动机是一项十分紧迫而有意义的课题。本文开展了基于小缸径柴油机的液化石油气(LPG)单一燃料发动机的设计和全面的试验研究工作。
本文主要有两方面内容。
其一,将一台2100柴油机改造成为缸内直接点火式LPG单一燃料发动机,并进行了一系列的台架试验研究。
其二,针对液化石油气燃烧速度低,为改善其动力性、经济性、排放特性和提高功率,有必要提高液化石油气的燃烧速度。为此,设计了一种结构简单、改装方便的预燃烧系统,将小型柴油机改进设计为独具特色的预燃式LPG发动机,并进行了一系列台架试验。试验表明,该燃烧系统可大大加快燃烧速度,提高燃烧效率,有较好的动力性和排放特性,具有实用推广价值。
对预燃式和缸内直接点火两种改装方案的试验结果进行了系统的性能对比分析,着重讨论了预燃室喷嘴直径和气道性能对发动机的影响。通过试验数据分析,得出一些对火花点火液化石油气发动机设计和应用具有指导意义的结论。
The investigations on alternative fuels have become an important direction of engine technique. The central and local governments have worked out a series of policies for developing gas fuel vehicles and promoting its industrialization, in order to protect environment and fully use LPG and NG resources. Therefore, the basal and theory researches on combustion and development of gas engine with low exhaust emission are very pressing and significant. The design of LPG (liquefied petroleum gas) mono-fuel engine based on small bore diesel engine and comprehensive experimental investigations were made first in our country.
This paper has two main contents.
First, This paper carried on the transformation to one 2100 diesel engine, made it become a LPG mono-fuel SI dedicated engine,and carried on a series of experiments.
Second, In order to improve its power, economy and emission, it is necessary to improve burning speed of LPG contraposing its low burning speed. For this reason, designed one structure simple, refit conveniently pre-combustion system, and a small-scale diesel engine was improved and designed into a pre-combustion LPG engine, having unique characteristic. Experiments indicate that this burning system can accelerate speed of burning greatly, raise combustion efficiency and have better power and emission characteristic. There is practical value of popularizing.
Systematic engine performance contrast analyzing was carried out based on the two refit schemes’ results. And the impact on the engine of the spray nozzle’s diameter and of the port performance was discussed emphatically. Through analyzing the test data, drew out some directive and significant conclusion for SI LPG engine’s design and application.
本文主要有两方面内容。
其一,将一台2100柴油机改造成为缸内直接点火式LPG单一燃料发动机,并进行了一系列的台架试验研究。
其二,针对液化石油气燃烧速度低,为改善其动力性、经济性、排放特性和提高功率,有必要提高液化石油气的燃烧速度。为此,设计了一种结构简单、改装方便的预燃烧系统,将小型柴油机改进设计为独具特色的预燃式LPG发动机,并进行了一系列台架试验。试验表明,该燃烧系统可大大加快燃烧速度,提高燃烧效率,有较好的动力性和排放特性,具有实用推广价值。
对预燃式和缸内直接点火两种改装方案的试验结果进行了系统的性能对比分析,着重讨论了预燃室喷嘴直径和气道性能对发动机的影响。通过试验数据分析,得出一些对火花点火液化石油气发动机设计和应用具有指导意义的结论。
The investigations on alternative fuels have become an important direction of engine technique. The central and local governments have worked out a series of policies for developing gas fuel vehicles and promoting its industrialization, in order to protect environment and fully use LPG and NG resources. Therefore, the basal and theory researches on combustion and development of gas engine with low exhaust emission are very pressing and significant. The design of LPG (liquefied petroleum gas) mono-fuel engine based on small bore diesel engine and comprehensive experimental investigations were made first in our country.
This paper has two main contents.
First, This paper carried on the transformation to one 2100 diesel engine, made it become a LPG mono-fuel SI dedicated engine,and carried on a series of experiments.
Second, In order to improve its power, economy and emission, it is necessary to improve burning speed of LPG contraposing its low burning speed. For this reason, designed one structure simple, refit conveniently pre-combustion system, and a small-scale diesel engine was improved and designed into a pre-combustion LPG engine, having unique characteristic. Experiments indicate that this burning system can accelerate speed of burning greatly, raise combustion efficiency and have better power and emission characteristic. There is practical value of popularizing.
Systematic engine performance contrast analyzing was carried out based on the two refit schemes’ results. And the impact on the engine of the spray nozzle’s diameter and of the port performance was discussed emphatically. Through analyzing the test data, drew out some directive and significant conclusion for SI LPG engine’s design and application.
引文
[1] Bata, et al. Natural Gas: A Promising Fuel for the I.C Engine. SAE930929, 1993
[2] M. Van der Steen. Gaseous Fuels: Past Experiences and Future Expectations. TNO-paper VM9608, 1996
[3] John T.Kubesh, Daniel J. Podnar. Ultra Low Emissions and High Efficiency form an On Highway Natural Gas Engine. SAE981394, 1998
[4] Rajeana Gable, et al. The Cleaner Choice Natural Gas as a Substitute for Diesel. GRI-99/0261, Dec.1999
[5] Nigel N.Clark, et al. Emissions from Truck and Buses Powered by Cummins L-10 Natural Gas Engines. SAE981393, 1998
[6] 原山直也等. 中型卡车燃料喷射式稀薄燃烧LPG发动机的开发. 国外内燃机,2001.5
[7] 张于心等.我国清洁汽车发展战略的探讨.北方交通大学学报,2001(2):93~97
[8] 邹利.国外天然气汽车发展状况.汽车研究与开发,1999,4:8-11
[9] 田莉. 2001年我国清洁汽车开发利用情况综述. 汽车研究与开发,2002(4):16~20
[10] 董俊武,于浩.我国清洁能源汽车战略研究.世界汽车,2001,2:1-3
[11] 吕剑飞,许忠厚,马凡华.天然气发动机工作方式选择分析.车用发动机,2001,2:6-8
[12] 许世海,邱瑞波.天然气汽车使用中存在的问题及对策.汽车技术,2001,1:34-36
[13] 林志强. 天然气准均质充量压燃着火(QHCCI)燃烧过程的研究. 天津大学研究生毕业论文,2001
[14] 魏 鹏等. LPG的气质特性及在发动机中的着火方式.内燃机,2002(6):36~39
[15] 范曙睿. 填埋气发动机的实验研究[D]. 大连理工大学硕士论文,2001
[16] Nakarono T. The development of high speed and high performance prechamber lean burn gas engine, 19th CDMAC D41,1991:1~16
[17] 赵奎翰,曲延涛,魏克宁等.2190T天然气发动机进气和燃烧系统的改进研究.内燃机学报,1999,2:99-102
[18] 严兆大等. 工程车燃用LPG对动力性和排放的影响[J]. 内燃机工程,2001(2):2~4
[19] 赵奎翰等,火花点火式天然气发动机燃烧系统的研究[J]. 内燃机学报,1998(1):1~8
[20] P.Corbo, et al. Comparison between Lean-Burn and Stoichiometric Technologies for CNG Heavy-Duty Engines. SAE 950057,1995
[21] S. Subramanian, et al. Treatment of Natural Gas Vehicle Exhaust. SAE 930223, 1993
[22] Steven R. King. The Impact of Natural Gas Composition on Fuel Metering and Engine Operational Characteristics. SAE 920593,1992
[23] Vilmar Aesoy, et al. The Influence of Natural Gas Composition on Ignition in a Direct Injection Gas Engine Using Hot Surface Assisted Compression Ignition. SAE 961934,1996
[24] 颜祥.超低排放的天然气发动机.汽车与技术,2001,5:12-14
[25] 中川洋,森俊一,石田泰彦.高性能稀气燃烧气体发动机的研究开发.国外内燃机,1998,5:11-15
[26] 王秉刚,张红卫.发展天然气汽车是解决能源和环境保护问题的战略性措施.世界汽车,1997,12:1-3
[27] 刘凯. 电控柴油/CNG双燃料发动机和LPG单一燃料发动机的研究与开发. 天津大学研究生毕业论文,2002.2
[28] 郝利君,张付军,黄英等.多点顺序喷射天然气发动机的开发.内燃机学报,2001,4:333-336
[29] Takagaki S S,Rain R R.火花点火式天然气发动机中压缩比对NOx和HC排放的影响,2001,2:21-24
[30] 陈勇,袁成祥,陈泽智等.点火位置和点火提前角对沼气发动机性能的影响.小型内燃机,1997,3:24-26
[31] 孙济美,方祖华,许建华等.压缩天然气和液化石油气发动机电控喷气技术及燃烧特性研究.世界汽车,1997,12:28-31
[32] 张付军,郝利君,黄英等.电控顺序喷射天然气专用发动机的开发.汽车工程,2000,5:338-341
[33] 孙济美.天然气和液化石油气汽车.北京:北京理工大学出版社,1999
[34] 冯幸福,吴同起.燃气汽车及加气站技术.北京:电子工业出版社,2001.2
[35] Foster, et al. Compression Ignited Homogeneous Charge Combustion Engine. SAE 830246, 1983
[36] Chen, Zhili; Konno, Mitsuru; Goto, Shinichi.Study on homogenous premixed charge CI engine fueled with LPG.JSAE Review Volume: 22, Issue: 3, July, 2001, pp. 265-270
[37] 许忠厚,黄振洲,马凡华.LPG/汽油两用燃料发动机NOx排放规律的实验研究.天然气汽车,1999,4:19-23
[38] Kato, Takeshi; Saeki, Kiyoaki; Nishide, Hiroto; Yamada, Takashi.Development of CNG fueled engine with lean burn for small size commercial van.JSAE Review Volume: 22, Issue: 3, July, 2001, pp. 365-368
[39] Goto, S.; Furutani, H.; Kida, K.; Watanabe, K.LPG Fueled Diesel Engine.JSAE CONVENTION PROCEEDINGS; 1992; ISSUE 921/1, pp. 229-232
[40] Honda Motor Co., Japan; Yamato Motor Co.,Japan.CNG operation of a two-stroke, two-cylinder marine S.I. engine and its characteristics of self-ignition combustion.JSAE Review 21(2000)567-572
[41] Raju, A. V. S. R.; Ramesh, A.; Nagalingam, B.Effect of Intensified Swirl and Squish on the Performance of a Lean Burn Engine Operated on LPG.SAE SP; 2000; [NO] 1549, pp. 425-432
[42] Goto, S.; Lee, D.; Shakal, J.; Harayama, N.Performance and Emissions of an LPG Lean-Burn Engine for Heavy Duty Vehicles.SAE SP 1098-7819; 1999; NUMB 1458, pp. 91-101
[43] J.A.Caton, M.McDermott, and R.Chona.Development of a Dedicated LPG-Fueled
Spark-Ignition Engine and Vehicle for the 1996 Propane Vehicle Challenge.SAE paper 972692 pp.792-805
[44] T.Nakazono.The development of high Speed and High Performance Prechamber Lean Burn Gas Engine.19th CIMACD-41,1991
[45] 张肇德等. 车用汽油机进气道改进的试验研究. 小型内燃机,1995(2)
[46] 刘耀峰等. 内燃机气道内气体流动研究方法应用研究. 内燃机,2001(6)
[47] 董联革等. 190系列 天然气发动机燃烧室改进的试验研究. 内燃机,1996(6)
[48] 姚喜贵等. 压缩比对点燃式天然气发动机性能的影响. 佳木斯工学院学报,1996(9)
[49] 左承基. 预燃室式火花点火天然气发动机燃烧模型. 燃烧科学与技术,1998(1)
[50] 孙叶保等. 电子点火型单燃料天然气发动机开发研究. 车辆与动力技术,2001(4)
[51] 王振锁等. LPG用于小型点燃式发动机的性能优化与稀薄燃烧. 吉林大学学报,2002(1)
[2] M. Van der Steen. Gaseous Fuels: Past Experiences and Future Expectations. TNO-paper VM9608, 1996
[3] John T.Kubesh, Daniel J. Podnar. Ultra Low Emissions and High Efficiency form an On Highway Natural Gas Engine. SAE981394, 1998
[4] Rajeana Gable, et al. The Cleaner Choice Natural Gas as a Substitute for Diesel. GRI-99/0261, Dec.1999
[5] Nigel N.Clark, et al. Emissions from Truck and Buses Powered by Cummins L-10 Natural Gas Engines. SAE981393, 1998
[6] 原山直也等. 中型卡车燃料喷射式稀薄燃烧LPG发动机的开发. 国外内燃机,2001.5
[7] 张于心等.我国清洁汽车发展战略的探讨.北方交通大学学报,2001(2):93~97
[8] 邹利.国外天然气汽车发展状况.汽车研究与开发,1999,4:8-11
[9] 田莉. 2001年我国清洁汽车开发利用情况综述. 汽车研究与开发,2002(4):16~20
[10] 董俊武,于浩.我国清洁能源汽车战略研究.世界汽车,2001,2:1-3
[11] 吕剑飞,许忠厚,马凡华.天然气发动机工作方式选择分析.车用发动机,2001,2:6-8
[12] 许世海,邱瑞波.天然气汽车使用中存在的问题及对策.汽车技术,2001,1:34-36
[13] 林志强. 天然气准均质充量压燃着火(QHCCI)燃烧过程的研究. 天津大学研究生毕业论文,2001
[14] 魏 鹏等. LPG的气质特性及在发动机中的着火方式.内燃机,2002(6):36~39
[15] 范曙睿. 填埋气发动机的实验研究[D]. 大连理工大学硕士论文,2001
[16] Nakarono T. The development of high speed and high performance prechamber lean burn gas engine, 19th CDMAC D41,1991:1~16
[17] 赵奎翰,曲延涛,魏克宁等.2190T天然气发动机进气和燃烧系统的改进研究.内燃机学报,1999,2:99-102
[18] 严兆大等. 工程车燃用LPG对动力性和排放的影响[J]. 内燃机工程,2001(2):2~4
[19] 赵奎翰等,火花点火式天然气发动机燃烧系统的研究[J]. 内燃机学报,1998(1):1~8
[20] P.Corbo, et al. Comparison between Lean-Burn and Stoichiometric Technologies for CNG Heavy-Duty Engines. SAE 950057,1995
[21] S. Subramanian, et al. Treatment of Natural Gas Vehicle Exhaust. SAE 930223, 1993
[22] Steven R. King. The Impact of Natural Gas Composition on Fuel Metering and Engine Operational Characteristics. SAE 920593,1992
[23] Vilmar Aesoy, et al. The Influence of Natural Gas Composition on Ignition in a Direct Injection Gas Engine Using Hot Surface Assisted Compression Ignition. SAE 961934,1996
[24] 颜祥.超低排放的天然气发动机.汽车与技术,2001,5:12-14
[25] 中川洋,森俊一,石田泰彦.高性能稀气燃烧气体发动机的研究开发.国外内燃机,1998,5:11-15
[26] 王秉刚,张红卫.发展天然气汽车是解决能源和环境保护问题的战略性措施.世界汽车,1997,12:1-3
[27] 刘凯. 电控柴油/CNG双燃料发动机和LPG单一燃料发动机的研究与开发. 天津大学研究生毕业论文,2002.2
[28] 郝利君,张付军,黄英等.多点顺序喷射天然气发动机的开发.内燃机学报,2001,4:333-336
[29] Takagaki S S,Rain R R.火花点火式天然气发动机中压缩比对NOx和HC排放的影响,2001,2:21-24
[30] 陈勇,袁成祥,陈泽智等.点火位置和点火提前角对沼气发动机性能的影响.小型内燃机,1997,3:24-26
[31] 孙济美,方祖华,许建华等.压缩天然气和液化石油气发动机电控喷气技术及燃烧特性研究.世界汽车,1997,12:28-31
[32] 张付军,郝利君,黄英等.电控顺序喷射天然气专用发动机的开发.汽车工程,2000,5:338-341
[33] 孙济美.天然气和液化石油气汽车.北京:北京理工大学出版社,1999
[34] 冯幸福,吴同起.燃气汽车及加气站技术.北京:电子工业出版社,2001.2
[35] Foster, et al. Compression Ignited Homogeneous Charge Combustion Engine. SAE 830246, 1983
[36] Chen, Zhili; Konno, Mitsuru; Goto, Shinichi.Study on homogenous premixed charge CI engine fueled with LPG.JSAE Review Volume: 22, Issue: 3, July, 2001, pp. 265-270
[37] 许忠厚,黄振洲,马凡华.LPG/汽油两用燃料发动机NOx排放规律的实验研究.天然气汽车,1999,4:19-23
[38] Kato, Takeshi; Saeki, Kiyoaki; Nishide, Hiroto; Yamada, Takashi.Development of CNG fueled engine with lean burn for small size commercial van.JSAE Review Volume: 22, Issue: 3, July, 2001, pp. 365-368
[39] Goto, S.; Furutani, H.; Kida, K.; Watanabe, K.LPG Fueled Diesel Engine.JSAE CONVENTION PROCEEDINGS; 1992; ISSUE 921/1, pp. 229-232
[40] Honda Motor Co., Japan; Yamato Motor Co.,Japan.CNG operation of a two-stroke, two-cylinder marine S.I. engine and its characteristics of self-ignition combustion.JSAE Review 21(2000)567-572
[41] Raju, A. V. S. R.; Ramesh, A.; Nagalingam, B.Effect of Intensified Swirl and Squish on the Performance of a Lean Burn Engine Operated on LPG.SAE SP; 2000; [NO] 1549, pp. 425-432
[42] Goto, S.; Lee, D.; Shakal, J.; Harayama, N.Performance and Emissions of an LPG Lean-Burn Engine for Heavy Duty Vehicles.SAE SP 1098-7819; 1999; NUMB 1458, pp. 91-101
[43] J.A.Caton, M.McDermott, and R.Chona.Development of a Dedicated LPG-Fueled
Spark-Ignition Engine and Vehicle for the 1996 Propane Vehicle Challenge.SAE paper 972692 pp.792-805
[44] T.Nakazono.The development of high Speed and High Performance Prechamber Lean Burn Gas Engine.19th CIMACD-41,1991
[45] 张肇德等. 车用汽油机进气道改进的试验研究. 小型内燃机,1995(2)
[46] 刘耀峰等. 内燃机气道内气体流动研究方法应用研究. 内燃机,2001(6)
[47] 董联革等. 190系列 天然气发动机燃烧室改进的试验研究. 内燃机,1996(6)
[48] 姚喜贵等. 压缩比对点燃式天然气发动机性能的影响. 佳木斯工学院学报,1996(9)
[49] 左承基. 预燃室式火花点火天然气发动机燃烧模型. 燃烧科学与技术,1998(1)
[50] 孙叶保等. 电子点火型单燃料天然气发动机开发研究. 车辆与动力技术,2001(4)
[51] 王振锁等. LPG用于小型点燃式发动机的性能优化与稀薄燃烧. 吉林大学学报,2002(1)