|
|
论文:2019,Vol:37,Issue(2):417-423 |
|
|
引用本文: |
|
|
周磊, 杨昆, 刘振明, 王银, 迟淼. 喷油速率匹配喷油提前角对超高压共轨柴油机性能影响的仿真研究[J]. 西北工业大学学报 |
|
|
ZHOU Lei, YANG Kun, LIU Zhenming, WANG Yin, CHI Miao. Simulation of the Effect of Fuel Injection Rate that Matches Fuel Injection Advanced Angle on the Performance of Ultra High Pressure Common Rail Diesel Engine[J]. Northwestern polytechnical university |
|
|
|
|
|
|
|
| 喷油速率匹配喷油提前角对超高压共轨柴油机性能影响的仿真研究 |
|
| 周磊1, 杨昆1, 刘振明1, 王银1, 迟淼2 |
|
1. 海军工程大学 动力工程学院, 湖北 武汉 430033;
2. 陆军军事交通学院 汽车士官学校, 安徽 蚌埠 233011 |
| 摘要: |
| 在介绍可变喷油速率实现方法的基础上,建立了单缸超高压共轨柴油机的计算模型,并利用试验验证了模型的准确性,而后通过模型分析了不同喷油速率和喷油提前角对超高压共轨柴油机性能的影响。结果表明:通过调整超高压共轨系统中电控增压器和喷油器电磁阀的开启时间,可以实现喷油速率的柔性可调;随着增压时间的滞后,柴油机缸压、缸温、放热率以及NOx排放均下降,而soot排放上升。超高压矩形喷油速率可使柴油机获得最好的动力性和经济性。随着喷油提前角的增加,柴油机缸压、缸温、放热率以及NOx排放均上升,而soot排放先下降后上升,太小或太大的喷油提前角都会降低柴油机的动力性和经济性。高喷油速率方案匹配较小的喷油提前角能提升柴油机的动力输出并降低燃油消耗,且每种喷油速率都存在一个最优的喷油提前角,使柴油机性能达到最佳。 |
| 关键词:
超高压共轨柴油机
喷油速率
喷油提前角
燃烧
|
|
| Simulation of the Effect of Fuel Injection Rate that Matches Fuel Injection Advanced Angle on the Performance of Ultra High Pressure Common Rail Diesel Engine |
|
| ZHOU Lei1, YANG Kun1, LIU Zhenming1, WANG Yin1, CHI Miao2 |
|
1. College of Power Engineering, Naval University of Engineering, Wuhan 430033, China;
2. Automobile NCO Academy, Army Military Transportation University, Bengbu 233011, China |
| Abstract: |
| On the basis of introducing the implementation method of variable fuel injection rate, the calculation model of a single-cylinder ultra high pressure common rail diesel engine was built, and the accuracy of this model was verified with experiments; then the effects of different fuel injection rates and fuel injection advanced angles on the performance of the ultra high pressure common rail diesel engine were analyzed with this model. The results show that the variable fuel injection rate can be realized by adjusting the opening time of electric-controlled pressure amplifier and injector solenoid valve in the ultra high pressure common rail system. With the lagging of pressurization time, the cylinder pressure, cylinder temperature, heat release rate and NOx emissions of the diesel engine decrease, while the soot emission rises. The ultra high pressure rectangle injection rate can make the diesel engine acquire best power and economy performance. With the increasing of fuel injection advanced angle, the cylinder pressure, cylinder temperature, heat release rate and NOx emission of the diesel engine rise, while the soot emission decreases first and then rises, the too small or too large fuel injection advanced angle can both reduce the power and economy performance of the diesel engine. The high fuel injection rate that matches small fuel injection advanced angle can improve power output and reduce fuel consumption of the diesel engine, and there is an optimal fuel injection advanced angle for each fuel injection rate to make the diesel engine performance achieve the best. |
| Key words:
ultra high pressure common rail diesel engine
fuel injection rate
fuel injection advanced angle
combustion
|
|
| 收稿日期: 2018-04-01
修回日期:
|
| DOI: 10.1051/jnwpu/20193720417 |
| 基金项目: 国家自然科学基金(51379212)和海军工程大学博士研究生创新基金(XYBJ611)资助 |
| 通讯作者: 杨昆(1981-),海军工程大学副教授,主要从事内燃机测试及电控技术研究。E-mail:150006224@qq.com
Email:150006224@qq.com |
| 作者简介: 周磊(1991-),海军工程大学讲师,主要从事动力机械及热力系统的仿真与优化研究。
|
|
| 相关功能 |
|
|
|
|
| 作者相关文章 |
|
| 周磊 在本刊中的所有文章 |
| 杨昆 在本刊中的所有文章 |
| 刘振明 在本刊中的所有文章 |
| 王银 在本刊中的所有文章 |
| 迟淼 在本刊中的所有文章 |
|
|
|
|
|
|
|
|
参考文献: |
|
|
[1] ALLOCCA L, ANDREASSL L. Enhanced Splash Models for High Pressure Diesel Spray[J]. Journal of Engineering for Gas Turbines and Power, 2007, 129:609-622
[2] LIU Y, ZHANG Y T, QIU T, et al. Optimization Research for a High Pressure Common Rail Diesel Engine Based on Simulation[J]. International Journal of Automotive Technology, 2010,11(5):625-636
[3] 何超,汪勇,李加强,等. 高压共轨柴油机燃烧与二氧化氮排放特性研究[J]. 内燃机工程, 2013, 34(1):13-17 HE Chao, WANG Yong, LI Jiaqiang, et al. Combustion and NO2 Emission Characteristic of High Pressure Common Rail Diesel Engine[J]. Chinese Internal Combustion Engine Engineering, 2013, 34(1):13-17(in Chinese)
[4] LEE T W, REIZT R D. The Effects of Split Injection and Swirl on a HSDL Diesel Engine Equipped with a Common Rail Injection System[J]. SAE Transactions, 2003, 112(3):508-521
[5] 李煜辉,崔可润,朱国伟. 柴油机超高增压的电控技术[J]. 内燃机学报, 2002, 20(6):541-545 LI Yuhui, CUI Kerun, ZHU Guowei. The Electronic Control Technology on Ultra-High Supercharged Diesel Engine[J]. Trans of CSICE, 2002, 20(6):541-545(in Chinese)
[6] HAVDREM J, QIAN D H, JIN Y J, et al. Effect of Injection Parameters on the Combustion and Emission Characteristics in a Common-Rail Direct Injection Diesel Engine Fueled with Waste Cooking Oil Biodiesel[J]. Renewable Energy, 2014, 63:9-17
[7] YAN J W. Common Rail Injection System Iterative Learning Control Based Parameter Calibration for Accurate Fuel Injection Quantity Control[J]. International Journal of Automotive Technology, 2011, 12(2):149-157
[8] SHINOHARA Y, TAKEUCHI K, HERRMANN O E, et al. 3000 Bar Common Rail System[J]. Journal of Technology and Materials Mechanics, 2011, 72(1):4-9
[9] Ghsemi A, Barron R M, Balavhandar R, et al. Spray-Induced Air Motion in Single and Twin Ultra-High Injection Diesel Sprays[J]. Fuel, 2014, 121:284-297
[10] LEINHARD R, PARCHE M, ALVARE H, et al. Pressure-Amplified Common Rail System for Commercial Vehicles[J]. MTZ, 2009, 70(5):10-15
[11] PARK S H, SUH H K, LEE C S. Nozzle Flow and Atomization Characteristics of Ethanol Blended Biodiesel Fuel[J]. Renewable Energy, 2010, 35(4):144-150
[12] HOSSAM L, ASRAG E, YIGUANG Ju. Direct Numerical Simulations of NOx Effect on Multistage Auto Ignition of DME/Air Mixture in the Negative Temperature Coefficient Regime for Stratified HCCI Engine Conditions[C]//51st AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition, 2013
[13] CHENG W L, HAN F Y, LIU Q N, et al. Experimental and Theoretical Investigation of Surface Temperature Non-Uniformity of Spray Cooling[J]. Energy, 2011, 36:24-57
[14] LIU J H, YAO A R, YAO C D. Effects of Diesel Injection Pressure on the Performance and Emissions of a HD Common-Rail Diesel Engine Fueled with Diesel/Methanol Dual Fuel[J]. Fuel, 2015, 140(15):192-200
[15] RAJ K, GRAHAM T. A Preliminary Study of Ignition Consistency and Heat Release Analysis for a Common-Rail Diesel Engine[R]. SAE Paper, 2004-01-0932, 2004
[16] HEYWOODE J B. Internal Combustion Engine Fundamentals[M]. New York, McGraw-Hill Inc, 1988 |
|
|
|
|
|
|
|
