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新型两阶段点火系统对稀燃效率的影响 被引量:16

Effect of Innovative Two-Stage Ignition System on Lean Burn Efficiency
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摘要 基于自行开发的两阶段点火系统,采用准纳秒级伏安特性测试和发动机试验,研究了系统的放电特性、各阶段能量分配规律和在稀燃工况下的表现.结果表明:该系统放电过程主要由击穿阶段、高功率阶段和辉光阶段构成;高功率阶段可在持续时间约为20,μs内释放150~550,m J能量,约占整体释放能量的80%,~90%,,且受到气压变化的影响较小;击穿阶段持续时间约为10,ns,能量占比小于1%,,击穿能量随气压升高而增加;发动机对比测试显示两阶段点火可以使稀燃边界从过量空气系数φa=1.36提升至φa=1.70;结合稀薄燃烧,与普通点火相比相对热效率可提升最高10%. Based on an innovative two-stage ignition system, the discharge characteristics, the energy distribution and lean burn performance were studied by using the quasi-nanosecond volt-ampere test and engine test. Results show that the discharge process of this system is mainly composed of breakdown stage, high power stage and glow stage. The high power stage can deliver 150-550 mJ energy within about 20 μs, which contributes about 80% - 90% energy proportion and little change with the pressure variation. The breakdown stage lasts about 10 ns, which takes an energy proportion of less than 1% and increases with higher pressure, Engine test results show that the two- stage ignition system can improve the lean limit from Фa = 1.36 to Фa = 1.70. Moreover, combined with lean burn, it can achieve up to 10% relative thermal efficiency improvement compared with normal ignition system.
作者 陆海峰 汪阳 梁敬 李超 李理光
机构地区 同济大学汽车学院 同济大学中德学院
出处 《内燃机学报》 EI CAS CSCD 北大核心 2017年第6期530-537,共8页 Transactions of Csice
基金 国家自然科学基金资助项目(51376139) 高等学校博士学科点专项科研基金资助项目(20120072110015) 同济大学KSPG基金教席资助项目(0900165128)
关键词 两阶段点火 放电特性 稀燃 热效率 two-stage ignition discharge characteristics lean burn thermal efficiency
分类号 TK411 [动力工程及工程热物理—动力机械及工程]
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  • 1刘健,陶俊卫,李志军,任立环.汽油机的高能点火及其在我国的应用[J].小型内燃机与摩托车,2005,34(1):38-41. 被引量:11
  • 2Christensen M, Hultqvist A, Johansson B. Demonstrat- ing the multi fuel capability of a homogeneous charge compression ignition engine with variable compression ratio[C]. SAE Paper 1999-01-3679, 1999.
  • 3Tanaka S, Ayala F, Keck J C, et al. Two-stage ignition in HCCI combustion and HCCI control by fuels and addi- tives[J]. Combustion and Flame, 2003, 132(1/2) : 219-239.
  • 4Kalghatgi G T, Risberg P, Angstrom H E. Advantages of fuels with high resistance to auto-ignition in late- injection, low-temperature, compression ignition com- bustion [C]. SAE Paper 2006-01-3385, 2006.
  • 5Wang Zhi, Wang Jianxin, Shuai Shijin, et al. Numeri- cal simulation of HCCI engine with multi-stage gasoline direct injection using 3 D-CFD with detailed chemis- try[C]. SAE Paper 2004-01-0563, 2004.
  • 6Manente V, Zander C G, Johansson B, et al. An ad- vanced internal combustion engine concept for low emis- sions and high efficiency from idle to max load using gasoline partially premixed combustion [C]. SAE Paper 2010-01-2198, 2010.
  • 7Sellnau M C, Sinnamon J, Hoyer K, et al. Full-time gasoline direct-injection compression ignition (GDCI)for high efficiency and low NOx and PM[C]. SAE Paper 2012-01-0384, 2012.
  • 8Ra Y, Loeper P, Reitz R D, et al. Study of high speed gasoline direct injection compression ignition(GDICI) engine operation in the LTC regime[C]. SAE Paper 2011-01-1182, 2011.
  • 9Kim Duksang, Ekoto I, Colban W F, et al. In-cylinder CO and UHC imaging in a light-duty diesel engine dur- ing PPCI low-temperature combustion[C]. SAE Paper 2008-01-1602, 2008.
  • 10Heywood JB.Internal Combustion Engine Fundamentals. Journal of Women s Health . 1988

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内燃机学报
2017年 第6期

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