期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

基于敏感性分析的重油替代物简化机理

Based on Sensitive Analysis Heavy Oil Substitute Simplification Mechanism
下载PDF
导出
摘要 根据重油结构成分,选取甲苯代表芳香烃化合物,正庚烷代表烷烃类化合物,丙烯代表烯烃类化合物,构建重油替代物机理模型。采用Chemkin软件使用DRG方法对其简化,同时进行敏感性分析,得到简化机理。对简化机理进行滞燃期与层流火焰速度的验证,验证简化机理的合理性。将其耦合得到121组分、700个基元反应的重油替代物简化机理。 ccording to the structure and composition of heavy oil,the mechanism model of heavy oil substitutes was constructed by choosing toluene as the aromatic compound,n-heptane as the alkane compound and propylene as the olefin compound.Chemkin software was used to simplify it by DRG method,and sensitivity analysis was carried out to obtain the simplified mechanism.The ignition delay and laminar flame speed of the simplified mechanism are verified to verify the rationality of the simplified mechanism.A simplified mechanism of heavy oil substitutes with 121 components and 700 elementary reactions was obtained by coupling them.
作者 张德福 王雄达 Zhang De-fu;Wang Xiong-da(Tianjin University of Technology,Maritime College,Tianjin 300384,China)
机构地区 天津理工大学海运学院
出处 《内燃机与配件》 2022年第7期39-41,共3页 Internal Combustion Engine & Parts
基金 天津理工大学教学基金项目,“基于虚实互补的船舶柴油机性能实验项目开发”,项目号:ZX20-09。
关键词 重油替代物 敏感性分析 机理简化 Heavy oil substitute Sensitivity analysis Mechanism Simplification
分类号 TK428.9 [动力工程及工程热物理—动力机械及工程]
  • 相关文献

参考文献6

二级参考文献31

  • 1Farrell J T, Cernansky N P, Dryer F L, et al. Development of an Experimental Database and Kinetic Models for Surrogate Diesel Fuels[C]. SAE Paper 2007-01-0201, 2007.
  • 2Patel A, Kong S, Reitz R D. Development and Validation of a Reduced Reaction Mechanism for HCCI Engine Simulations[ C]. SAE Paper 2004-01-0558, 2004.
  • 3Kong S, Sun Y, Reitz R D. Modeling Diesel Spray Flame Lift-Off, Sooting Tendency and NOx Emissions Using Detailed Chemistry with Phenomenological Soot Model [ R ]. ASME ICES2005-1009, 2005.
  • 4Maroteaux F, Noel L. Development of a Reduced n-Heptane Oxidation Mechanism for HCCI Combustion Modeling [ J ]. Combust Flame, 2006, 146(1/2) : 246-267.
  • 5Gustavsson J, Golovitchev V I. Spray Combustion Simulation Based on Detailed Chemistry Approach for Diesel Fuel Surrogate Model[ C]. SAE Paper 2003-01-1848, 2003.
  • 6Fredriksson J, Bergman M, Golovitchev V I, et al. Modeling the Effect of Injection Schedule Change on Free Piston Engine Operation[ C]. SAE Paper 2006-01-0449, 2006.
  • 7Golovitchev V I, Calik A T, Montorsi L. Analysis of Combustion Regimes in Compression Ignited Engines Using Parametric Ф-T Dynamic Maps[ C]. SAE Paper 2007-01-1838, 2007.
  • 8Corcione F E, Costa M, Allocca L, et al. Study of Muhiple Injections and Auto-ignition of Diesel Sprays in a Constant Volume Vessel[ C ]. COMODIA, the 6th Internat Symp on Diagnostics and Modeling of Combust in Internal Combust Engines, 2004 : 567-574.
  • 9Golovitehev V I, Nordin N, Jarnicki R, et al. 3-D Diesel Spray Simulations Using a New Detailed Chemistry Turbulent Combustion Model[ C]. SAE Paper 2000-01-1891, 2000.
  • 10Kohashi K, Fujii Y, Kusaka J, on Ignition and Combustion of a et al. A Numerical Study DI Diesel Engine by Using CFD Code Combined with Detailed Chemical Kinetics[ C]. SAE Paper 2003-01-1847, 2003.

共引文献19

内燃机与配件
2022年 第7期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部