Zi-han Wang, Chun-mei Wang, Hua-xin Tang, Cheng-ji Zuo, Hong-ming Xu. Effect of Hydrogen Addition on Methane HCCI Engine Ignition Timing and Emissions Using a Multi-zone Model[J]. Chinese Journal of Chemical Physics , 2009, 22(3): 290-296. doi: 10.1088/1674-0068/22/03/290-296
Citation: Zi-han Wang, Chun-mei Wang, Hua-xin Tang, Cheng-ji Zuo, Hong-ming Xu. Effect of Hydrogen Addition on Methane HCCI Engine Ignition Timing and Emissions Using a Multi-zone Model[J]. Chinese Journal of Chemical Physics , 2009, 22(3): 290-296. doi: 10.1088/1674-0068/22/03/290-296

Effect of Hydrogen Addition on Methane HCCI Engine Ignition Timing and Emissions Using a Multi-zone Model

doi: 10.1088/1674-0068/22/03/290-296
Funds:  This work was supported by the Natural Science Foundation of Anhui Province (No.090412030).
  • Received Date: 2008-11-04
  • Ignition timing control is of great importance in homogeneous charge compression ignition engines. The effect of hydrogen addition on methane combustion was investigated using a CHEMKIN multi-zone model. Results show that hydrogen addition advances ignition timing and enhances peak pressure and temperature. A brief analysis of chemical kinetics of methane blending hydrogen is also performed in order to investigate the scope of its application, and the analysis suggests that OH radical plays an important role in the oxidation.Hydrogen addition increases NOx while decreasing HC and CO emissions. Exhaust gas recirculation (EGR) also advances ignition timing; however, its effects on emissions are generally the opposite. By adjusting the hydrogen addition and EGR rate, the ignition timing can be regulated with a low emission level. Investigation into zones suggests that NOx is mostly formed in core zones while HC and CO mostly originate in the crevice and the quench layer.
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Effect of Hydrogen Addition on Methane HCCI Engine Ignition Timing and Emissions Using a Multi-zone Model

doi: 10.1088/1674-0068/22/03/290-296
Funds:  This work was supported by the Natural Science Foundation of Anhui Province (No.090412030).

Abstract: Ignition timing control is of great importance in homogeneous charge compression ignition engines. The effect of hydrogen addition on methane combustion was investigated using a CHEMKIN multi-zone model. Results show that hydrogen addition advances ignition timing and enhances peak pressure and temperature. A brief analysis of chemical kinetics of methane blending hydrogen is also performed in order to investigate the scope of its application, and the analysis suggests that OH radical plays an important role in the oxidation.Hydrogen addition increases NOx while decreasing HC and CO emissions. Exhaust gas recirculation (EGR) also advances ignition timing; however, its effects on emissions are generally the opposite. By adjusting the hydrogen addition and EGR rate, the ignition timing can be regulated with a low emission level. Investigation into zones suggests that NOx is mostly formed in core zones while HC and CO mostly originate in the crevice and the quench layer.

Zi-han Wang, Chun-mei Wang, Hua-xin Tang, Cheng-ji Zuo, Hong-ming Xu. Effect of Hydrogen Addition on Methane HCCI Engine Ignition Timing and Emissions Using a Multi-zone Model[J]. Chinese Journal of Chemical Physics , 2009, 22(3): 290-296. doi: 10.1088/1674-0068/22/03/290-296
Citation: Zi-han Wang, Chun-mei Wang, Hua-xin Tang, Cheng-ji Zuo, Hong-ming Xu. Effect of Hydrogen Addition on Methane HCCI Engine Ignition Timing and Emissions Using a Multi-zone Model[J]. Chinese Journal of Chemical Physics , 2009, 22(3): 290-296. doi: 10.1088/1674-0068/22/03/290-296

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