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Effects of operating parameters on nitrogen oxides emissions for a natural gas fueled homogeneous charged compression ignition engine (HCCI): Results from a thermodynamic model with detailed chemistry

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  • Zheng, Junnian
  • Caton, Jerald A.

Abstract

Past numerical studies on natural gas HCCI engines have provided few thorough analyses of the effects of operating parameters on nitrogen oxides (referring to the mixture of nitric oxide and nitrogen dioxide). A single zone thermodynamic model with detailed chemical kinetics was used to determine the effect of operating parameters on nitrogen oxides emissions. The model employed Chemkin and used chemical kinetics for natural gas with 53 species and 325 reactions. The simulation was conducted for a modified 0.4l single cylinder engine, which possessed a compression ratio of 21.5:1, and had a bore and stroke of 86 and 75mm, respectively. Several sets of parametric studies were completed to investigate the effect of engine load (imep=200–600kPa), speed (600–3000RPM), equivalence ratio (0.3–1.0), EGR level (0–40%), temperature at IVC (390–460K), and fuel compositions (0–10% C2H6) on nitrogen oxides emissions. Contributions of different NOx mechanisms have been examined, and the thermal mechanism accounts for over 70% of the total NOx at most of the conditions. The results show significant changes in nitrogen oxides concentrations with varying engine operating conditions. These changes are shown to be strongly dependent on the chemical kinetics and the resulting differences in gas temperature profiles. For this particular study, 50% reduction in nitrogen oxides emissions could result from a load (imep) decrease from 300kPa to 200kPa, or an EGR level increase from 0% to 20%.

Suggested Citation

  • Zheng, Junnian & Caton, Jerald A., 2012. "Effects of operating parameters on nitrogen oxides emissions for a natural gas fueled homogeneous charged compression ignition engine (HCCI): Results from a thermodynamic model with detailed chemistry," Applied Energy, Elsevier, vol. 92(C), pages 386-394.
    • Handle: RePEc:eee:appene:v:92:y:2012:i:c:p:386-394
    DOI: 10.1016/j.apenergy.2011.11.025
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    Cited by:

    1. Deng, Banglin & Li, Qing & Chen, Yangyang & Li, Meng & Liu, Aodong & Ran, Jiaqi & Xu, Ying & Liu, Xiaoqiang & Fu, Jianqin & Feng, Renhua, 2019. "The effect of air/fuel ratio on the CO and NOx emissions for a twin-spark motorcycle gasoline engine under wide range of operating conditions," Energy, Elsevier, vol. 169(C), pages 1202-1213.
    2. Chang, Yu-Cheng & Lee, Wen-Jhy & Wu, Tser Son & Wu, Chang-Yu & Chen, Shui-Jen, 2014. "Use of water containing acetone–butanol–ethanol for NOx-PM (nitrogen oxide-particulate matter) trade-off in the diesel engine fueled with biodiesel," Energy, Elsevier, vol. 64(C), pages 678-687.
    3. Moradi, Jamshid & Gharehghani, Ayat & Mirsalim, Mostafa, 2020. "Numerical investigation on the effect of oxygen in combustion characteristics and to extend low load operating range of a natural-gas HCCI engine," Applied Energy, Elsevier, vol. 276(C).
    4. Gharehghani, Ayat & Abbasi, Hamid Reza & Alizadeh, Pouria, 2021. "Application of machine learning tools for constrained multi-objective optimization of an HCCI engine," Energy, Elsevier, vol. 233(C).
    5. Rahman, S.M. Ashrafur & Masjuki, H.H. & Kalam, M.A. & Sanjid, A. & Abedin, M.J., 2014. "Assessment of emission and performance of compression ignition engine with varying injection timing," Renewable and Sustainable Energy Reviews, Elsevier, vol. 35(C), pages 221-230.
    6. Xu, Min & Cheng, Wei & Li, Zhi & Zhang, Hongfei & An, Tao & Meng, Zhaokang, 2016. "Pre-injection strategy for pilot diesel compression ignition natural gas engine," Applied Energy, Elsevier, vol. 179(C), pages 1185-1193.
    7. Zheng, Zhaolei & Lv, Zhumei, 2015. "A new skeletal chemical kinetic model of gasoline surrogate fuel with nitric oxide in HCCI combustion," Applied Energy, Elsevier, vol. 147(C), pages 59-66.

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