1–5 von 5 Ergebnissen
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    A Study on Knocking Prediction Improvement Using Chemical Reaction Calculation

    Kawazoe, Hiromitsu / Kuchita, Masato / Hayashi, Shinji et al. | SAE Technical Papers | 2015
    and some knowledge of knocking prediction using chemical kinetics are shown in this paper. ...
    Verlag: Society of Automotive Engineers , SAE International

    Chemical Kinetics Study on Two-Stage Main Heat Release in Ignition Process of Highly Diluted Mixtures

    Ando, Hiromitsu / Kuwahara, Kazunari / Furutani, Masahiro et al. | SAE Technical Papers | 2013
    characteristics are discussed using a detailed chemical kinetic model of normal heptane, and based on an authors' idea that an ignition process can be ...
    Verlag: Society of Automotive Engineers , SAE International

    Chemical Kinetics Study on Small-Alkane Ignition Process to Design Optimum Methane-Based Blend for HCCI

    Tanaka, Hiroki / Ando, Hiromitsu / Kuwahara, Kazunari et al. | SAE Technical Papers | 2014
    alkanes in air were determined using a detailed chemical kinetic model. The apparent activation energy of C2H6 in the relationship between initial ...
    Verlag: Society of Automotive Engineers , SAE International

    Ignition Characteristics of Ethane and Its Roles in Natural Gas for HCCI Engine Operation

    Tanaka, Hiroki / Kuwahara, Kazunari / Kobayashi, Kazunobu et al. | SAE Technical Papers | 2015
    The ignition characteristics of each component of natural gas and the chemical kinetic factors determining those characteristics were ...
    Verlag: Society of Automotive Engineers , SAE International

    Fuel Design Concept for Robust Ignition in HCCI Engine and Its Application to Optimize Methane-Based Blend

    Tanaka, Hiroki / Ando, Hiromitsu / Kuwahara, Kazunari et al. | SAE Technical Papers | 2014
    A fuel design concept for an HCCI engine based on chemical kinetics to optimize the heat release profile and achieve robust ignition was ...
    Verlag: Society of Automotive Engineers , SAE International