Development and Validation of a Reduced DME Mechanism Applicable to Various Combustion Modes in Internal Combustion Engines

Gregory T.Chin; J.-Y.Chen; Vi H.Rapp; R. W.Dibble

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Development and Validation of a Reduced DME Mechanism Applicable to Various Combustion Modes in Internal Combustion Engines

机译：简化的DME机理的开发和验证，该机理适用于内燃机的各种燃烧模式

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A 28-species reduced chemistry mechanism for Dimethyl Ether (DME) combustion is developed on the basis of a recent detailed mechanism by Zhao et al. (2008). The construction of reduced chemistry was carried out with automatic algorithms incorporating newly developed strategies. The performance of the reduced mechanism is assessed over a wide range of combustion conditions anticipated to occur in future advanced piston internal combustion engines, such as HCCI, SAHCCI, and PCCI. Overall, the reduced chemistry gives results in good agreement with those from the detailed mechanism for all the combustion modes tested. While the detailed mechanism by Zhao et al. (2008) shows reasonable agreement with the shock tube autoignition delay data, the detailed mechanism requires further improvement in order to better predict HCCI combustion under engine conditions.

机译：在Zhao等人最近的详细机制的基础上，开发了28种还原二甲醚（DME）燃烧的化学机理。（2008）。还原化学的构建是采用结合了新开发策略的自动算法进行的。在预期在未来的高级活塞内燃机如HCCI，SAHCCI和PCCI中发生的广泛燃烧条件下，对简化机构的性能进行了评估。总体而言，对于所有测试的燃烧模式，减少的化学作用使结果与详细机理的结果高度吻合。而详细的机制由赵等人。（2008年）显示与激波管自燃延迟数据合理的一致性，详细的机制需要进一步改进，以便更好地预测发动机工况下的HCCI燃烧。

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《Journal of combustion》 |2011年第3期|共8页
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Gregory T.Chin; J.-Y.Chen; Vi H.Rapp; R. W.Dibble;
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1. Development and Validation of a Reduced DME Mechanism Applicable to Various Combustion Modes in Internal Combustion Engines [J] . Gregory T. Chin, J.-Y. Chen, Vi H. Rapp, Journal of combustion . 2011,第3期

机译：简化的DME机制的开发和验证，该机制适用于内燃机的各种燃烧模式
2. Development of a Reduced Primary Reference Fuel Mechanism for Internal Combustion Engine Combustion Simulations [J] . Hu Wang, Mingfe Yao, Rolf D. Reta Energy & fuels . 2013,第NOVaaDECa期

机译：开发用于内燃机燃烧模拟的减少的主要参考燃料机制
3. Investigation of real gas effects on combustion and emissions in internal combustion engines and implications for development of chemical kinetics mechanisms [J] . Zongyu Yue International journal of engine research . 2018,第3期

机译：对内燃机燃烧和排放的实际气体影响及其对化学动力学机制发展的影响
4. Optimization mechanism applicable to abnormal combustion techniques for Hydrogen-fuelled Internal Combustion Engines [C] . Hegde Rashmi, Rao M.V.Bhaskara IEEE International Power Engineering and Optimization Conference . 2014

机译：适用于氢燃料内燃机异常燃烧技术的优化机构
5. Development of a methodology for internal combustion engine design using multi-dimensional modeling with validation through experiments. [D] . Senecal, Peter Kelly. 2000

机译：使用多维模型并通过实验验证的内燃机设计方法的开发。
6. Reduced Reaction Mechanisms for Ethanol under Ultra-leanConditions in Internal Combustion Engines [O] . Carla S. T. Marques, *, José R.M. da Silva 2021

机译：在超倾斜下降低乙醇的反应机制内燃机的条件
7. Development and Validation of a Reduced DME Mechanism Applicable to Various Combustion Modes in Internal Combustion Engines [O] . Gregory T. Chin, J.-Y. Chen, Vi H. Rapp, 2011

机译：改进燃烧发动机各种燃烧模式的DME机制的开发与验证

Development and Validation of a Reduced DME Mechanism Applicable to Various Combustion Modes in Internal Combustion Engines

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