Engine-out hydrocarbon speciation and DOC reaction modeling for dual-fuel combustion concept

IF 2.2 4区工程技术 Q2 ENGINEERING, MECHANICAL

International Journal of Engine Research Pub Date : 2024-07-25 DOI:10.1177/14680874241262048

Antonio García, José V Pastor, Javier Monsalve-Serrano, Álvaro Fogué-Robles

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Abstract

The concerns for global warming have pushed very harsh regulations on conventional propulsion systems based on the use of fossil fuels. New technologies are being promoted, but their current technological status needs further research and development to become a competitive substitute for the ever-present internal combustion engine. Transition technologies like hybrid-electric platforms are the preferred solution, but their dependence on the internal combustion engine demands continued developing and improving this technology. Advanced combustion modes like dual-mode dual-fuel combustion are attractive solutions with room for improvement. This work evaluates the specifics of the hydrocarbon composition emitted during the operation of a medium-duty dual-mode dual-fuel engine, analyzing the specific requirements of a diesel oxidation catalyst for this application. Also, the modeling approach of this after-treatment component is revised for this type of application, proposing a new approach and evaluating numerically the performance of a conventional diesel oxidation catalyst. The results show that the new modeling approach brings better accuracy when modeling the transient operation of the engine.

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针对双燃料燃烧概念的发动机排出碳氢化合物标示和 DOC 反应建模

对全球变暖的担忧促使人们对以使用化石燃料为基础的传统推进系统做出了非常严格的规定。新技术正在得到推广，但其目前的技术状况还需要进一步的研究和开发，才能成为有竞争力的替代品，取代一直存在的内燃机。混合动力电动平台等过渡技术是首选的解决方案，但它们对内燃机的依赖要求继续开发和改进这一技术。双模式双燃料燃烧等先进燃烧模式是有吸引力的解决方案，但仍有改进空间。这项工作评估了中型双模式双燃料发动机运行期间排放的碳氢化合物成分的具体情况，分析了这一应用对柴油氧化催化剂的具体要求。同时，针对此类应用对后处理组件的建模方法进行了修订，提出了一种新方法，并对传统柴油氧化催化剂的性能进行了数值评估。结果表明，在对发动机的瞬态运行进行建模时，新的建模方法具有更好的准确性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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