Combustion characteristics optimization and thermal efficiency enhancement by stratified charge of hydrogen direct injection for argon power cycle hydrogen engine

IF 2.2 4区工程技术 Q2 ENGINEERING, MECHANICAL

International Journal of Engine Research Pub Date : 2024-03-26 DOI:10.1177/14680874241233218

Weiqi Ding, Renjie Deng, Jun Deng, Chenxu Wang, Liguang Li

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Abstract

Argon power cycle hydrogen engine is a novel approach to increasing the thermal efficiency of hydrogen engines while achieving zero CO2 emissions. This paper presents a combination of experiments and simulations used to examine the effects of hydrogen direct injection on the combustion characteristics and thermal efficiency of argon power cycle engines. The results of the study indicate that, in comparison to port hydrogen injection, hydrogen direct injection produces a delay of CA50 exceeding 12.36°CA at an engine speed of 1000 r/min. This delay optimizes combustion and diminishes knock intensity to below 0.1 MPa by creating a stratified mixture, which in turn decelerates the combustion rate. Through adjusting hydrogen direct injection timing and incorporating super lean combustion, a maximum gross indicated thermal efficiency of 53.72% is achieved. By optimizing the first injection timing, the second injection timing, and the second injection ratio, dual hydrogen direct injection can significantly suppress knock and increase thermal efficiency compared with original single hydrogen injection conditions.

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氩气动力循环氢气发动机分层氢气直接喷射优化燃烧特性和提高热效率

氩动力循环氢气发动机是提高氢气发动机热效率并实现二氧化碳零排放的一种新方法。本文结合实验和模拟，研究了氢气直接喷射对氩动力循环发动机燃烧特性和热效率的影响。研究结果表明，与端口氢气喷射相比，氢气直接喷射会在发动机转速为 1000 r/min 时产生超过 12.36°CA 的 CA50 延迟。这种延迟可优化燃烧，并通过产生分层混合气将爆震强度降低到 0.1 兆帕以下，进而降低燃烧速度。通过调整氢气直接喷射时机和采用超稀薄燃烧，实现了 53.72% 的最高指示性总热效率。通过优化第一喷射时机、第二喷射时机和第二喷射比例，双氢直喷与原来的单氢喷射条件相比，能显著抑制爆震并提高热效率。

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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