期刊
FUEL
卷 317, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.fuel.2022.123522
关键词
Methanol; Dual-fuel; RCCI; Negative-valve overlap; Exhaust emissions; EGR; High efficiency
资金
- Academy of Finland [13297248]
- Fortum-Neste Foundation [2020050, 20210032]
- Merenkulun saatio [20210073]
The present study addresses the challenges of utilizing methanol in diesel engines at high substitution ratios by adopting negative-valve overlap (NVO) and hot residual gases. The results show that NVO period, charge-air temperature, and MeOH lambda have significant effects on the combustion of methanol-diesel dual-fuel. The combustion in NVO mode achieved high net-indicated efficiency and low pollutant emissions.
Methanol (MeOH) is a promising low-carbon liquid fuel to provide global energy security with a potential to achieve net-zero greenhouse gas emissions in transport sector. However, its utilization in diesel engines at high MeOH substitution ratios (MSR) suffers from misfire or high pressure rise rates owing to its distinct physiochemical properties. This issue is addressed in the present study by adopting negative-valve overlap (NVO) and hot residual gases from the previous cycle. Experiments are performed in a single-cylinder heavy-duty CI engine for a constant MSR (90% energy based) and an engine speed of 1500 rpm. The aim of the study is to investigate the effects of 1) NVO period, 2) charge-air temperature (T-air), 3) MeOH lambda (lambda(MeOH)) on the MeOHdiesel dual-fuel (DF) combustion in NVO mode, and 4) to demonstrate the implications of NVO in yielding high net-indicated efficiency (eta(ind)) together with low pollutant emissions at a wide range of engine operating loads (40-90%). The results show that the hot residual gases from the previous cycle enhance the reactivity of the fresh MeOH-air mixture by inducing slow oxidation processes before TDCf. The slow pre-flame oxidation processes are disruptive or oscillatory in nature, wherein NVO period, T-air and lambda(MeOH) can be used to control these processes and their induced reactivity enhancing capability. It is noticed that the pre-flame oxidation processes and the main combustion have a direct correlation between them. Based on the control strategy, the MeOH-diesel combustion in the NVO mode produced on average eta ind of approx. 53% accompanied with very low NOx emission of 1.1 g/ kWh at a wide range of engine operating loads (40-90%). Additionally, on average the combustion phasing (CA50) is maintained at similar to 2 CA aTDC, while the combustion stability remains high (COVIMEP 3.5%).
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