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Experimental study of the effect of variable valve timing on hydrogen-enriched ammonia engine.

Authors :
Xin, Gu
Ji, Changwei
Wang, Shuofeng
Hong, Chen
Meng, Hao
Yang, Jinxin
Su, Fangxu
Source :
Fuel. Jul2023, Vol. 344, pN.PAG-N.PAG. 1p.
Publication Year :
2023

Abstract

• The effect of intake valve timing on hydrogen-rich ammonia engines was studied. • Delaying the valve timing to increase the power of hydrogen-rich ammonia engines. • Advanced valve timing to improve BTE of hydrogen-rich ammonia engine. • Increasing valve overlap increases the cycle variation of hydrogen-rich ammonia engines. To reduce carbon emissions and increase the efficiency of internal combustion engines (ICEs), it is necessary to use renewable alternative fuels and to use Miller cycle technology. Ammonia is an energy storage medium as well as a hydrogen storage medium. In this experiment, a Miller cycle ICE using ammonia-hydrogen fuel was investigated at 1500 rpm and 60% throttle opening. The excess air factor of 1 and the ammonia volume share of 70% were maintained during the experiment. The objective of the experiment was to vary the intake valve timing and investigate its effect on engine performance. The results show that when the intake valve timing is advanced and the valve overlap angle is kept larger, the combustion stability deteriorates, the flame development period (CA0-10) is prolonged, the cycle variation increases, COV pmax will exceed 25%, and the brake thermal efficiency (BTE) quickly dropped from 32.8% to 30%. When the intake valve timing is retarded by 25°CA, IMEP and BMEP can be increased by 8% and 16% compared with the minimum values. Generally speaking, the Miller cycle hydrogen-enriched ammonia engine is not suitable for the early opening strategy of the intake valve. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00162361
Volume :
344
Database :
Academic Search Index
Journal :
Fuel
Publication Type :
Academic Journal
Accession number :
162979405
Full Text :
https://doi.org/10.1016/j.fuel.2023.128131