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Hydrogen engine has attracted much attention due to its high combustion efficiency, low hydrogen concentration requirement, low environmental pollution and fuel regeneration. But the key issue pre-ignition has hindered the development of hydrogen engines. In order to have a more in-depth understanding of pre-ignition, this paper reviews the mechanism of pre-ignition, the relationship between the nature of hydrogen and pre-ignition , the key factors affecting pre-ignition and the research status of pre-ignition, analyzes the development trend of hydrogen engine and provides a new perspective for the study of inhibiting pre-ignition.
Fanun Monger. Alternative fuel. Sugar Esters Microemulsions. 2017;423-434.
Sebayang AH, et al. A perspective on bioethanol production from biomass as alternative fuel for spark ignition engine. RSC Advances. 2016;6(13):14964- 14992.
Shivaprasad KV, Chitragar PR, Kumar GN. Experimental investigation of variations in spark timing using a spark‐ignition engine with hydrogen‐blended gasoline. Energy Technology. 2015;3(12):1174-1182.
Wang Zhihua. 1.23 Energy and Air Pollution. Comprehensive Energy Systems; 2018.
Fayaz H, Saidur N, Razali F, Anuar Saleman A, Islam M. An overview of hydrogen Feron, Olivier. Pyruvate into lactate and back: From the Warburg effect to symbiotic energy fuel exchange in cancer cells. Radiotherapy & Oncology. 2009;92(3):329-333. As a vehicle fuel Rene. Sust. Ener. Revi. 2012;165511-28.
Shivaprasad KV, Chitragar PR, Kumar GN. Effect of hydrogen addition on combustion and emissions performance of a high speed spark ignited engine at idle condition. Thermal Ence. 2018;22:157-157.
Momirlan M, Veziroglu TN. Current status of hydrogen energy. Renewable & Sustainable Energy Reviews. 2002;6(1-2):141-179.
METI, Agency for natural resources and energy, Energy Efficiency and Renewable Energy Department, Advanced Energy Systems and Structure Division, Hydrogen and Fuel Cells Strategy Office. Current Status of Hydrogen Energy and Strategies for Hydrogen-based Society. Marine Engineering. 2019;54(5):668-671.
Tabo Ishikura Eizo. Performance and combustion characteristics of a direct injection SI hydrogen engine. International Journal of Hydrogen Energy; 2007.
Swain Michael R, Schade GJ, Swain MN. Design and testing of a dedicated hydrogen-fueled engine. International Fuels & Lubricants Meeting & Exposition; 2015.
Canakci Mustafa, Saying C, Gumus M. Exhaust emissions and combustion characteristics of a direct injection (DI) diesel engine fueled with methanol diesel fuel blends at different injection timings. Energy & Fuels. 2008;22(6):3709-3723.
Das LM. Hydrogen engine: Research and development (R&D) programmes in Indian Institute of Technology (IIT), Delhi. International Journal of Hydrogen Energy. 2002;27(9):953-965.
Duan Junfa, Liu F, Sun B. Backfire control and power enhancement of a hydrogen internal combustion engine. International Journal of Hydrogen Energy. 2014;39 (9):4581-4589.
Nafiz Kahraman, Bilge Ceper S, Orhan Akansu, Kadir Aydin. Investigation of combustion characteristics and emissions in a spark-ignition engine fuelled with natural gas-hydrogen blends J. International Journal of Hydrogen Energy. 2009;34(2):1026-1034
Matthew G Shirk, Thomas P Mc Guire, Gary L Neal, Daniel C Haworth. Investigation of a hydrogen-assisted combustion system for a light-duty diesel vehicleljl. International Journal of Hydrogen Energy. 2008;33(23):7237—7244
Soberanis Escalante MA, Fernandez AM. A review on the technical adaptations for internal combustion engines to operate with gas/hydrogen mixtures. International Journal of Hydrogen Energy. 2010;35(21): 12134-12140.
Al-Baghdadi, Abdul Resul Sadiq. Performance study of a four-stroke spark ignition engine working with both of hydrogen and ethyl alcohol as supplementary fuel. International Journal of Hydrogen Energy. 2000;25(10):1005-1009.
Kirchweger Wolfram, et al. Applications of the LIF method for the diagnostics of the combustion process of gas-IC-engines. Experiments in Fluids. 2007;43(2-3):329-340.
Manfred Amann, Terrence A, Darius M. The Effect of EGR on Low-Speed Pre-Ignition in Boosted SI Engines. Sae International Journal of Engines. 2011;4(1): 235-245.
Tormos Bernardo, et al. Investigation on low-speed pre-ignition from the quantification and identification of engine oil droplets release under ambient pressure conditions. Measurement. 2020; 163:107961.
Jatana Gurneesh S, et al. Fuel property effects on low-speed pre-ignition. Fuel. 2018;230(15):474-482.
杨光. 氢燃料发动机异常燃烧机理研究. Diss. 华北水利水电大学.
Shivaprasad Kv, et al. Usage of hydrogen as a fuel in spark ignition engine. IOP Conference Series Materials Science and Engineering. 2018;376.
Chitragar PR, Shivaprasad KV, Kumar GN. Use of hydrogen in internal combustion engines: A comprehensive study. Journal of Mechanical Engineering. 2016;1(3):84-96.
Choongsik Bae, Jaeheun Kim. Alternative fuels for internal combustion engines [J]. Proceedings of the Combustion Institute. 2017;36:3389-3413.
Adem Ugurlu, Semiha Oztuna. A comparative analysis study of alternative energy sources for automobiles [J]. International Journal of Hydrogen Energy. 2015;40(34):11178-11188.
Seyed Ehsan Hosseini, Mazlan Abdul Wahid. Hydrogen production from renewable and sustainable energy resources: Promising green energy carrier for clean development [J]. Renewable and Sustainable Energy Reviews. 2016;57: 850-866.
Jahirul MI, Masjuki HH, Saidur R, Kalam MA, Jayed MH, Wazed MA. Comparative engine performance and emission analysis of CNG and gasoline in a retrofitted car engine [J]. Applied Thermal Engineering. 2010;30(14,15):2219-2226.
Momirlan M, Veziroglu TN. Current status of hydrogen energy [J]. Renewable & Sustainable Energy Reviews. 2002;6(1-2):141-179.
Verhelst S, Thomas W. Hydrogen-fueled internal combustion engines. Pro-gress in Energy and Combustion Science. 2009; 35(6):490–527.
周龙保. 内燃机学[M]. 机械工业出版社; 2011.
Fayaz H, et al. An overview of hydrogen as a vehicle fuel. Renewable & Sustainable Energy Reviews. 2012;16(8):5511-5528.
White CM, Steeper RR, Lutz AE. The hydrogen-fueled internal combustion engine: A technical review. International Journal of Hydrogen Energy. 2006;31(10): 1292-1305.
Furuhame S. Research on hydrogen-fueled engines[C], Omnibus of Furuhame S; 1990.
Zhenzhong Y , Lijun W , Marilou H, et al. Research on optimal control to resolve the contradictions between restricting abnormal combustion and improving power output in hydrogen fueled engines [J]. International Journal of Hydrogen Energy. 2012;37(1):774-782.
Al-Baghdadi, MARS Measurement and prediction study of the effect of ethanol blending on the performance and pollutants emission of a four-stroke spark ignition engine Proceedings of the institution of mechanical engineers, Part D: Journal of automobile engineering. 2008; 222:859–873.
Furuhama S, Yamane K, Yamaguchi I. Combustion improvement in a hydrogen fueled engine [J]. International Journal of Hydrogen Energy. 1977;2(3):329-340.
Kleijn R, van der Voet E. Resource constraints in a hydrogen economy based on renewable energy sources: An exploration. Renewable and Sustainable Energy Reviews. 2010;14(9):2784–95.
Yang Z, Wang L, Zhang Q, et al. Research on optimum method to eliminate backfire of hydrogen internal combustion engines based on combining postponing ignition timing with water injection of intake manifold [J]. International Journal of Hydrogen Energy; 2012.
Lee J, Lee K, Lee J, et al. High power performance with zero NOx emission in a hydrogen-fueled spark ignition engine by valve timing and lean boosting [J]. Fuel. 2014;128(15):381-389.
Wang Z, Qi Y, Liu H, et al. Experimental study on pre-ignition and super-knock in gasoline engine combustion with carbon particle at elevated temperatures and pressures [J]. SAE Technical Papers; 2015.
Menaa A, Lounici MS, Amrouche F, et al. CFD analysis of hydrogen injection pressure and valve profile law effects on backfire and preignition phenomena in hydrogen-diesel dual fuel engine [J]. International Journal of Hydrogen eneRgy. 2019;44(18):9408-9422.