Study on the tribological behaviors of the cylinder liner-piston ring in the ammonia-fueled engine

Lion S, Vlaskos I, Taccani R. A review of emissions reduction technologies for low and medium speed marine diesel engines and their potential for waste heat recovery. Energ Convers Manage 207: 112553 (2020)

Lee H, Park D, Choo S, Pham H T. Estimation of the non-greenhouse gas emissions inventory from ships in the port of incheon. Sustainability 12(19): 8231 (2020)

El-Refaei S M, Russo P A, Pinna N. Recent advances in multimetal and doped transition-metal phosphides for the hydrogen evolution reaction at different pH values. ACS Appl Mater Inter 13(19): 22077–22097 (2021)

Mallouppas G, Ioannou C, Yfantis E A. A review of the latest trends in the use of green ammonia as an energy carrier in maritime industry. Energies 15(4): 1453 (2022)

Kurien C, Mittal M. Review on the production and utilization of green ammonia as an alternate fuel in dual-fuel compression ignition engines. Energ Convers Manage 251: 114990 (2022)

Chiong M C, Chong C T, Ng J H, Mashruk S, Chong W W F, Samiran N A, Mong G R, Valera-Medina A. Advancements of combustion technologies in the ammonia-fuelled engines. Energ Convers Manage 244: 114460 (2021)

Chehade G, Dincer I. Progress in green ammonia production as potential carbon-free fuel. Fuel 299: 120845 (2021)

Bae C, Kim J. Alternative fuels for internal combustion engines. P Combust Inst 36(3): 3389–3413 (2017)

Tavakoli S, Jensen M V, Pedersen E, Schramm J. Unburned hydrocarbon formation in a natural gas engine under sea wave load conditions. J Mar Sci Technol 26(1): 128–140 (2021)

Kidoguchi Y, Nada Y, Sangawa S, Kitazaki M, Matsunaga D. Effect of low load combustion and emissions on fuel dilution in lubricating oil and deposit formation of DI diesel engines fueled by straight rapeseed oil. Fuel 221: 35–43 (2018)

Xu X W, Liu E L, Zhu N, Liu F F, Qian F. Review of the current status of ammonia-blended hydrogen fuel engine development. Energies 15(3): 1023 (2022)

Şahin Z, Ziya Akcanca İ Z, Durgun O. Experimental investigation of the effects of ammonia solution (NH₃OH) on engine performance and exhaust emissions of a small diesel engine. Fuel 214: 330–341 (2018)

Wang B B, Yang C L, Wang H C, Hu D, Duan B, Wang Y. Study on injection strategy of ammonia/hydrogen dual fuel engine under different compression ratios. Fuel 334: 126666 (2023)

Dong D S, Wei F X, Long W Q, Dong P B, Tian H, Tian J P, Wang P, Lu M F, Meng X Y. Optical investigation of ammonia rich combustion based on methanol jet ignition by means of an ignition chamber. Fuel 345: 128202 (2023)

Agocs A, Rappo M, Obrecht N, Schneidhofer C, Frauscher M, Besser C. The impact of ammonia fuel on marine engine lubrication: An artificial lubricant ageing approach. Lubricants 11(4): 165 (2023)

Wong V W, Tung S C. Overview of automotive engine friction and reduction trends—Effects of surface, material, and lubricant-additive technologies. Friction 4(1): 1–28 (2016)

Rahmani R, Rahnejat H, Fitzsimons B, Dowson D. The effect of cylinder liner operating temperature on frictional loss and engine emissions in piston ring conjunction. Appl Energy 191: 568–581 (2017)

Dimitriou P, Javaid R. A review of ammonia as a compression ignition engine fuel. Int J Hydrogen Energy 45(11): 7098–7118 (2020)

Xiuyi L, Jiao B W, Lu X Q, Zou D Q, Ma X, Neville A. A statistical piston ring lubrication model considering the tribofilm and its effect of two-stroke marine engines. Tribol Int 177: 107996 (2023)

Moon S M, Cho Y J, Kim T W. Evaluation of lubrication performance of crank pin bearing in a marine diesel engine. Friction 6(4): 464–471 (2018)

Aihara H. Tribology for alternative-fuel engines. Tribol Int 27(1): 51–56 (1994)

Liu Z Z, Guo Z W, Rao X, Xu Y C, Sheng C X, Yuan C Q. A comprehensive review on the material performance affected by gaseous alternative fuels in internal combustion engines. Eng Fail Anal 139: 106507 (2022)

Tian Z, Wang Y, Zhen X D, Liu Z B. The effect of methanol production and application in internal combustion engines on emissions in the context of carbon neutrality: A review. Fuel 320: 123902 (2022)

Newman R C. Review and hypothesis for the stress corrosion mechanism of carbon steel in alcohols. Corrosion 64(11): 819–823 (2008)

Pyrc M, Gruca M, Jamrozik A, Tutak W, Juknelevičius R. An experimental investigation of the performance, emission and combustion stability of compression ignition engine powered by diesel and ammonia solution (NH₄OH). Int J Engine Res 22(8): 2639–2653 (2020)

Karvounis N, Pang K M, Mayer S, Walther J H. Numerical simulation of condensation of sulfuric acid and water in a large two-stroke marine diesel engine. Appl Energ 211: 1009–1020 (2018)

Cordtz R, Mayer S, Eskildsen S S, Schramm J. Modeling the condensation of sulfuric acid and water on the cylinder liner of a large two-stroke marine diesel engine. J Mar Sci Technol 23(1): 178–187 (2018)

Cordtz R F, Kjemtrup L, Jensen M V, Schramm J. An experimental study of the effect of condensing water vapour on the cold corrosion wear of marine engine cylinder liners. Lubr Sci 34(2): 103–111 (2022)

Sugishita J, Fujiyoshi S. The effect of cast iron graphites on friction and wear performance I: Graphite film formation on grey cast iron surfaces. Wear 66(2): 209–221 (1981)

Hase A. Visualization of the tribological behavior of graphite in cast iron by in situ observations of sliding interfaces. Tribol Int 138: 40–46 (2019)

Mejía Hernández F G, Ramírez Cardona M, Luis Raya G, Martínez Pérez A I, Vera Cárdenas E E, Cabrera R, Cardoso Legorreta E, Reyes Pérez M. Synergy study between a lubricant oil layer and a microstructural graphite to reduce friction and wear of a thermally modified low-carbon gray cast-iron cylinder liner. Tribol T 66(3): 413–421 (2023)

Itoh T, Ogi K. Lubricated friction and wear properties of P-B bearing flaky graphite cast iron. Key Eng Mat 457: 374–379 (2010)

Blau P J, McLaughlin J C. Effects of water films and sliding speed on the frictional behavior of truck disc brake materials. Tribology Int 36(10): 709–715 (2003)

Fang L, Gao Y M, Si S H, Zhou Q D. Effect of lubricants on the friction and wear of Al₂O₃ against gray cast iron. Wear 210(1–2): 145–150 (1997)

Zhang X H, Yu T, Guo F, Liang P. Analysis of the influence of small quantity secondary lubricant on water lubrication. Tribol Int 159: 106998 (2021)

Archard J F. Contact and rubbing of flat surfaces. J Appl Phys 24(8): 981–988 (1953)

Zhang B F, Ma X, Liu L N, Yu H Z N, Morina A, Lu X Q. Study on the sliding wear map of cylinder liner–piston ring based on various operating parameters. Tribol Int 186: 108632 (2023)

Zhao N N, Zhao Y R, Wei Y Q, Wang X, Li J, Xu Y H, Yan F X, Lu Z X. Friction and wear behavior of TaC ceramic layer formed in-situ on the gray cast iron. Tribol Int 135: 181–188 (2019)

Yu H X, Zheng Z W, Chen H J, Qiao D, Feng D P, Gong Z B, Dong G J. An investigation of tribochemical reaction kinetics from the perspective of tribo-oxidation. Tribol Int 165: 107289 (2022)

Zhu Y, Olofsson U, Chen H. Friction between wheel and rail: A pin-on-disc study of environmental conditions and iron oxides. Tribol Lett 52(2): 327–339 (2013)

Ghaderi A R, Nili Ahmadabadi M, Ghasemi H M. Effect of graphite morphologies on the tribological behavior of austempered cast iron. Wear 255(1–6): 410–416 (2003)

Fu LC, Qin W, Yang J, Liu W M, Zhou L P. Corrosion-wear behavior of nanocrystalline Fe₈₈Si₁₂ alloy in acid and alkaline solutions. Int J Min Met Mater 24(1): 75–82 (2017)

Sun L, Xiong Z, Qiu J, Zhu Y K, MacDonald D D. Corrosion behavior of carbon steel in dilute ammonia solution. Electrochim Acta 364: 137295 (2020)