- 學位論文
添加複合奈米機油於四行程機車引擎性能與廢氣排放影響之研究
The Study on Four-Stroke Motorcycle Engine Performance and Exhaust Emissions Using Hybrid Nano Lubricant
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摘要
['本研究針對四行程機車,添加兩種不同性質之奈米材料(二氧化矽與多壁奈米碳管)於原廠機油中,研究機車在運行時的燃料消耗率(km/L)、溫度特性變化及廢氣污染排放做為實驗成果的效益評估。本研究總共試驗了2.1、2.15、2.2、2.6、2.65與2.7 wt.%的複合奈米機油,最後選定綜效表現較佳的2.65 wt.%複合奈米機油。在磨潤實驗與熱傳導實驗中,複合奈米機油相較於原廠機油,平均降低37.75 %的磨耗量與提升12.3 %的熱傳導係數。在實車實驗中,經市區及定速的行車型態測試下,平均燃油消耗量(km/L)提升了7.5 %。在油門開度50 %的測試下,平路與爬坡(4度坡)車速增加了9.52及8.74 %。在行車測試的溫度量測中,缸壁與機油溫度分別降低6.3 %、6.9 %,排氣溫度上升26.6 %。在廢氣排放量測中,HC與CO總量減少了22.51 %、26.12 %,CO2排放提升了3.89 %,PM值排放在粒徑2 μm以下總量增加了47.34 %。實驗證實複合奈米機油可以提供引擎較佳潤滑與散熱之效果,並從排氣溫度、CO2與PM值的提升可以證實引擎燃燒變得更完全,並降低HC與CO之排放。']
並列摘要
['In this study, two different types of nanoparticles (SiO2 and MWCNT) were added to the base engine oil (20W40), which using on four-stroke motorcycle. A total of 2.1, 2.15, 2.2, 2.6, 2.65 and 2.7 wt.% of hybrid nano lubricant were tested in this study. Finally, 2.65 wt.% with better comprehensive effect was selected. In the tribology experimental and the thermal conductivity experiment has an average reduction of 37.75 % and 12.3% compared with the base oil. In the vehicle experiment, the average fuel consumption (km/L) increased by 7.5%, and the speed of the flat road and the climbing (four-degree slope) increased by 9.52 and 8.74%. The temperature characteristics during the driving test, the cylinder wall and the oil temperature was reduced by 6.3% and 6.9%, the exhaust temperature was increased by 26.6%. In the exhaust emissions, the total amount of HC and CO decreased by 22.51% and 26.12%, the CO2 emission increased by 3.89%, and the PM value increased by 47.34% under the particle size of 2 μm. Experiments have confirmed that the hybrid nano lubricant can provide better lubrication to make the engine burn more completely and better heat dissipation.']
參考文獻
[1] 台灣交通工具統計查詢網,中華民國交通部,2016年。
[2] 綠色車輛指南網,中華民國行政院環保署,2016年。
[3] 空氣汙染物排放查詢系統,中華民國行政院環保署,2016年。
[4] M. K. A. Ali, H. Xianjun, R. F. Turkson and M. Ezzat, ”An analytical study of tribological parameters between piston ring and cylinder liner in internal combustion engines”,Proc. Inst. Mech. Eng. K: J. Multibody Dyn. 2015.
[5] P. J. Blau, “A Review of Sub-scale Test Methods to Evaluate the Friction and Wear of Ring and Liner Materials for Spark- and Compression-ignition Engines”, Oak Ridge National Laboratory Tech. Report, vol. 184, pp. 12-19, 2001.
延伸閱讀
- 李國裕(2012)。奈米陶瓷粉末潤滑油添加劑對柴油內燃機性能和廢氣排放影響之研究〔碩士論文,國立臺北科技大學〕。華藝線上圖書館。https://www.airitilibrary.com/Article/Detail?DocID=U0006-1306201218164900
- 蕭暐亮(2020)。奈米氮化硼齒輪油對機車引擎性能與廢氣排放影響之研究〔碩士論文,國立臺灣師範大學〕。華藝線上圖書館。https://doi.org/10.6345/NTNU202001012
- 夏德耀(2022)。添加奈米石墨烯齒輪油於四行程機車引擎性能與廢氣排放影響之研究〔碩士論文,國立臺灣師範大學〕。華藝線上圖書館。https://doi.org/10.6345/NTNU202200617
- 羅士庭(2018)。The study on four-stroke motorcycle engine performance and exhaust emissions using engine oil with nano silica additive〔碩士論文,國立臺灣師範大學〕。華藝線上圖書館。https://doi.org/10.6345/THE.NTNU.DIE.008.2018.E01
- 許翔璽、張元義、謝侑儒、林文印、鄭福田(2007)。Effects of Fuel Composition on the Concentration of Exhaust Particles from a 4-Stroke Motorcycle Engine。環境保護,30(1),22-39。https://doi.org/10.30017/EP.200706.0003