Effect of bio-based lubricant towards emissions and engine breakdown due to spark plug fouling in a two-stroke engine
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Z. M. Zulfattah | M. Yusoff | H. Masjuki | M. H. Harith | A. Syahir | N. Zulkifli | Azham Alwi | H. Masjuki | M. Jamshaid | A. Arslan | R. Jumaidin | Z. Zulfattah | I. Norain | Z. M. Zulfattah | M. H. Harith
[1] Wenzheng Liu,et al. The mechanism of multi-anode electrode geometry applied to vacuum arc thruster. , 2018, 1810.00559.
[2] Mohd Hafidzal Mohd Hanafi,et al. Effects of n-butanol addition on sooting tendency and formation of C1 –C2 primary intermediates of n-heptane/air mixture in a micro flow reactor with a controlled temperature profile , 2018, Combustion Science and Technology.
[3] Alberto Mannu,et al. Variation of density and flash point in acid degummed waste cooking oil , 2018 .
[4] Peter R. Hooper,et al. Investigation into a stepped-piston engine solution for automotive range-extender vehicles and hybrid electric vehicles to meet future green transportation objectives , 2018 .
[5] E. Rahim,et al. Experimental evaluation of physicochemical properties and tapping torque of hexagonal boron nitride in modified jatropha oils-based as sustainable metalworking fluids , 2018 .
[6] M. Abolarin,et al. Differential air/fresh charge demand, supply and utilisation in two-stroke spark ignition engines , 2017 .
[7] M. Yusoff,et al. Performance and emission characteristics of a spark ignition engine fuelled with butanol isomer-gasoline blends , 2017 .
[8] H. Masjuki,et al. A review on bio-based lubricants and their applications , 2017 .
[9] Santiago Molina,et al. Analysis of the potential of a new automotive two-stroke gasoline engine able to operate in spark ignition and controlled autoignition combustion modes , 2017 .
[10] Surbhi Jain,et al. Sustainability of a non-edible vegetable oil based bio-lubricant for automotive applications: A review , 2017 .
[11] S. Sundararajan,et al. Lubricant Properties of ω − 1 Hydroxy Branched Fatty Acid-Containing Natural and Synthetic Lipids , 2017, Tribology Letters.
[12] Y. Singh,et al. RETRACTED ARTICLE: Sustainability of Moringa-oil–based biodiesel blended lubricant , 2017 .
[13] Y. Singh,et al. RETRACTED ARTICLE: Tribological characteristics of Mongongo-oil–based biodiesel blended lubricant , 2017 .
[14] Muhammad Zulfattah Zakaria,et al. EFFECT OF PH TOWARDS HYDROGEN GAS OUTPUT OF A SMALL AND PORTABLE ALKALINE ELECTROLYSER , 2015 .
[15] Maria Antonietta Costagliola,et al. Emissions of Fine Particles and Organic Compounds from Mopeds , 2009 .
[16] P. Spezzano,et al. Particle- and gas-phase emissions of polycyclic aromatic hydrocarbons from two-stroke, 50-cm3 mopeds , 2008 .
[17] W. Allan,et al. Further Development of a Smoke Sensor for Diesel Engines , 2003 .
[18] S. Lomakin,et al. Pyrolysis and Carbonization of Cross-Linked Poly(methyl methacrylate) , 1995 .
[19] E. Tomita,et al. Spark discharge ignition process in a spark-ignition engine using a time series of spectra measurements , 2017 .
[20] Haji Hassan Masjuki,et al. Lubricity of bio-based lubricant derived from different chemically modified fatty acid methyl ester , 2016 .
[21] Haji Hassan Masjuki,et al. Effect of alcohol–gasoline blends optimization on fuel properties, performance and emissions of a SI engine , 2015 .
[22] Shamsul Anuar Shamsudin,et al. Comparison of Soot Particle Movement Based on Crank Angle , 2013 .
[23] G. Martini,et al. Chemical characterization of emissions from modern two-stroke mopeds complying with legislative regulation in Europe (EURO-2). , 2010, Environmental science & technology.
[24] Godwin A. Ayoko,et al. Under Water Emissions from a Two-Stroke Outboard Engine-A Comparison between an EAL and an Equivalent Mineral Lubricant , 2003 .
[25] J. Gurdon. Further Development , 1967, Nature.