2018
DOI: 10.1080/00102202.2018.1515830
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Optimization of Combustion and Emission Characteristics of a two-Stroke Marine Diesel Engine Based on Online Ultrasonic and Magnetization of Marine Heavy Fuel Oil

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Cited by 1 publication
(2 citation statements)
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“…Byrnes et al [38] extended the data reported by Costa et al [36,37] by using a rotary cup atomizer to generate HFO spray flames and measured the flame temperature along with the gas emissions (O2, CO, CO2, NOx and PM) under a wider range of operating conditions such as swirl numbers, primary air to fuel ratios and atomizer cup speeds. Villasenor et al [39] experimentally measured the effect of perpendicular secondary air jets on HFO flames in a cylindrical 500kW furnace by directing the secondary air jets close to the edge of the initial combustion stage and found 70% reduction in NO and 100% reduction in CO. A recent study by Zeng et al [12] investigated the effects of ultrasonic waves and magnetization on the combustion and emission performance of HFO in a twostroke diesel engine and found that the engine fuel consumption rate decreased by 1.5%. CO2 and CO emissions reduced while NO emissions increased slightly due to the fuel's online exposure to ultrasonic waves and magnetization effects.…”
Section: Accepted Manuscript N O T C O P Y E D I T E Dmentioning
confidence: 99%
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“…Byrnes et al [38] extended the data reported by Costa et al [36,37] by using a rotary cup atomizer to generate HFO spray flames and measured the flame temperature along with the gas emissions (O2, CO, CO2, NOx and PM) under a wider range of operating conditions such as swirl numbers, primary air to fuel ratios and atomizer cup speeds. Villasenor et al [39] experimentally measured the effect of perpendicular secondary air jets on HFO flames in a cylindrical 500kW furnace by directing the secondary air jets close to the edge of the initial combustion stage and found 70% reduction in NO and 100% reduction in CO. A recent study by Zeng et al [12] investigated the effects of ultrasonic waves and magnetization on the combustion and emission performance of HFO in a twostroke diesel engine and found that the engine fuel consumption rate decreased by 1.5%. CO2 and CO emissions reduced while NO emissions increased slightly due to the fuel's online exposure to ultrasonic waves and magnetization effects.…”
Section: Accepted Manuscript N O T C O P Y E D I T E Dmentioning
confidence: 99%
“…Oxygenates like methanol, ethanol, dimethyl ether etc. have been blended with HFO to reduce the PM emissions [12,13]. HFO combustion also results in the inevitable release of other pollutant gases like CO, CO2 and NOx which are characteristic emissions of all fossil fuel combustion.…”
Section: Introductionmentioning
confidence: 99%