Performance of Flammability and NO_X Emission in Premixed Oil Burner Using Ultrasonic Atomization
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概要
- 論文の詳細を見る
In the combustion of low vapor pressure liquid fuel, it is necessary for instantaneous ignition to preheat the liquid fuel evaporator at any required time. For example, in the kerosene vaporizing type boiler for home use, electric power is consumed in the preheating kerosene vaporization to supply hot water, even on standby. To avoid the preheating process by electric power during the standby period, the technology that can vaporize liquid fuel instantaneously needs to be developed. From this viewpoint, the application of the ultrasonic atomization was proposed to ignite liquid fuel without any heating process. Similar trials had already been done but no stabilized combustion was accomplished by ultrasonic atomizing, using an MHz frequency.In this work, a kerosene pre-mixed burner equipped with a 1.7-MHz ultrasonic oscillator was manufactured and the characteristics of the atomization of kerosene, stable combustion region and NOx emission on this ultrasonic atomization burner are examined. The relatively quick ignition with a few seconds delay was realized. The atomization of kerosene was obtained at the rate of 0.75 g/min, which is proportional to the time and the average kerosene droplet size, 3.1 μm, produced by 1.7 MHz ultrasonic oscillation. 0.54 kW load was obtained by using this combustor. Stable combustion was obtained around 0.7 in the equivalence ratio. The stable combustion was defined as [CO]/[CO2] < 0.002 for combustion exhaust gas. 23 ppm of low NOx emission (O2 0% base) is accomplished in the stable combustion region as it can provide the balance between both primary and secondary air flow rates.
- 社団法人 化学工学会の論文
- 2003-07-01
著者
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Hasatani M
Department Of Energy Engineering & Science Nagoya University
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Hasatani Masanobu
Department Of Energy Engineering & Science Nagoya University
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KOBAYASHI Noriyuki
Department of Ecotopia Science Institute, Nagoya University
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FUSE Takuya
Department of Energy Engineering and Science, Nagoya University
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KOBAYASHI Noriyuki
Center for Integrated Research in Science and Engineering, Nagoya University
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Fuse Takuya
Department Of Energy Engineering And Science Nagoya University
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Kobayashi Noriyuki
Department Of Ecotopia Science Institute Nagoya University
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Hasatani Masanobu
Department Of Chemical Engineering Nagoya University
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Hasatani Masanobu
Mechanical Engineering Aichi Institute Of Technology
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Kobayashi N
Center For Integrated Research In Science And Engineering Nagoya University
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