• Title/Summary/Keyword: emulsion fuel

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Combustion Characteristics of Heavy Fuel Oil-water Emulsion

  • Kim Houng-Soo
    • Journal of Advanced Marine Engineering and Technology
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    • v.30 no.1
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    • pp.88-92
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    • 2006
  • This study is intended to check the flame temperature to raise in burning grade C heavy fuel oil and emulsion fuel oil in a boiler and to measure the concentration of Dry Shoot(DS) and Soluble Organic Fraction(SOF) after collecting the Particulate Matters (PM). The flames temperature in boiler was measured by burning grade C heavy oil and oil-water emulsion (C heavy oil $70\%\;and\;30\%$ of water) Combustion characteristics of two fuels was also compared by trapping particulate matters (PM) in exhaust gas and measuring the generated quantities of DS and SOF in fuel gas.

Production of Water/n-decane Emulsion Fuel and Evaluation of Rheological Stability (물/n-데칸 에멀젼 연료의 제조 및 유변학적 안정성 평가)

  • Kim, Hye Min
    • Journal of Aerospace System Engineering
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    • v.11 no.4
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    • pp.8-14
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    • 2017
  • In this study, the production of proper emulsion fuel and the evaluation of its rheological stability in various experimental conditions were carried out. The W/O (water-in-oil) emulsion fuel was made using n-decane, pure water, and Span 80 was used as a surfactant. Increments of water volume ratio and fuel temperature were the factors, which boosted the phase separation of the emulsion fuel. Rheological characteristics for different water/oil volume ratio, temperature, and elapsed time after the fuel production were examined. As the water volume ratio in the fuel increased, the behavior of non-Newtonian fluid was observed. Viscosity declined as the fuel temperature increased due to the cohesion of water droplets in the fuel. The effect of elapsed time on viscosity was not severe for lower water ratio. However, gradual decrease of viscosity 3 hours after fuel production, in the case of ratio of 3:7, was clearly observed.

Emission Evaluation of Emulsion Fuel Prepared from Bunker C Oil (벙커 C유를 사용한 에멀젼 연료유의 배기가스 특성)

  • Lim, HeungKyoon;Lee, MyungJin;Chi, Gyeong-Yup;Lim, JongChoo
    • Applied Chemistry for Engineering
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    • v.28 no.2
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    • pp.186-192
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    • 2017
  • In this study, water in oil (W/O) emulsion fuel was prepared with surfactant mixture of OIMS90 and NP12 by varying ratio of water to bunker-C oil, surfactant concentration and composition, emulsification time, stirring intensity, temperature and mixing time. Diesel engine performance and exhaust emissions were measured and analyzed with prepared emulsified fuel and compared with those measured using bunker Coil. The results indicated that bunker C emulsion fuel stabilized by surfactant mixture of OIMS90 and NP12 is efficient in reducing emissions of particulate matter, $NO_2$, CO, $CO_2$ and $SO_2$. The biggest reduction in exhaust emission was achieved by using emulsion fuel prepared by OIMS90/NP12 = 4 : 6, 500 ppm of total surfactant concentration and 10% water content at $80^{\circ}C$. Boiler efficiency test measured with emulsion fuel showed excellent energy efficiency compared with bunker C oil.

Emulsion Stability of Water/Oil Emulsified Fuel by associated with Emulsifiers (유화제 종류에 의한 Water/Oil 에멀젼 연료의 유화 안정성)

  • Kim, Moon-Chan;Lee, Chang-Suk;Park, Hea-Kyung
    • Journal of the Korean Applied Science and Technology
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    • v.25 no.3
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    • pp.395-403
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    • 2008
  • In this study, the characteristics of emulsified fuel were studied. The emulsified fuel which was composed of water and diesel was manufactured by using homogenizer and ultrasonic generator. The more the percentage of water contents increases, the more the density increases to the emulsified fuel. However, the viscosity increased in the 60% of water contents and decreased in the 70% of water contents because the O/W type was formed. The 3 minutes's ultrasonic waves during the irradiation time was appropriate of 16,000 rpm. And the energy density of ultrasonic waves was 87.5J/g. The emulsion stability has improved in the lower temperature, the lower percentage of water contents, and the most stable emulsion state was obtained from 20%(w/w) of water contents. Also, the emulsion stability was related to the HLB values of emulsifiers. Especially, the HLB values of emulsifier were appropriate from 4 to 7 values.

It's effects for engine emission of water/oil emulsified fuel (Water/Oil 에멀젼 연료가 배출가스에 미치는 영향)

  • Kim, Moon-Chan;Lee, Chang-Suk
    • Analytical Science and Technology
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    • v.21 no.3
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    • pp.159-166
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    • 2008
  • In this study, the characteristics of emulsified fuel and engine emissions were studied. Emulsified fuel which composed of water and diesel was manufactured by using homogenizer and ultrasonic generator. Engine emissions were studied whit engine dinamometer. In emulsified fuel, density and viscosity were increased with increasing water contents, but viscosity was decreased over 60% of water in emulsion fuel. The emulsion type of W/O changed to that of O/W over 60% of water in emulsion fuel. In the results of engine dinamometer test, NOx concentration and smoke density were reduced with increasing water contents in emulsified fuel but reciprocal in the case of THC, CO. Temperature and power were reduced with increasing water contents in emulsion fuel. In conclusion, it seemed that using emulsified fuel for diesel engine was effective for reducing NOx concentration and smoke density.

Experimental Study on Combustion of Boiler Fuel Made of Light-Oil and Bio-Oil (경유와 바이오오일 혼합연료의 연소에 대한 실험연구)

  • Yang, JeBok;Lee, InGu;Hwang, KyungRan
    • 한국연소학회:학술대회논문집
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    • 2012.11a
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    • pp.201-204
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    • 2012
  • Combustion characteristics of boiler fuels made of bio-oil and light-oil were experimentally investigated. Bio-oil was obtained by fast pyrolysis of woody biomass. Emulsion fuel made by mixing bio-oil (up to 30wt%) with light-oil and surfactant was completely burnt, resulting in the formation of combusted gas containing CO concentration less than 10ppm. Simple mixtures of bio-oil and light-oil with separate delivery lines also gave nice combustion characteristics.

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Effect on Characteristics of Exhaust Emissions by Using Emulsified Fuel in Diesel Engine (디젤기관에 있어서 에멀젼연료가 배기배출물 특성에 미치는 영향)

  • Cho, Sang-Gon;Hwang, Sang-Jin;Yoo, Dong-Hoon;Lim, Jae-Keun
    • Journal of Advanced Marine Engineering and Technology
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    • v.31 no.1
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    • pp.44-50
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    • 2007
  • Diesel engines have high thermal efficiency, and they have less CO & HC emissions than another engines. while NOx & Soot emissions are very much. compared with exhaust emission standards. However, the limit level is more and more strengthened yearly due to the importance of environmental protection. So, the optimal countermeasures for the reduction of NOx & Soot emissions below limit level are required. Therefore. the author has investigated the effects of emulsified fuel on the characteristics of exhaust emissions. using an four-cycle, four-cylinder and direct injection diesel engine because the using of emulsified fuel among various methods for reducing NOx & Soot emissions is simple in installation low in cost and high in efficiency. The results of investigation according to various operating conditions are as follows : 1) Specific fuel consumption increase maximum 19.8% at low load. but is not affected at full load. 2) In case of emulsion ratio 25%, NOx emission decrease 32% at 75% load. 30% at full load. 3) In case of emulsion ratio 25%, Soot emission decrease 84% at 75% load, 59% at full load.

A Numerical Study on Fuel Concentration Distribution in a FBC (유동층 연소로내 연료농도분포의 수치적 연구)

  • Lee, D.I;Park, S.H.;Shin, D.S.
    • Journal of the Korean Society of Combustion
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    • v.3 no.1
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    • pp.41-48
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    • 1998
  • A numerical study on combustion in a fluidized bed is based on three dimensional mixing and dispersion phenomena in the bed owing to the bubble growth in the vertical direction. As fluidizing velocities increase, bubble diameters increase, which activates the fuel dispersion in the bed. The combustion rates, however, reduce due to the decrease of gas exchange rates between bubble and emulsion phases. Fuel distributions in the bed are dependent on fluidizing velocities, equivalence ratios, fuel particle diameters, fuel feeding points, and the number of fuel feeders.

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A Study on Characteristics of Emulsified Fuel (유화연료의 특성에 관한 연구)

  • Jung, J.S.;Kim, J.J.;Lee, K.B.
    • 한국연소학회:학술대회논문집
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    • 1999.10a
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    • pp.105-110
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    • 1999
  • The elementary experiment was performed to develop the emulsified fuel production system using pressure injection nozzle in this study. The stabilities and characteristics of emulsified fuel which is produced through direct spray of water via pressure injection nozzle into oil are examined. To understand performance of emulsion production, stabilities of emulsified fuel which is made by adding water to the mixed fuel of Bunker-C and 10 $^{\sim}$ 50 vol% of heating oil were investigated. According to volume ratios of surfactant in heating oil the stability and SMDs were measured

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A Study on the Application of Marine Emulsion Fuel for Tier 3 Regulation (Tier 3 규제 대응을 위한 선박용 에멀젼 연료 적용성 연구)

  • Lee, Ki-Bong;Kim, Moon-Chan;Park, Hea Kyung
    • Journal of Korean Society of Environmental Engineers
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    • v.34 no.10
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    • pp.671-677
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    • 2012
  • In this study, the characteristics of emulsified fuel and engine emissions were studied with an engine dynamometer. In the results of physical property analysis, the margin of error of net calorific value and gross calorific value was ${\pm}0.5%$, were almost same theoretical calculation and results of physical property analysis test. In emulsified fuel, density and viscosity increased with increasing water contents. Emulsified fuel which is composed of water and Bunker-A was manufactured by using homogenizer and ultrasonic generator in $80^{\circ}C$. Phase separation did not take place in $20^{\circ}C$ and $50^{\circ}C$. In the results of engine dynamometer test, NOx concentration and smoke density were reduced with increasing water contents in using emulsified fuel. Total NOx could be reduced by about 41%, 10%, 32% and 28% at 1,000 rpm, 1,200 rpm, 1,500 rpm and 2,500 rpm respectively. Total smoke density was reduced to 42%, 65%, 70%, 62%, and 82% at 1,000 rpm, 1,200 rpm, 1,500 rpm, 2,000 rpm, and 2,500 rpm respectively.