• Title/Summary/Keyword: Cetane number

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A Study on Injector Durability Test with Diesel and BD20 Using Common Rail (커먼레일을 이용한 디젤과 BD20 연료가 인젝터에 미치는 영향에 관한 연구)

  • JEONG, YUNHO;LIM, OCKTAECK
    • Journal of Hydrogen and New Energy
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    • v.26 no.5
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    • pp.393-401
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    • 2015
  • The characteristics of diesel and biodiesel are similar like as cetane number and auto-ignition temperature. High cetane number of diesel and BD could make possible to compression ignition. but BD showed different atomization from diesel due to component like density, viscosity and iodine value etc. Because of this, the biodiesel requires validation. This study using diesel and BD20 investigated effect to durability injector. Durability test were used common rail and bosch solenoid type 5-hole injector. Total test was 672hr but actual running time was 200hr. Spray experiments for spray characteristics were carried out using constant volume combustion chamber. Spray characteristics of diesel and BD showed different result up to durability test time. After 100hr, diesel showed spray shapes were stable but BD was not. After 200hr, difference of diesel and BD spray shapes were grow serious.

COMBUSTION VISUALIZATION AND EMISSIONS OF A DIRECT INJECTION COMPRESSION IGNITION ENGINE FUELED WITH BIO-DIESOHOL

  • LU X.;HUANG Z.;ZHANG W.;LI D.
    • International Journal of Automotive Technology
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    • v.6 no.1
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    • pp.15-21
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    • 2005
  • The purpose of this paper is to experimentally investigate the engine pollutant emissions and combustion characteristics of diesel engine fueled with ethanol-diesel blended fuel (bio-diesohol). The experiments were performed on a single-cylinder DI diesel engine. Two blend fuels were consisted of $15\%$ ethanol, $83.5\%$ diesel and $1.5\%$ solublizer (by volume) were evaluated: one without cetane improver (E15-D) and one with a cetane improver (E15-D+CN improver). The engine performance parameters and emissions including fuel consumption, exhaust temperature, lubricating oil temperature, Bosch smoke number, CO, NOx, and THC were measured, and compared to the baseline diesel fuel. In order to gain insight into the combustion characteristics of bio-diesohol blends, the engine combustion processes for blended fuels and diesel fuel were observed using an Engine Video System (AVL 513). The results showed that the brake specific fuel consumption (BSFC) increased at overall engine operating conditions, but it is worth noting that the brake thermal efficiency (BTE) increased by up to $1-2.3\%$ with two blends when compared to diesel fuel. It is found that the engine fueled with ethanol-diesel blend fuels has higher emissions of THC, lower emissions of CO, NOx, and smoke. And the results also indicated that the cetane improver has positive effects on CO and NOx emissions, but negative effect on THC emission. Based on engine combustion visualization, it is found that ignition delay increased, combustion duration and the luminosity of flame decreased for the diesohol blends. The combustion is improved when the CN improver was added to the blend fuel.

FUEL PROPERTIES AND EMISSIONS CHARACTERISTICS OF ETHANOL-DIESEL BLEND ON SMALL DIESEL ENGINE

  • Xu, B.Y.;Qi, Y.L.;Zhang, W.B.;Cai, S.L.
    • International Journal of Automotive Technology
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    • v.8 no.1
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    • pp.9-18
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    • 2007
  • Phase separation and low cetane number are the main barriers to the large-scale use of ethanol-diesel blend fuel on small diesel engines. In this paper, an additive package is designed on the basis of the blended fuel properties to overcome these limitations. The experiments show that the solubility of ethanol in diesel is evidently increased by adding $1{\sim}2%$ (in volume) of the additive package and the flammability of ethanol-diesel blend fuel with the additive has reached the neat diesel level under the cold start conditions. Effects of the ethanol content in diesel on fuel economy, combustion characteristics, and emission characteristics are also investigated with the ethanol blend ratios of 10%, 20% and 30%. The increase in ethanol content shows that the specific fuel consumption and the brake thermal efficiency are both gradually increased compared to neat diesel. The soot concentrations of the three blended fuels are all greatly lower than that of neat diesel. $NO_x$ emission is increased with an increase in the engine load and is reduced with the increase in the ethanol blend ratio under a high load.

An Experimental Study on the Emission Characteristics of GTL Fuel with Injection Timings in CRDi Single Cylinder Engine (커먼레일 단기통 엔진에서 GTL 연료의 분사시기 변화에 따른 배출물 특성)

  • Kim, Byoung-Jun;Lee, Yong-Gyu;Choi, Kyo-Nam;Jeong, Dong-Soo;Cha, Kyung-Ok
    • Transactions of the Korean Society of Automotive Engineers
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    • v.16 no.1
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    • pp.181-187
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    • 2008
  • Recently, alternative fuels are drawing more attentions due to the increasing need for lower emission characteristics and fuel consumption rate in automotive engines. The GTL(gas to luquid) is the one of most favored candidates. It has higher cetane number(more than 75) and almost negligible sulphur and aromatic contents. Therefore, enhanced emission characteristics are expected even in the application in diesel engines without any modification. In this study, the cylinder pressure and heat release, emission characteristics with fuel injection timings are compared between diesel and GTL fuel in the single cylinder diesel engine. Noticeable reduction in PM, THC and CO emission are observed due to lower sulphur and aromatic contents in GTL. Also, the ignition delay decreased due to higher cetane number of GTL, which slightly decreased the amount of NOx emissions. With the retards of main injection timing, NOx decreases more for the case of GTL, while the level of THC and CO emissions still remains lower than the case of diesel. Therefore, there is much room for the control of injection timing for NOx reduction without sacrificing THC and CO emissions. With the retards of main injection timing, Small size distribution of PM became lager and there amount increased. But from all conditions, size distribution of PM for the case GTL was lower than Diesel.

Determination of Fuel Properties for Blended Biodiesel from Various Vegetable Oils (다양한 식물성오일로부터 생산된 바이오디젤의 혼합에 따른 연료특성 분석)

  • Lim, Young-Kwan;Jeon, Cheol-Hwan;Kim, Shin;Yim, Eui Soon;Song, Hung-Og;Shin, Seong-Cheol;Kim, DongKil
    • Korean Chemical Engineering Research
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    • v.47 no.2
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    • pp.237-242
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    • 2009
  • Various type of alternative fuel have been developed due to exhaustion of fossil fuel reserves and high oil price. Biodiesel is produced from the reaction of triglyceride, which is main component of animal fat and vegetable oil, and methanol by methanolysis as it is known for eco- friendly fuel for alternative petrodiesel. In this work, it was analyzed for the characteristics of the blended biodiesel with domestic petrodiesel according to blending ratio. Density, kinematic viscosity and flash point were increased with increasing the content of biodiesel. But the characteristic of blended biodiesel fuel were changed to aggravate in low temperature. Also, the derived cetane number(DCN) from IQT was increased by added biodiesel. Especially, the DCN of biodiesel from palm oil showed 71.26.

Characteristic Analysis of GTL Fuel as an Automobile Diesel (자동차용 경유로서 GTL의 연료특성분석)

  • Lim, Young-Kwan;Shin, Seong-Cheol;Kim, Jong-Ryeol;Yim, Eui-Soon;Song, Hung-Og;Kim, Dongkil
    • Applied Chemistry for Engineering
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    • v.19 no.6
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    • pp.617-623
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    • 2008
  • GTL (gas-to-liquid) fuel produced by the Fischer-Tropsch reaction of carbon monoxide (CO) and hydrogen ($H_2$) is expected to be one of the environmental friendly biomass based alternatives and blended to petrodiesel. In this study, the characteristic of the fuel was analyzed by its concentration differences after blending petrodiesel in domestic market with different amounts of GTL fuel which produced from Shell. Gas chromatography shows that GTL fuel consists of longer paraffin chain than common diesel. GTL fuel showed a high flash point, distillation, kinematic viscosity, and derived cetane number. In addition, GTL fuel showed lower lubricity due to low sulfur content.

Combustion and Emission Characteristics of High-Compression-Ratio Diesel Engine Fueled with Bio Oil-Ethanol Blended Fuel (바이오 오일-에탄올 혼합 연료의 고압축비 디젤엔진에서의 연소 및 배기특성)

  • Kim, Tae Young;Lee, Seok Hwan;Jang, Young Woon;Kim, Ho Seung;Kang, Kern Yong
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.38 no.6
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    • pp.501-511
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    • 2014
  • Bio-oil derived from biomass through fast pyrolysis process has the potential to displace a significant amount of petroleum fuels. However, the use of bio-oil in a diesel engine is very limited because of its poor properties, e.g., its low energy density, low cetane number, and high viscosity. Therefore, bio-oil should be emulsified or blended with other fuels that have high centane numbers. Because bio-oil has poor miscibility with petroleum fuels, the most suitable candidate fuels for direct mixing are alcohol fuels. In this study, bio-oil was blended with ethanol, and two types of cetane improvers were added to a blended fuel to improve the self-ignition property. The two types of cetane improvers, PEG 400 and 2-EHN, made it possible for bio-oil blended fuels to combust in a diesel engine with a maximum bio-oil content of 15 wt%. A high-compression-ratio piston is also proposed for the combustion of bio-oil in a diesel engine.

A Computational Study on DME HCCI Combustions Characteristics with Methanol Concentrations (DME HCCI 운전조건에서 Methanol 분율에 따른 HCCI엔진연소 특성에 관한 수치해석적 연구)

  • Lee, Hyowon;Lim, Ocktaeck;Park, Kyuyeol;Cho, Wonjun;Baek, Youngsoon
    • Journal of Hydrogen and New Energy
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    • v.25 no.1
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    • pp.79-86
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    • 2014
  • In Dimethyl Ether (DME) indirect production processes, DME have a reforming process to separate Methanol. DME has a high cetane number and Methanol has a high octane number. Each fuel has a different combustion characteristics and reactivity. So, this paper was investigated on the combustion characterisitics of DME and Methanol. Basically, Methanol has a effect of retarding ignition. However, Within 10% of total carbon mole number in DME, Methanol slightly changed the onset timing of Low Temperature Reaction (LTR) with increasing thermal-ignition preparation range. It means that controlling combustion phasing of DME can be possible without eliminated LTR. In case of IMEP, the ranges.

The Study of Fuel Properties for Biodiesel Derived from Duck's Oil (오리기름으로부터 합성된 바이오젤의 연료특성 연구)

  • Lim, Young-Kwan;Lee, Cheon-Ho;Jung, Choong-Sub;Yim, Euisoon
    • 한국신재생에너지학회:학술대회논문집
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    • 2010.11a
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    • pp.103.2-103.2
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    • 2010
  • Biodiesel was well known for eco-friendly alternative fuel for petrodiesel. But biodiesel have disadvantage such like it was derived from food resource which was high price. In this study, We synthesized the biodiesel from duck's oil which was food trash via transesterification under base catalyst. After analytic result of density, kinematic viscosity, cold temperature characteristics, lubricity and cetane number which were main fuel characteristics, this duck's biodiesel have enough to fuel specification for except of domestic winter season.

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