• Title/Summary/Keyword: lubricity

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Development of additives for DME as a renewable energy (신재생에너지로서 DME 연료의 첨가제 개발)

  • Jang, Eunjung;Park, Cheonkyu;Yim, Eui-Soon;Jung, Choong-Sub;Lee, Bonghee
    • 한국신재생에너지학회:학술대회논문집
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    • 2011.05a
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    • pp.178.1-178.1
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    • 2011
  • DME is generally expected to be used as a promising clean alternative fuel to diesel fuel. DME is not natural product but a synthetic product that is produced either through the dehydration of methanol or a direct synthetic from syngas. As DME has no carbon-carbon bond in its molecular structure and is an oxygenate fuel, it's combustion essentially generates no soot. DME has such cetane number of 55~60 that it can be used as a diesel engine fuel. However, DME has low lubricity but a proven method to solve the poor lubricity is by adding lubricity improver. Therefore, the aim of this study is to develop lubricity improver of DME as a transport fuel in Korea. In this study, we investigated a possibility of fatty acid ester compounds as a candidate to improve DME lubricity as compared with current lubricity improver of diesel. We also evaluated quality characteristics, storage stability of DME with lubricity additives.

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The study of lubricity for various biodiesel using HFRR (HFRR을 이용한 다양한 바이오디젤의 윤활성 분석연구)

  • Lim, Young-Kwan;Kim, Dong-Kil;Yim, Eui-Soon
    • Tribology and Lubricants
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    • v.25 no.2
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    • pp.125-131
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    • 2009
  • Biodiesel produced from triglyceride which is main component of animal fats and vegetable oils by methanolysis was known for excellent lubricity. In this study, the lubricity of 12 kinds of biodiesel come from vegetable oils were analyzed using HFRR(High frequency reciprocating rig). The biodiesel synthesized from soybean oil has best lubricity by $153{\mu}m$ of wear scar in HFRR and used fried oil's biodiesel has slightly low lubricity by $299{\mu}m$. Also we have found that the lubricity of diesel was improved when mixing ratio of soybean biodiesel was increased in base diesel.

Lubricating Characteristics of Diesel Fuel (경유의 윤활특성)

  • 신성철;강익중
    • Tribology and Lubricants
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    • v.16 no.5
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    • pp.332-340
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    • 2000
  • The reduction of sulfur content in the diesel fuel has caused the poor lubricity of diesel fuel in the distributor type injection pumps of diesel engines that use the diesel for lubrication of their moving parts. To investigate the reason for poor lubricity of low sulfur diesel fuels, the wear scar diameters by HFRR (High Frequency Reciprocating Rig) were measured on the diesel fuels from Korean markets and the results were compared with their physical and chemical properties. Also, the lubricity change and the improvement effects on lubricity additives for the ultra low sulfur diesel fuel, were made experimentally, that will be regulated to a maximum of 0.005 wt% from about 2005 were evaluated. As a result, a good correlation was found between the wear scar diameter and the polyaromatic compound which includes heterocyclic compound in the diesel fuel. It was also found that the content of polyaromatic compound including heterocyclic compound was affected by the amount of desulfurization treatment fraction. And the lubricity additives with ester base were more effective than that with acid base on the ultra low sulfur diesel fuel. Therefore, it is suggested that the factors affecting the lubricity stated above should be taken into account to improve the lubricity property of the diesel fuel in the refining process.

The Lubricity of Biodiesel as Alternative Fuel (대체연료로서 바이오디젤의 윤활성)

  • Lim, Young-Kwan;Lee, Cheon-Ho
    • Tribology and Lubricants
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    • v.26 no.1
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    • pp.78-87
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    • 2010
  • Biodiesel have been studied as alternative fuel due to solution of air pollution and fossil fuel exhaustion. Biodiesel from animal fat and vegetable oil was known as eco-friendly fuel like low toxicity, biodegradable compare to petrodiesel. In particular, biodiesel have excellent lubricity due to involved ester functional group. This paper shows the biodiesel's lubricity based on worldwide biodiesel research.

Mechanism of Lubricity Improvement by Biodiesels (바이오디젤 윤활성 향상 메커니즘)

  • Lim, Young-Kwan;Lee, Jae-Min;Kim, Jong-Ryeol;Ha, Jong-Han
    • Tribology and Lubricants
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    • v.32 no.3
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    • pp.95-100
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    • 2016
  • As an alternative fuel, biodiesel has excellent lubricating property. Previously, our research group reported that the properties of biodiesels depended on their composed molecular structure. In this study, we investigate lubricity and the mechanism of lubricity improvement of synthesized biodiesel molecules. We synthesize four types of biodiesel components from fatty acid via fisher esterification and soybean biodiesel from soybean oil via transesterification in high yield (92-96%). We analyze the lubricity of the five 5 types of biodiesel using HFRR (high frequency reciprocating rig). We estimate that the mechanism of lubricity is relevant to the molecular structure and structure conversion of biodiesel. The test results indicate that the longer the length of molecules and the higher the content of olefin, the better the lubricity of the biodiesel molecules. However, the wear scar size of the first test samples’ do not show a regular pattern with the wear scar size of the second test samples’. Moreover, we investigated the structure conversion of the biodiesels by using GC-MS for the recovered biodiesel samples from the HFRR test. However, we do not detect structure conversion. Thus, we conclude that the lubricity of biodiesel depends on how effectively solid adsorption and boundary lubrication occurs based on the size of the molecule and the content of olefin in the molecule. In addition, HFRR test condition in not sufficient for Diels-Alder cyclization of biodiesel components.

The Effect of Lubricity Improvement by Biodiesel Components (바이오디젤 구성성분에 따른 윤활성향상 효과)

  • Lim, Young-Kwan;Park, So-Ra;Kim, Jong-Ryeol;Yim, Eui-Soon;Jung, Choong-Sub
    • Applied Chemistry for Engineering
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    • v.21 no.6
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    • pp.684-688
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    • 2010
  • Biodiesel produced from the reaction of methanol and triglyceride which is the main component of animal fats and vegetable oils is known for remarkable lubricity. In this study, the lubricity of 3 kinds of biodiesel came from vegetable oils such as soybean oil, palm oil, and perilla oil and 2 kind of biodiesel which were produced from beef tallow and pork lard were analyzed using HFRR (High frequency reciprocating rig). In HFRR test result, the lubricity of perilla and soybean's biodiesel was higher than other biodiesels. After analysis of biodiesel components by GC-MS and determination of the lubricity of pure biodiesel components using HFRR, it was found that a higher olefin content and long alkyl chaining biodiesel had an excellent lubricity property.

Wear, Oxidation and Shear Characteristics of Mixed Lubricating Oil (Mineral/Vegetable oil) with ZnDTP (ZnDTP를 첨가한 혼합윤활유(광유/식물성 오일)의 마모, 산화 및 전단 특성)

  • Lim, TaeYoon;Kim, YangHoe;Na, Byung-Ki
    • Tribology and Lubricants
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    • v.34 no.4
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    • pp.160-167
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    • 2018
  • Vegetable oils can contribute to the goal of energy independence and security owing to their naturally renewable resources. One of the representative vegetable oils is biodiesel, which is being used in domestic and European markets as a blended fuel with automotive diesel. Vegetable oils are promising candidates as base fluids to replace petroleum lubricants because of their excellent lubricity and biodegradability. We prepared biodiesel with a purity of 99.9% via the esterification of waste cooking oil. Blended biodiesel and Petro-lube base oil were mixed to produce five types of mixed lubricating oil. We analyzed the various characteristics of the blended biodiesel with Petro-lube base oil for different blending ratios. The lubricity of the vegetable lubricant improves as the content of biodiesel increases. In addition, since zinc dialkyldithiophosphates (ZnDTPs) are widely used as multifunctional additives in petroleum-based lubricants, we optimized the blending ratio for lubricity, oxidation stability, and shear stability by adding ZnDTP as a performance additive to improve the biodiesel properties, such as oxidation stability and hydrolysis. The optimized lubricants improve by approximately 25% in lubricity and by 20 times in oxidation stability and shear stability after the addition of ZnDTP.

Lubricity Characterization of Hydrogenated Biodiesel as an Alternative Diesel Fuel (경유 대체연료로서 수첨바이오디젤의 윤활 특성 연구)

  • Kim, Jae-Kon;Jeon, Cheol-Hwan;Yim, Eui-Soon;Chung, Choong-Sub
    • Tribology and Lubricants
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    • v.28 no.6
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    • pp.321-327
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    • 2012
  • Paraffin bio-based hydrotreated biodiesel(HBD) is originated from vegetable oil(the process can also be applied to animal fat) with the the chemical structure $C_nH_{2n+2}$. In the number of process of the oil or fat, the hydrogenation is significantly important to create a bio-based diesel fuel. This study is focused on lubricity characteristics of BTL diesel blends to use alternative diesel fuel in Korea. The BTL diesel are blended the different volume ratios (HBD 5(5 vol.% HBD - 95 vol.% diesel), HBD 10, HBD 20, HBD 30, HBD 40 and HBD 50. HBD with paraffin compounds showed a very high centane number, low sulfur content and free aromatic compound. Especially, the wear scar of HBD showed poor lubricity compared to automotive diesel due to the fuel composition, low sulfur content and free aromatic compound. Also, the lubricity specification of automotive diesel with different six HBD blends is within the limit by the Korean standards. Finally, HBD as an alternative diesel fuel is challengeable in transportation sector of Korea.

Study on Lubrication Characteristics of Lubrication for Lubricity Improver in Dimethyl Ether (디메틸에테르에 첨가된 윤활성향상제의 윤활특성에 관한 연구)

  • Park, Cheonkyu;Jang, Eunjung;Jung, Choongsub;Lee, Bonghee;Na, Byungki
    • Tribology and Lubricants
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    • v.29 no.2
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    • pp.117-123
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    • 2013
  • Dimethyl ether (DME) has a high cetane number that is suitable for diesel fuel. DME does not contain sulfur or nitrogen, and is an oxygenated fuel so it produces no particulate matter when combusted and is environmentally friendly. DME fuel for diesel engines show excellent material properties such as a lower volumetric heating value, lower boiling point, lower lubricity, and stronger solvent effect than light oil. This study experimentally examined a lubricity improver (LI) for dimethyl ether. A diesel LI based on biodiesel and fatty acid methyl ester was tested among DME LI candidates. The long-term storage stability and physical properties of the optimum LI for DME were determined.

The Lubricity of GTL Fuel by Additives (첨가제 혼합에 따른 GTL연료의 윤활성)

  • Lim, Young-Kwan;Jung, Choong-Sub;Kim, Jong-Ryeol;Yim, Eui-Soon
    • Tribology and Lubricants
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    • v.26 no.3
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    • pp.190-198
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    • 2010
  • GTL(gas-to-liquid) fuel produced by the Fischer-Tropsch process using carbon monoxide(CO) and hydrogen(H2) is expected to be one of the environmental friendly fuel for alternative and blended to petrodiesel. But GTL have poor lubricity due to paraffin as main component of GTL which is not involve polar materials. In this paper, we had investigated the lubricity improvement of GTL fuels with various lubricants using HFRR(high frequency reciprocating rig).