• 한국자원리싸이클링학회:학술대회논문집
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• 한국자원리싸이클링학회 2005년도 추계정기총회 및 제26회 학술발표대회 고분자리싸이클링기술 특별심포지엄
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• pp.47-58
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• 2005

온도변화에 따른 볏짚의 열분해 생성물의 분포와 생성물의 화학적 구성을 알아보기 위하여 볏짚의 열분해 실험을 진행하였다. 열분해 온도는 약 466, 504, $579^{\circ}C$사이에서 진행하였다. 유동화 가스로는 생성가스를 사용하였으며 유량은 30L/min을 사용하였다. 볏짚의 열분해 결과 기체, 액체, 고체 물질을 얻을 수 있었다. 기체물질은 GC(TCD, FID)를 이용하여 성분 조성을 분석하였다. 액체물질은 상등액과 tar로 분리하여 발열량, 원소분석, 수분, GC/MS를 통해 화학구성성분을 분석하였다. 고체물질은 원소분석, 발열량을 측정하였다. 액체물질의 화학특성 분석결과 연료뿐만 아니라 화학 원료물질로서의 사용가능성을 볼 수 있었다.

• Tribology and Lubricants
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• 제31권5호
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• pp.195-204
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• 2015

Several researches are focused on improving the value of fine chemicals based on biomass resources due to environmental and other concerns associated with the use of petroleum-based products. Therefore, the synthesis and application of estolides derived from plant-based waste oil materials and their application as lubricants and as processing oil for butyl rubber products have been studied. Four kinds of estolide were prepared with conversions of 71~92% over 24h using various vegetable oils, as determined by size exclusion chromatography (SEC) and nuclear magnetic resonance (NMR) spectroscopy. FT-IR spectroscopy determines the esterification of estolides using 2-ethylhexyl alcohol. The estolides have iodine values of 35~90, α-ester/α-acid ratios of 0.45~0.55, and total acid number of 114~134 mg KOH g^–1. Four ball wear tests show that the wear scar diameters (WSDs) of estolides as base oil significantly decreased to 0.328~0.494 mm, compared to WSDs of 0.735 and 0.810 mm of WSD for 150N and Yubase 6, respectively, as general base oil. Thus, the estolides have better wear resistance and satisfying design objectives for the engineering of a variety of lubricant base oils.

• Journal of Biosystems Engineering
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• 제37권6호
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• pp.429-433
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• 2012

Purpose: While rapeseed oil, soy bean oil, palm oil and waste cooking oil are being used for biodiesel, the viscosity of them should be lowered for fuel. The most widely used method of decreasing the viscosity of vegetable oil is to convert the vegetable oil into fatty acid methyl ester but is too expensive. This experiment uses ultrasonic energy, instead of converting the vegetable oil into fatty acid methyl ester, to lower the viscosity of the waste cooking oil. Methods: For irradiation treatment, the sample in a beaker was irradiated with ultrasonic energy and the viscosity and temperature were measured with a viscometer. For heating treatment, the sample in a beaker was heated and the viscosity and temperature were measured with a viscometer. Kinematic viscosity was calculated by dividing absolute viscosity with density. Results: The kinematic viscosity of waste cooking oil and cooking oil are up to ten times as high as that of light oil at room temperature. However, the difference of two types of oil decreased by four times as the temperature increased over $83^{\circ}C$. When the viscosity by the treatment of ultrasonic energy irradiation was compared to one by the heating treatment to the waste cooking oil, the viscosity by the treatment of ultrasonic energy irradiation was lower by maximum of 22% and minimum of 12%, than one by the heating treatment. Conclusions: Ultrasonic energy irradiation lowered the viscosity more than the heating treatment did, and ultrasonic energy irradiation has an enormous effect on fuel reforming.

• Journal of Biosystems Engineering
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• 제21권4호
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• pp.467-473
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• 1996

Ultrasonic energy was applied for atomizing rice-bran oil which is a highly viscous bio fuel. Six different nozzles, an injection simulator, and an ultrasonic generator system were designed and constructed for the experiment. An immersion liquid method was used for the measurement of injection droplet sizes. The characteristics of injection droplets was investigated with respect to the numbers of the droplets with diameters ranging from 5$\mu$m 50$\mu$m and to the Sauter mean diameter. The results showed that the ultrasonic energy was effective for the improvement of the atomization of the injection droplets for all the factors such as type of nozzles, nozzle opening pressures, and collection distances.

• Natural Product Sciences
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• 제25권2호
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• pp.150-156
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• 2019

Conventional extraction of oil and azadirachtin, a botanical insecticide, from Azadirachta indica involves defatting the seeds and leaves using hexane followed by azadirachtin extraction with a polar solvent. In order to simplify the process while maintaining the yield we explored a binary extraction approach using Soxhlet extraction device and hexane and ethanol as non-polar and polar solvents at various ratios and extraction times. The highest oil and azadirachtin yields were obtained at 6 h extraction time using a 50:50 solvent mixture for both neem leaves (44.7 wt%, $720mg_{Aza}/kg_{leaves}$) and seeds (53.5 wt%, $1045mg_{Aza}/kg_{leaves}$), respectively.

• Journal of the Korean Wood Science and Technology
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• 제34권6호
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• pp.36-43
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• 2006

유동형 급속열분해기 (fluidized bed type fast pyrolyzer, 용량 400 g/h)를 이용하여 너도밤나무와 침엽수 혼합재(독일가문비나무/전나무, 50:50) 에서 바이오오일을 생산하였다. 목질바이오매스의 열분해는 약 $470{\pm}5^{\circ}C$에서 1~2초 동안 진행되었다. 목질바이오매스의 열분해 생성물의 조성은 너도밤나무의 경우 바이오오일 60%, 탄 9% 그리고 가스가 31% 정도 생산되었으며, 침엽수 혼합재는 바이오일 49%, 탄 9%, 그리고 42% 가량의 가스가 생성되었다. 두 종류의 목질바이오매스에서 생산된 바이오오일의 수분함량은 약 17~22%이었으며, 밀도는 수종에 관계없이 $1.2kg/{\ell}$이었다. 바이오오일의 원소 조성은 탄소 45%, 산소 47%, 수소 7%, 그리고 질소 1%로 일반적인 목질바이오매스와 큰 차이는 없는 것으로 나타났다. 그러나 화석자원에서 생산되는 오일류와 비교하여 바이오일은 산소함량이 매우 높았고 황은 전혀 포함되어 있지 않았다. 바이오오일의 GC 분석 결과 총 90여종의 방향족(aromatic) 또는 비방향족(non-aromatic) 저분자량 화합물이 검출되었으며 이들의 함량은 바이오오일 전건중량의 31~33%로 분석되었다.

• 한국응용과학기술학회지
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• 제27권4호
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• pp.522-530
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• 2010

We developed functional synthetic lubricant for internal combustion engine oil, which would improve engine oil performance for internal combustion engine and extend engine life. We made base oil by synthesizing nonanoic acid, 1.1.1-trimethylol propane (which has good bio-degradability) and pentaerythrytol ester. We synthesized catalyst using p-toluene sulfonic acid 0.15 wt% and coloring-prevention agent hypo-phosphorus acid 0.18 wt% at 180-$190^{\circ}C$. Reaction temperature was increased at the rate of $10^{\circ}C$ for every 1 hour. When acid value reached below 3, reaction was completed. After cooling and deoxidization, we washed it by distilled water two times. After dehydration and filtering, we obtained trimethylol propane tripelargonate (TMTP) and pentaerythrytol tetrapelargonate (PETP) at yields of 96 % and 98 % respectively.

• 동력기계공학회지
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• 제6권3호
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• pp.11-16
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• 2002

This paper describes the power performance and emission characteristics of the high speed direct injection diesel engine (2.9 litter displacements) driven by soybean oil asknown a bio diesel fuel. The results were compared to diesel fuel with blending bio diesel fuels. The soybean bio diesel fuel was added in the diesel fuel in concentration varying from 25% to 75% volume rates. We measured the emissions according to ECE 13 mode and full load, fixedengine speed. When the 25% bio diesel fuel was used, NOx emission at the ECE 13 mode test slightly decreased compared with diesel base engine. Over engine speed of 2000 rpm, the level of unburned hydrocarbon(HC) and carbon monoxide(CO) were the same to the diesel engine. Smoke emission decreased asthe blending bio diesel fuel rate increased.

• The Plant Pathology Journal
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• 제23권2호
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• pp.97-102
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• 2007

A total of 39 essential oils were tested for antifungal activities as volatile compounds against five phytopathogenic fungi at a dose of 1 ${\mu}l$ per plate. Five essential oils showed inhibitory activities against mycelial growth of at least one phytopathogenic fungus. Origanum vulgare essential oil inhibited mycelial growth of all of the five fungi tested. Both Cuminum cyminum and Eucalyptus citriodora oils displayed in vitro antifungal activities against four phytopathogenic fungi except for Colletotrichum gloeosporioides. The essential oil of Thymus vulgaris suppressed the mycelial growth of C. gloeosporioides, Fusarium oxysporum and Rhizoctonia solani and that of Cymbopogon citratus was active to only F. oxysporum. The chemical compositions of the five active essential oils were determined by gas chromatography-mass spectrometry. This study suggests that both E. citriodora and C. cyminum oils have a potential as antifungal preservatives for the control of storage diseases of various crops.

• Journal of Animal Science and Technology
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• 제48권4호
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• pp.521-532
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• 2006

본 실험은 대두유 또는 아마유를 in vitro 방법으로 배양 할 때, 탄수화물원의 첨가수준이 반추위 박테리아에 의한 bio-hydrogenation과 CLA 생성에 미치는 효과를 조사하였다. 4수준(0%, 0.3%, 0.6% 그리고 0.9%, w/v)의 혼합된 탄수화물원(glucose, cellobiose, soluble starch, 1:1:1, w/w/w)과 두 종류의 oil을 cellulose powder에 흡착시킨 형태로 각각 60mg씩 인공타액(120ml)과 반추위액(30ml)이 혼합된 배양액(150ml)에 넣은 다음 39℃에서 12시간동안 혐기적으로 배양하였다. 배양액의 pH와 암모니아 농도는 두 종류 oil을 첨가한 배양액 모두에서 탄수화물원의 첨가 수준이 높을수록 pH와 암모니아 농도가 낮았다(P<0.05). 탄수화물원의 첨가 수준이 증가할수록 total VFA 생성량 역시 증가되었으나(P<0.01) 첨가한 oil 간의 차이는 없었다. 배양시간이 경과됨에 따라 탄수화물원의 첨가수준이 높을수록 propionate의 조성비율이 증가된 반면(P<0.001) acetate와 butyrate의 조성비율은 감소되었다. 배양 후 3시간이 경과하였을 때 배양액 내 oleic acid의 조성비율은 대두유에 비하여 아마유를 첨가한 배양액에서 낮았으나(P<0.001) linoleic acid의 비율은 높았다(P<0.001). 이와는 달리 탄수화물원의 수준이 증가될수록 stearic acid(P<0.05), CLA(P<0.01) 및 cis-9, trans-11 CLA(P<0.001)의 조성비율은 감소되었으나, linoleic acid의 조성 비율은 증가되었다(P<0.05). Linolenic acid의 조성비율에 있어서는 첨가된 oil의 종류와 첨가된 탄수화물원의 수준간의 상호작용이 있는 것으로 나타났는데(P<0.001), 12시간의 배양종료 후 대두유 첨가구에 비해 아마유 첨가구에서 stearic acid(P<0.01), oleic acid(P<0.001), 그리고 trans-11C18:1(P<0.01)의 조성비율이 감소된 반면, linoleic acid(P<0.001)와 linolenic acid(P<0.01)의 조성비율은 증가되었다. 탄수화물원의 첨가수준이 증가될수록 stearic acid와 총 CLA의 조성비는 감소되었으나(P<0.01), trans-11-C18:1(P<0.05)와 linoleic acid(P<0.01)의 조성비율은 증가되었다. 배양 12시간 후 배양액 내의 oleic acid (P<0.05), linoleic acid(P<0.05) 및 linolenic acid(P<0.01)의 조성비율에 있어서는 첨가한 oil의 종류와 첨가한 탄수화물원의 수준간의 상호작용이 있었는데, 탄수화물원의 첨가수준이 감소됨에 따라 cis-9, trans-11 CLA와 trans-10, cis-12 CLA의 조성비 역시 감소되는 경향이었으나 첨가한 oil의 종류에 대한 영향은 거의 받지 않았다. 본 실험의 결과를 종합해 볼 때, 탄수화물의 첨가수준과 oil의 첨가는 반추미생물의 bio-hydrogenation 작용 및 CLA 생성에 영향할 수 있는 것으로 여겨진다.