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1.
乌桕梓油脂肪酸组成分析 总被引:1,自引:0,他引:1
乌柏是我国四大木本油料之一,种子含油量高,乌桕梓油是由种仁榨取所得的液体油脂,是轻工业、食品和国防等行业的重要油源。乌桕梓油甲酯化后,利用100 m×0.25 mm的GC毛细管柱,气相色谱法测定乌桕梓油的脂肪酸组成。测定结果表明:乌桕梓油中饱和脂肪酸占10.68%,以棕榈酸含量最高,占7.52%。不饱和脂肪酸占89.13%,单不饱和脂肪酸占18.63%,以油酸含量最高,占14.55%;多不饱和脂肪酸占70.50%;其中含量最高的为人体所必需的脂肪酸亚油酸和α-亚麻酸,分别占30.77%和39.30%。还含有相当数量天然植物中少有的奇数碳原子脂肪酸十一烷酸,占0.29%。其中月桂烯酸(占3.19%)和十一烷酸未见报道。 相似文献
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建立了分析越南安息香种子油、果实和果壳的脂肪酸组成的在线甲基化-气相色谱法。将微克级的安息香样品与2μL衍生化试剂三甲基氢氧化硫(0.2 mol/L)加入裂解器,在350℃下瞬间反应,由气相色谱在线检测到8种脂肪酸甲酯成分,主要有棕榈酸( C16∶0)、硬脂酸( C18∶0)、油酸( C18∶1)、亚油酸( C18∶2)和亚麻酸( C18∶3),不饱和脂肪酸含量在84.5%以上,其中亚油酸含量最高,达47.29%。5次平行测定的相对标准偏差( RSD)小于3.81%。并结合相似性分析法比较了4种不同产地的安息香种仁与6种食用油的脂肪酸组成,相似性结果表明不同产地的安息香种仁的脂肪酸组成相似,其脂肪酸组成与食用植物油相近,与玉米油的组成分布最为接近,相似系数在0.987~0.990,且越南安息香种子中人体必需的多不饱和脂肪酸含量( C18∶2和C18∶3)与大豆油和葵花籽油相近,高于一般植物油,具有较高的营养价值。结果表明该法简便、快速、准确,适合越南安息香种子油脂的测定。 相似文献
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对印楝和苦楝2个亲本采用体细胞融合技术杂交形成的7年生杂交楝进行了果实含油量测定,并对其籽油进行了脂肪酸组成分析。结果表明:果皮和果肉含油量较低,分别为 1.65% 和 1.53%;种仁含油量较高,为 39.20%。种仁经提取获得籽油后进行甲酯化处理,再进行GC-MS分析,共检测出6种脂肪酸。它们是亚油酸(C18:2)67.00%、油酸(C18:1)18.03%、棕榈酸(C16:0)8.96%、硬脂酸(C18:0)3.94%、花生酸(C20:0)0.35% 和未知脂肪酸 1.72%;其中不饱和脂肪酸占 85.03%。杂交楝种仁含油量比苦楝高出1.6个百分点。 相似文献
5.
从油脂稳定性、脂肪酸组成和分布等品质方面对山茶籽油、小麦胚芽油和乳木果油3种植物油脂进行了初步研究,结果显示:3种植物油脂的脂肪酸分布差异不大,但各个脂肪酸含量差异较大。对饱和脂肪酸,乳木果油的含量(58.39%)远高于小麦胚芽油(18.68%)和山茶籽油(14.54%);对不饱和脂肪酸,山茶籽油(85.07%)和小麦胚芽油的含量(80.25%)远高于乳木果油(37.93%);油脂稳定氧化性依次为乳木果油(5.63 h)山茶籽油(2.55 h)小麦胚芽油(2.11 h)。依据综合评分公式对三种植物油脂进行肤感模糊综合评价比较,得到肤感评价综合评分H值依次为:山茶籽油(3.93)乳木果油(3.75)小麦胚芽油(3.63)。结果表明:这三种植物油脂肤感评价均属于中等到良好之间,山茶籽油是三种植物油脂中肤感最佳的。 相似文献
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以湖南西部不同产地山核桃为试材,采用索氏提取法和GC-MS分析法,测定了8个不同产地(吉首、龙山、古丈、凤凰、麻阳、靖州、永定、慈利)山核桃仁中脂肪含量及其油脂中脂肪酸组成,并进行差异性和相关性分析。结果表明:山核桃仁中的脂肪含量在55.86%~61.57%,平均值为58.87%;山核桃油中共检测出棕榈酸、棕榈油酸、硬脂酸、油酸、亚油酸、α-亚麻酸、花生酸和二十碳烯酸8种脂肪酸,以油酸含量(67.01%)最高,其次为亚油酸23.9%、棕榈酸4.48%、硬脂酸2.42%、α-亚麻酸1.91%,其他脂肪酸含量较低,不饱和脂肪酸平均含量达到93.01%;主要脂肪酸含量差异程度依次为:油酸α-亚麻酸亚油酸棕榈酸硬脂酸,但含量差异不显著。 相似文献
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分析了4种不同来源污泥的热解油中16种EPA-PAHs生成分布,并探讨了污泥原样中自由赋存PAHs和污泥泥质特性(碳含量、H/C摩尔比、O/C摩尔比及挥发分含量等)的影响。结果表明,4种来源污泥热解油中均不同程度包含16种EPA-PAHs,∑EPA-PAHs含量分布次序为:工业印染污泥热解油(21.72 mg·kg-1)>生活污泥热解油(14.10 mg·kg-1)>造纸污泥热解油(13.72 mg·kg-1)>食品污泥热解油(5.48 mg·kg-1),且以低环(2R)和中环(3R和4R)PAHs为主,其总量占∑EPA-PAHs的95%以上。热解油中PAHs含量高低与污泥自身赋存的自由PAHs含量具有一定关联;泥质特性对热解油中EPA-PAHs含量分布也呈现了不同程度影响,随着污泥泥质特性变化,3R和4R-PAHs含量变化规律较相似,均在碳含量为30.96%、H/C摩尔比为1.1、O/C摩尔比为0.33和挥发分为35.5%时达到最高水平;2R-PAHs含量在碳含量为20.75%、H/C摩尔比为1.44、O/C摩尔比为0.6和挥发分为46.3%时达到最高水平。 相似文献
11.
Shivanand Payamalle Smita Shinde Kadanthottu Sebastian Joseph Sonal Mutakekar Manisha Murgude Rakesh Tawadare Hosakatte Niranjana Murthy 《Journal of the American Oil Chemists' Society》2016,93(2):295-297
The physicochemical and fatty acid compositions of seed oil extracted from Thunbergia fragrans were determined. The oil content, free fatty acids, peroxide value, saponification value and iodine value were 21.70 %, 2.25 % (as oleic acid), 9.6 (mequiv. O2/kg), 191.71 (mg KOH/g) and 127.84 (g/100 g oil) respectively. The fatty acid profiles of the methyl esters showed the presence of 90.16 % unsaturated fatty acids and 9.84 % saturated fatty acids. Palmitoleic acid, which is usually found in marine foods and is unique in seed oils of botanical origin, was the major component (79.24 %). The oil can also be used in industries for the preparation of liquid soaps, shampoos and alkyd resin. 相似文献
12.
Nasirullah S. F. Siddiqi F. Ahmad A. A. Ansari S. M. Osman 《European Journal of Lipid Science and Technology》1980,82(6):241-243
Seeds from eight species were analysed by standard procedures for oil and protein contents. The fatty acid composition of the oils was determined by GLC. Five species were found to contain oils above 20% and none of them is rich in protein. Some of the oils have a composition fairly similar to the oils at present in common use. Five seed oils are interesting in having more than 50% of saturated acids of the total fatty acids. T. involucrata seed seems to be a promising species because of its high oil and linoleic acid (61.7%) contents. 相似文献
13.
木本油料脂肪酸组成、提纯及其应用研究进展 总被引:1,自引:0,他引:1
木本油料是我国传统工业油料,应用领域广泛,可作为优质的食用植物油的来源,也可作为生产生物柴油的原料,并且还被用于饲料添加剂和化妆品行业。木本油料中C12~C18不饱和脂肪酸含量高,易被人体吸收,不同提取技术(压榨法、水酶法、超声波辅助法、浸出法等)对木本油料的脂肪酸组成及含量的影响较小。本文对橡胶籽油、核桃油、椰子油、山苍子核仁油、牡丹籽油、油茶籽油和棕榈油等7种木本油料的资源量、应用情况做了简单介绍,并综述了7种木本油料的脂肪酸组成及其提取纯化技术,重点介绍了木本油料中的中长碳链不饱和脂肪酸的提纯技术,并对提纯后的月桂酸、油酸、亚油酸、亚麻酸的应用进行了综述和展望。 相似文献
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Survey of seed oils for use as diesel fuels 总被引:2,自引:0,他引:2
Piyaporn Kalayasiri Narumon Jeyashoke Kanit Krisnangkura 《Journal of the American Oil Chemists' Society》1996,73(4):471-474
Fifty-one out of 364 plant seeds being surveyed had fatty acid contents greater than 15% (dry weight), and their methyl esters
had cetane indices higher than 50. Rambutan seed was an exception, with a lipid content of only 14.7%, but a high cetane index
(67.1); thus, it was included in this report. Twenty seed oil methyl esters had cetane indices greater than 60. Three seed
oils from the Sapindaceae family not only had high cetane indices but also contained long-chain fatty acids of 20 carbon atoms.
Gross heats of combustion of the fatty acid methyl esters were slightly higher than those of neat oil, ranging from 38.2 to
40.8 j/g, whereas the heating values of the oils ranged from 37.4 to 40.5 j/g. Thus, these plant seed oils have great potential
for development as diesel fuel or diesel fuel extender. 相似文献
16.
Effects of Variety,Maturation and Growing Region on Chemical Properties,Fatty Acid and Sterol Compositions of Virgin Olive Oils
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Dilsat Bozdogan Konuskan Burcu Mungan 《Journal of the American Oil Chemists' Society》2016,93(11):1499-1508
Chemical properties, fatty acid and sterol compositions of olive oils extracted from Gemlik and Halhal? varieties grown in Hatay and Mardin provinces in Turkey were investigated during four maturation stages. The olive oil samples were analyzed for their chemical properties such as free acidity, peroxide value, total carotenoid, total chlorophyll, total phenolic contents, antioxidant activity, fatty acid and sterol compositions. Chemical properties, fatty acids and sterol profiles of olive oil samples generally showed statistically significant differences depending on the varieties, maturation and growing areas (p < 0.05). As free fatty acid contents and total phenolic contents increased, total carotenoid and chlorophyll contents decreased throughout the maturity stages. Total carotenoid and chlorophyll contents of oil samples from Mardin were higher than those of Hatay. The total phenolic compounds of olive oil samples ranged from 20.62 in Gemlik to 525.22 mg GAE/kg oil in Halhal? from Hatay. In general, the phenolic contents and antioxidant activities of olive oil samples were positively associated. Oleic acid content was the highest 71.53 % in H1 samples in Hatay. Total sterol contents were 1194.33 mg/kg in Halhal? and 2008.66 mg/kg in Gemlik from Hatay. Stigmasterol contents of oils obtained from Hatay were lower than those of Mardin. Oleic acid, palmitic acid, β‐sitosterol, ?‐5‐avenasterol and campesterol contents fluctuated with maturation for each of variety from both growing regions. These results showed that the variety, growing area and maturation influence the chemical properties, fatty acid and sterol compositions. 相似文献
17.
A. H. El-Tamimi M. M. Morad M. S. Raof A. H. Rady 《European Journal of Lipid Science and Technology》1979,81(7):281-284
Tomato seed oil was investigated to study their components of fatty acids, stability and hydrogenation conditions. The estimation of the fatty acids of tomato seed oil from Ace variety and tomato seed oil extracted from local waste in comparison with cotton seed oil (the most familiar edible oil in Egypt) - Giza 69 variety - extracted by n-hexane and oil obtained by pressing shows that more than 50% of the total fatty acids are linoleic. Palmitic acid was found in a range between 20% to 29% and oleic acid was in a range between 13% to 18%. Other fatty acids like stearic, arachidic, and linolenic acid were less than 3%. The induction periods (at 100°C) for oils of fresh, roasted and stored tomato seeds were found to be 7, 10, and 5 hours respectively. The hydrogenation conditions of crude tomato seed oil were 180°C, 3 kg/cm2 and 0.2% nickel catalyst for three hours of hydrogenation to reach a melting point of 50.7°C and an iodine value of 42. 相似文献
18.
Evaluation of the Triglyceride Composition of Pomegranate Seed Oil by RP‐HPLC Followed by GC‐MS
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Mustafa Topkafa Huseyin Kara Syed Tufail Hussain Sherazi 《Journal of the American Oil Chemists' Society》2015,92(6):791-800
Triglyceride composition and fatty acid profiles of pomegranate seed oil were evaluated by newly developed methods in reverse‐phase‐high performance liquid chromatography (RP‐HPLC) and gas chromatography (GC), respectively. Different compositions of the mobile phase (acetone and acetonitrile) and flow rates for the HPLC system were used to obtain better separation for accurate quantitative analysis. Triglycerides with conjugated fatty acids (CLnAs) were eluted in order of the polarity of their geometrical isomers (c, t, c < t, t, c < t, t, t). The dominant triglyceride was found to be PuPuPu (32.99 %) in pomegranate seed oil, followed by PuPuCa and PuCaCa containing punicic acid and catalpic acid with total triglyceridelevels of 27.72 and 10.11 %, respectively. For fatty acid composition analysis, triglyceride fractions were derivatized into their respective methylesters which were injected into gas chromatography‐mass spectrometry (GC‐MS) to identify and gas chromatography‐flame ionization detector (GC‐FID) to quantify the conjugated fatty acids of each fraction of triglycerides. Punicic acid was found to be dominant (76.57 %) followed by catalpic acid (6.47 %) and β‐eleotearic acid (1.45 %). Pomegranate seed contained greater amounts of conjugated linolenic acids. These results showed that the present study provides more information about the composition of the triglyceride and fatty acid profiles of pomegranate seed oil compared to the reported studies. Therefore, the developed methods in this study can be used for the identification of the triglyceride and fatty acid composition for pomegranate seed oils and some such specials edible oils including CLnA isomers. 相似文献
19.
Hyun H. Oh Keum T. Hwang Min K. Shin Hee K. Lee Sung Z. Kim 《Journal of the American Oil Chemists' Society》2007,84(6):549-555
Seed and oil contents, and fatty acid compositions of oils of 20 caneberries grown in Korea were determined. Fatty acid compositions
of the oils were analyzed using GC for the extracted and methylated oils from the berry seeds. The seeds comprised 4–10% (w/w)
of the wet berries and accounted for 26–62% of the dry berries. Moisture and oil contents of the berry seeds were 8–17 and
13–28% (dry basis), respectively. More than 90% of the total fatty acids in the oils from the berry seeds were unsaturated.
Linoleic and linolenic acids comprised 49–70 and 13–34%, respectively, of the oils in the berry seeds. 相似文献
20.
Robert L. Wolff Laurent G. Deluc Anne M. Marpeau 《Journal of the American Oil Chemists' Society》1996,73(6):765-771
The seed oils from twenty-five Conifer species (from four families—Pinaceae, Cupressaceae, Taxodiaceae, and Taxaceae) have
been analyzed, and their fatty acid compositions were established by capillary gas-liquid chromatography on two columns with
different polarities. The oil content of the seeds varied from less than 1% up to 50%. Conifer seed oils were characterized
by the presence of several Δ5-unsaturated polymethylene-interrupted polyunsaturated fatty acids (Δ5-acids) with either 18
(cis-5,cis-9, 18∶2,cis-5,cis-9,cis-12 18∶3, andcis-5,cis-9,cis-12,cis-15 18∶4 acids) or 20 carbon atoms (cis-5,cis-11 20∶2,cis-5,cis-11,cis-14, 20∶3, andcis-5,cis-11,cis-14,cis-17 20∶4 acids). Pinaceae seed oils contained 17–31% of Δ5-acids, mainly with 18 carbon atoms. The 20-carbon acids present
were structurally derived from 20∶1n-9 and 20∶2n-6 acids. Pinaceae seed oils were practically devoid of 18∶3n-3 acid and did
not contain either Δ5-18∶4 or Δ5-20∶4 acids. Several Pinaceae seeds had a Δ5-acid content higher than 50 mg/g of seed. The
only Taxaceae seed oil studied (Taxus baccata) had a fatty acid composition related to those of Pinaceae seed oils. Cupressaceae seed oils differed from Pinaceae seed
oils by the absence of Δ5-acids with 18 carbon atoms and high concentrations in 18∶3n-3 acid and in Δ5-acids with 20 carbon
atoms (Δ5-20∶3 and Δ5-20∶4 acids). Δ5-18∶4 Acid was present in minute amounts. The highest level of Δ5-20∶4 acid was found
inJuniperus communis seed oil, but the best source of Δ5-acids among Cupressaceae wasThuja occidentalis. Taxodiaceae seed oils had more heterogeneous fatty acid compositions, but the distribution of Δ5-acids resembled that found
in Cupressaceae seed oils. Except forSciadopytis verticillata, other Taxodiaceae species are not interesting sources of Δ5-acids. The distribution profile of Δ5-acids among different
Conifer families appeared to be linked to the occurrence of 18∶3n-3 acid in the seed oils. 相似文献