超临界二氧化碳萃取亚麻籽油的研究

采用半连续流程以亚麻籽（含水率5％,含油率47％）为原料,超临界CO2为溶剂萃取亚麻籽油。探讨了操作压力,温度,时间,CO2流量及亚麻籽破碎情况对萃取的影响。用国家标准分析了不同萃取条件下得到的亚麻籽油,用GC－MS分析了亚麻籽油的组成,亚麻酸是主要成分,超临界萃取得到的亚麻籽油可作为高质量的保健食用油。     

生姜的超临界CO2提取分离工艺的研究

本文研究了超临界CO2流体萃取生姜的工艺,探讨了萃取压力、温度扣时问等因素对生姜萃取率的影响,通过正交实验确定了生姜超临界CO2流体萃取最佳工艺：生姜原料切成薄片,含水率15％以下,萃取条件为压力24Mpa、温度40℃、时间2h。     

肾叶天胡荽精油的超临界CO2萃取、成分分析及杀虫活性初探

采用正交实验设计,对肾叶天胡荽（Hydrocotyle wigordi Maxim．）精油超临界CO2萃取条件进行了优化,并用GC—MS分析技术对精油的化学成分进行了鉴定,初步探讨了肾叶天胡荽精油对小菜蛾2龄幼虫的触杀活性。结果表明,肾叶天胡荽精油超临界CO2萃取的最佳条件为萃取压力35MPa、萃取温度50℃、解析压力5MPa、解析温度40℃、萃取时间75min、CO2流量34—36L·h^-1,精油得率最高可达5．32％。从精油中共鉴定出19种成分,总相对含量达到89．266％,主要成分为邻苯二甲酸二辛酯（64．302％）。用超临界CO2萃取技术提取的肾叶天胡荽精油对小菜蛾2龄幼虫有一定的触杀作用,20g·L^-1精油对小菜蛾2龄幼虫的24h校正死亡率高达90．00％。     

均匀设计法优选芝麻油提取新工艺

本文通过超临界CO2提取芝麻油的均匀设计实验和微波和超声波诱导提取芝麻油的正交实验比较,考察影响提取的主要因素,寻求最佳萃取工艺。超临界CO2萃取最佳工艺条件为：压力32MPa,温度60℃,CO2流量31kg／h,萃取时问80min,得率46．39％;微波萃取最佳工艺条件为：溶剂为丙酮,物料与溶剂比例1：7,辐射时间7min,辐射功率810W,得率23．01％。超声波萃取最佳工艺条件为：物料与溶剂比例1：7,溶剂为石油醚,浸泡时间30h,得率23．99％。结果表明超临界CO2萃取芝麻油品质最好,而且萃取也最高,质量最稳定。     

石榴籽油的提取及成分分析

采用正交试验方法研究了超临界CO_2萃取石榴(Punica granatum L)籽油的技术体系,并用气相色谱-质谱联用仪对石榴籽油的化学成分进行了分析。结果表明,超临界CO_2萃取石榴籽油的最佳工艺条件为:萃取压力25 MPa,萃取温度30℃,分离温度55℃,萃取时间70min,在此条件下油脂产率为20.4%。GC-MS分析的结果显示,石榴籽油的主要成分是脂肪酸。饱和脂肪酸以棕榈酸为主,不饱和脂肪酸主要是亚麻酸和亚油酸,占脂肪酸总量的86.86%。     

超临界CO2萃取鱼腥草的挥发油成分

从萃取的压力、温度、流量和时间等条件探讨超临界CO2萃取对鱼腥草(Houttuynia cordata Thunb.)挥发油萃取率的影响,确定最佳萃取条件为萃取压力20mPa、温度35℃、CO2流量40kg/h和萃取时间80min,鱼腥草挥发油得率为1．76％。而水蒸气蒸馏提取和石油醚提取的得率分别为0．05％和0．08％。超临界CO2法萃取的鱼腥草挥发油收率高,萃取时间短。     

天然产物活性成分新型结晶纯化技术初探

鉴于天然产物中活性成分含量低,结晶性组分易堵塞管道等问题,本文以30％穿心莲内酯浸膏原料为例,通过超临界CO2萃取结晶技术来提高穿心莲内酯晶体的含量。结果发现：在温度55℃,时间90min,流量15L／min时,当萃取结晶压力超过20MPa后,穿心莲内酯的纯度超过80％,并采用HPLC分析实验结果。新型超临界CO2萃取结晶技术为开发高纯天然产物活性成分提供一条捷径。     

超临界CO2萃取百合花挥发油的工艺研究

本文介绍了超临界CO2萃取百合花中挥发油的提取分离工艺,重点研究了超临界CO2萃取压力、温度、时间对出油率的影响。正交试验结果表明：影响超临界CO2萃取的主要因素为C3〉A2〉B2（A为萃取压力,B为萃取温度,C为萃取时间）;最佳工艺参数：SC-CO2萃取压力为18MPa,温度为50℃,时间为90min,流量为25L／min,所得百合花挥发油的出油率高达2．92％。     

超临界CO2萃取洋葱挥发油工艺研究

本实验采用超临界CO2萃取技术从冻干洋葱粉中萃取挥发油。以洋葱挥发油得率为考察指标,经单因素及正交试验,考察了萃取温度、萃取压力、CO2流量、萃取时间4个因素对超临界CO2流体萃取的影响。结果表明萃取压力20 MPa,萃取温度35℃,CO2流量为14 kg/h的条件下萃取2.5 h为最佳工艺,洋葱挥发油得率达0.53%。     

砂地柏种子油超临界CO2萃取技术研究

砂地柏(Sabina vulgaris Ant．)种子油是该植物主要的杀虫、杀菌活性组分。通过对砂地柏种子油的超临界CO2萃取工艺进行研究,得出较适宜的工艺条件为：采用先静态后动态的萃取方式,静态萃取时间10min;动态萃取条件为,萃取压力7000psi,萃取温度65℃,CO2流量为40mL／g;限流管温度80℃,用石油醚(沸程60-90℃)接受。初步认为SC-CO2萃取砂地柏种子油优于常规提取方法。同时对该技术工业化应用前景和可行性进行了分析探讨。     

Production and recovery of polyunsaturated fatty acids-added lipids from fermented canola

Canola flake was investigated as a potential substrate for fungal conversion to produce polyunsaturated fatty acids (PUFAs)-added oil in a 7l fermenter. The results showed that yields of total oil were reduced 9-22% compared to initial oil in the canola flake, but as high as 445mg/l arachidonic acid (ARA, C20:4n6) and 67mg/l eicosapentaenoic acid (EPA, C20:5n3) were produced. The percentages of ARA and EPA of total fatty acids in this fermented oil were 15.5% and 2.3%, respectively. Supercritical CO(2) extraction was then investigated for the lipid recovery from fermented canola flake, and extraction kinetics were modeled. The feasibility was demonstrated for production of PUFAs in a laboratory-scale fermentor using canola flake as a single nutrient, and for lipid extraction using supercritical CO(2).     

Rose hip (Rosa canina L.) oil obtained from waste hip seeds by different extraction methods

From the rose hip seed, which is generally a waste material, valuable oil can be obtained for medicinal use. Various extraction methods have been compared: traditional solvent extraction with ultrasound-, microwave-, sub- and supercritical fluid extraction (SFE). Unsaturated fatty acid (UFA: oleic-, linoleic- and linolenic acid; 16.25-22.11%, 35.94-54.75%, 20.29-26.48%) and polyunsaturated fatty acid (PUFA:linoleic- and linolenic acid) content were over 90% and 60% in the recovered oils. The oils contained different amounts of metals. The concentration of some metals, particularly iron in microwave oil (27.11 microg g(-1)) is undesirable from the aspect of stability. By traditional solvent extraction, oil was obtained in 4.85 wt/wt%. Subcritical FE appeared to be the best method for the recovery of rose hip oil with highest oil yield (6.68 wt/wt%), carotene- (145.3 microg g(-1)) and linoleic acid content (54.75%). Supercritical FE without organic solvent is suitable for mild recovery of oil. The oil was rich in UFA and PUFA (92.7% and 76.25%) and contained the lowest amount of carotene and pheophytin (36.3 and 45.8 microg g(-1)). Oil yield in most new extraction methods (microwave extraction, super- and subcritical FE) was higher than in the case of traditional Soxhlet extraction. The main benefit of supercritical FE with CO2 is the solvent free oil while in the case of other extractions evaporation of the solvent is needed. Although the content of bioactive compounds in oils was different, all oils may be appropriate for medicinal use.     

超临界CO_2和微波辅助萃取艾叶挥发油工艺的研究

通过超临界CO2萃取均匀设计实验和微波辅助萃取艾叶挥发油的正交实验比较,考察影响提取的主要因素,寻求最佳萃取工艺。超临界CO2萃取最佳工艺条件为:萃取压力16MP,萃取温度31℃,CO2流量20kg/h和时间80min,得率3.75%;微波萃取最佳工艺条件为:辐射功率720w,辐射时间200s,溶剂量400mL,洗涤剂量50mL,得率4.85%。水蒸馏法提取率为1.87%。结果表明超临界CO2和水蒸馏法萃取艾叶挥发油品质最好;微波萃取收率最高,但品质较差。     

千年桐种子油提取工艺研究及其主要脂肪酸成分分析

本文以氯仿、石油醚和正己烷-异丙醇(3:2,v/v)三种不同溶剂对千年桐种子油进行提取,比较了不同溶剂对种子出油率的影响,结果表明以氯仿为溶剂时出油率最高,达到了35％;并考查了提取时间和提取溶剂体积对出油率的影响.最终优化的提取工艺为:以氯仿为溶剂,液料比为12:1(v/w),提取时间6h,出油率达到了37％.提取的种子油经转酯化后,GC-MS分析其主要脂肪酸组分,结果表明千年桐种子油中总脂肪酸占总油酯的90.55％,其中棕榈酸3.87％,硬脂酸4.11％,亚油酸12.15％,油酸13.31％,亚麻酸12.09％,共轭亚麻酸51.20％和EPA(二十碳五烯酸)3.30％.千年桐种子油中富含不饱和脂肪酸,是一种良好的干性油.     

高速匀质-微波辅助提取红松籽油工艺及其品质评价

以红松籽仁为原料,以无水乙醇为提取溶剂,优化高速匀质-微波辅助提取红松籽油的工艺,考察了匀质速度、匀质时间、液料比、微波温度、微波功率及微波时间对红松籽油提取率的影响,最终确定了红松籽油最佳提取条件为：匀质速度12 000 r·min^-1,匀质时间120 s,液料比20 mL·g^-1,微波温度60℃,微波功率700 W,微波时间50 min。在上述条件下,红松籽油最优提取率可达60.3%。利用GC-MS对得到的红松籽油的脂肪酸成分进行了分析,其主要成分为棕榈酸、皮诺敛酸、亚油酸、反-13-十八碳烯酸、顺-13-十八碳烯酸、硬脂酸,不饱和脂肪酸含量高达85.55%,其中松籽油所含有的特异性不饱和脂肪酸-皮诺敛酸含量可达13.65%。此外,对该工艺提取得到的红松籽油的抗氧化活性及理化性质进行了评估,发现红松籽油清除DPPH自由基能力强,其IC₅₀值为0.095 4 g·mL^-1。此外,红松籽油过氧化值和酸值较低,碘值较高,表明红松籽油是一种品质优良的天然油脂。     

超临界CO_2萃取韭菜籽油成分的GC-MS分析

以索氏提取法为对照,采用超临界二氧化碳(SC-CO_2)萃取韭菜籽油,气相色谱-质谱联用技术(GC-MS)对韭菜籽油成分进行分析,NIST 02质谱数据库对其进行分析和鉴定.结果表明,SC-CO_2萃取压力为22.25 MPa、温度为40.40℃条件下萃取86.7 min时,萃取得率为17.52%,共分离鉴定出17种物质,其中,饱和脂肪酸以棕榈酸(6.25%)为主,占脂肪酸总量的 9.05%;不饱和脂肪酸主要是亚油酸(69.71%)和油酸(19.53%),占脂肪酸总量的90.50%.采用索氏提取得率为16.50%,共鉴定出10种物质,饱和脂肪酸以棕榈酸(7.22%)为主,占总脂肪酸量的9.84%;不饱和脂肪酸主要是亚油酸(69.34%)和油酸(20.12%),不饱和脂肪酸占脂肪酸总量的90.16%.另外SC-CO_2萃取韭菜籽油还检出单不饱和脂肪酸7-棕榈烯酸、角鲨烯和β-谷甾醇.     

小花假泽兰精油超临界CO_2提取工艺及其成分和抑菌活性研究

采用正交试验法研究超临界CO_2萃取法提取小花假泽兰精油的提取条件,采用GC-MS法分析测定精油的化学成分,并初步测定精油的抑菌效果.结果表明:超临界CO_2萃取小花假泽兰精油的较佳工艺条件为:采用先静态后动态的萃取方式,静态萃取时间20 min,动态萃取条件为萃取温度55℃,萃取压力35 Mpa,CO_2体积为40 mL/g,CO_2 流速为0.5～1.0 mL/min;从超临界CO_2萃取的小花假泽兰精油中鉴定了64种成分,占精油总量的79.80%,主要有萜类、醇类、脂肪酸、酯类、甾体类等;生物测定结果表明,超临界CO_2萃取物对小麦赤霉病菌和小麦纹枯病菌菌丝生长的EC_(50)分别为119.55 mg/L和78.27 mg/L. 果.结果表明:超临界CO_2萃取小花假泽兰精油的较佳工艺条件为:采用先静态后动态的萃取方式,静态萃取时间20 min,动态萃取条件为萃取温度55℃,萃取压力35 MPa,CO_2体积为40 mL/g,CO_2 流速为0.5～1.0 mL/min;从超临界CO2萃取的小花假泽兰精油中鉴定了64种成分,占精油总量的79.80%,主要有萜类、醇类、脂肪酸、酯类、甾体类等;生物测定结果表 ,超临界CO_2萃取物对     

响应面法优化超临界CO2萃取茉莉花蕾精油及抗氧化活性的研究

为研究超临界CO2萃取茉莉花蕾获得精油的最佳工艺及抗氧化活性,实现资源的综合利用。实验考察了夹带剂用量、原料颗粒大小、萃取压力、萃取温度和动态萃取时间对茉莉精油产率的影响,进一步以响应面实验设计优化挥发油的提取工艺参数,以GC-MS分析挥发油组成及相对含量,并测定精油清除DPPH自由基及还原铁离子能力。结果表明,最佳工艺参数为:夹带剂乙醇用量为0.2mL/g,花粉颗粒为40目,萃取压力20MPa,萃取温度46℃,动态萃取时间1.6h。在此条件下茉莉精油的产率为13.67%,远高于同时蒸馏萃取法(2.87%)和超声辅助提取(2.45%)。超临界萃取精油的主要香气成分与茉莉鲜花基本一致,并且具有较好的清除自由基和还原铁离子能力。实验证明超临界萃取技术提取茉莉花蕾得到茉莉精油品质高,可为其资源综合利用提供参考。     

响应面法优化微波辅助提取山苍子核仁油的研究

通过微波辅助提取技术结合响应面法优化山苍子核仁油提取条件,以期建立更高产率的提取方法。该研究在单因素设计基础上,选取液料比、微波功率、萃取时间、萃取温度4个主要因素,分析这4个因素对山苍子核仁油提取率的影响。结果表明:通过建立多元回归拟合分析,得出山苍子核仁油提取最佳工艺条件为液料比1∶16,萃取温度为69℃,微波功率为337 W,萃取时间为63 min,在此条件下山苍子核仁油提取率为37.42%,与环己烷溶剂回流法相比较提取率提高了30.11%。气质联用仪分析结果显示,山苍子核仁油主要成分有16种占总成分的88.21%,鉴定出10种脂肪酸占总成分的78.24%,饱和脂肪酸有4种占总成分的43.23%,不饱和脂肪酸有6种占总成分的35.01%,脂肪酸中含量最高的为月桂酸(31.36%)。该研究结果表明该方法严谨、可靠,采用微波辅助提取山苍子核仁油是可行的。     

Supercritical fluid extraction of lipids from the heterotrophic microalga Crypthecodinium cohnii

Microalgae biomass can be a feasible source of ω‐3 fatty acids due to its stable and reliable composition. In the present study, the Crypthecodinium cohnii growth and docosahexaenoic acid (DHA, 22:6ω3) production in a 100 L glucose‐fed batch fermentation was evaluated. The lipid compounds were extracted by supercritical carbon dioxide (SC‐CO₂) from C. cohnii CCMP 316 biomas, was and their fatty acid composition was analysed. Supercritical fluid extraction runs were performed at temperatures of 313 and 323 K and pressures of 20.0, 25.0 and 30.0 MPa. The optimum extraction conditions were found to be 30.0 MPa and 323 K. Under those conditions, almost 50% of the total oil contained in the raw material was extracted after 3 h and the DHA composition attained 72% w/w of total fatty acids. The high DHA percentage of total fatty acids obtained by SC‐CO₂ suggested that this extraction method may be suitable for the production of C. cohnii value added products directed towards pharmaceutical purposes. Furthermore, the fatty acid composition of the remaining lipid fraction from the residual biomass with lower content in polyunsaturated fatty acids could be adequate for further uses as feedstock for biodiesel, contributing to the economy of the overall process suggesting an integrated biorefinery approach.