超临界CO2萃取辣椒红色素的研究初探

简介了超临界CO₂流体的基本特性及国外将该流体应用于萃取分离技术的概况。报道了作者应用超临界CO₂从红辣椒中萃取红色素的研究情况。试验表明,色素和辣味素可以全部萃取出来,并可获得基本分离。     

超声强化超临界CO2萃取人参皂苷的研究

为了探讨超声波对超临界CO₂萃取(SCE)的影响，考察了在不同萃取温度、萃取压力、萃取时间和流体流量下，有、无超声时超临界CO₂萃取人参皂苷的萃取率。试验结果发现，超声强化超临界CO₂萃取(USCE)的合适萃取温度比没加超声(SCE)时的低10℃；在各自合适的萃取压力下，USCE的皂苷萃取率是SCE的1.64倍；CO₂流体的流量大更有利于USCE。在SCE中，超声的加入能明显提高产物的萃取率和生产效率，降低生产能耗和节     

超临界CO2流体萃取技术提取核桃油的研究

以新鲜的核桃仁为原料，研究了在超临界状态下物料的粉碎度、萃取压力、萃取温度、萃取时间对核桃油萃取效果的影响。结果表明，超临界CO₂流体萃取核桃油的最佳工艺条件为粉碎度30目、萃取压强30 MPa、萃取温度45℃、萃取时间5 h，此条件下核桃油的萃取率可达93.98%。     

超临界CO2萃取大蒜精油及油树脂的研究

研究了大蒜精油及油树脂的超临界CO₂提取工艺，探讨了粒度，萃取及分离的温度、压力和时间对各萃取率的影响，建立了萃取温度、压力与各萃取率的数学模型。确定了超临界CO₂同时提取大蒜精油及油树脂的优化工艺条件。     

裸大麦中生育三烯酚的超临界CO2流体萃取工艺

采用四元二次通用旋转设计研究了裸大麦中生育三烯酚的超临界CO₂流体萃取工艺。结果表明：萃取温度对生育三烯酚提取率有显著影响，乙醇添加量和萃取时间对生育三烯酚提取率有极显著影响，而萃取压力对生育三烯酚提取率无显著影响，但萃取压力和乙醇添加量的交互项对生育三烯酚提取率有显著影响；在本实验条件下，生育三烯酚最佳超临界CO₂萃取条件为：萃取温度51.8 ℃、萃取压力34.7 MPa、乙醇添加量9%、萃取时间 120 min。     

超临界CO2萃取万寿菊花中叶黄素的研究

采用超临界CO₂萃取技术,研究了从万寿菊花中萃取叶黄素的工艺条件。对影响超临界CO₂萃取叶黄素的各种因素,包括分离参数、原料含水率、粉碎粒径，超临界萃取温度、压力、流速、时间等因素进行了考察,得到较佳的萃取工艺条件为:原料含水率10.92％，粒径40目，萃取温度60℃，压力30 MPa，CO₂流速15 L/h，分离釜Ⅰ温度40℃，压力6 MPa，分离釜Ⅱ温度20℃，时间为6 h。     

用超临界CO2脱除绿茶浓缩液中咖啡碱的工艺研究

对绿茶浓缩液中咖啡碱的超临界CO₂萃取工艺进行了研究，通过4因素正交试验探讨了浓缩液的浓度、操作压强、操作温度、萃取时间对咖啡碱脱除率的影响。结果表明，超临界CO₂萃取技术可以有效地脱除绿茶浓缩液中大部分的咖啡碱，在此基础上完成了用超临界CO₂脱除绿茶浓缩液中咖啡碱的连续作业试验，从而获得了加工脱咖啡碱绿茶浓缩液或速溶绿茶的新工艺。     

生姜精深加工的研究

系统研究了我国传统香料植物——生姜的精深加工与利用。采用超临界CO₂流体技术萃取姜油树脂，研究了姜油树脂的物理性质、化学组成及生理活性成分。应用喷雾干燥技术对其进行微胶囊化处理，确定了最佳的工艺条件，并对微胶囊产品进行了质量评定。     

黄米醇溶蛋白脱色工艺研究

该文采用有机溶剂、颗粒活性炭、凝胶层析、超临界CO₂流体萃取等方法，研究了黄米醇溶蛋白的脱色效果及脱色后蛋白的回收率。结果显示甲苯脱色效果好，蛋白质回收率较高，但工艺繁琐，成本高；凝胶层析费时，而且处理量有限，在生产中会受到限制；颗粒活性炭成本低，脱色效果较好，工艺简单，可大量处理样品；超临界CO₂流体萃取在脱色效果和蛋白质回收率上都优于其他方法，且不需后处理即可直接得到脱色蛋白成品。因此，颗粒活性炭、超临界CO₂流体萃取脱色工艺适合于不同层次的无色黄米蛋白的工业化生产。     

超临界CO2流体萃取杏仁油工艺研究

该研究以单因素试验和正交试验相结合的方法对苦杏仁脂肪油的超临界CO₂萃取工艺进行了研究。确定了超临界CO₂萃取杏仁油的最佳工艺为：萃取压力35 MPa、萃取温度50℃、CO₂流量24 L/ｈ、粒径60目、萃取时间2 h。各因素影响杏仁的得率的顺序为：粒径>时间>萃取压力>CO₂流量>萃取温度。最佳工艺验证试验的杏仁油的得率为52.98％。本研究的结果为下一步综合、无毒、高效地开发利用苦杏仁奠定了基础。     

基于超临界CO2萃取技术的廿八碳醇富集研究

对于小麦胚芽油超临界CO₂提取过程中廿八碳醇的浓缩问题进行了研究。分析了小麦胚芽油中廿八碳醇的溶解度特性,提出了通过直接的超临界CO₂萃取和使用两级分离的途径提高所得小麦胚芽油中廿八碳醇的方法,以上试验均取得了一定效果。     

压力、温度对穿心莲内酯超临界CO2萃取-结晶的影响

以穿心莲浸膏为原料，进行了穿心莲内酯的超临界CO₂萃取结晶分离纯化。考察了单因素参数压力、温度对穿心莲内酯纯度、结晶量等的影响。结果表明：超临界CO₂萃取结晶穿心莲内酯的纯度在结晶板上呈梯度分布；在25 MPa以下，压力升高，结晶板上部晶体纯度升高，而结晶量先增后减；在结晶板下部穿心莲内酯的纯度和结晶量都是先升高后降低；温度在一定范围内能提高晶体纯度，且有利于缩短萃取结晶时间。     

不同提取方法对甘肃紫斑牡丹籽油品质的影响

为了对比冷榨法、溶剂浸出法、超临界CO₂萃取法3种提取方法所得紫斑牡丹籽油的品质,以甘肃紫斑牡丹籽为研究对象,从外观品质、出油率、理化特性及抗氧化能力方对3种方法提取的牡丹籽油品质进行观测。结果表明,采用溶剂浸提法提取的牡丹籽油得率最高,为27.27%;其次是超临界CO₂萃取法,为22.80%;冷榨法最低,为20.17%。采用超临界CO₂萃取法提取的牡丹籽油酸值和过氧化值低,抗氧化性能强,油品质量最高。采用冷榨法提取的牡丹籽油酸值低,品质较好,方法操作简单。3种提取方法各有特点,生产中可根据具体需求选择适用。     

环境CO2浓度增加对玉米生育生理及产量的影响

研究了盆栽玉米在700、600、500和350ppm的CO₂浓度处理下,生育、生理及产量形成的动态变化和反应。结果表明,CO₂浓度增加促进了玉米的生长和发育,物候期提前,光合速率增大,蒸腾系数减少,加快了根、茎、叶等干物质积累,提高了生物产量和经济产量。实验还表明:从苗期、抽雄、吐丝、乳熟到收获的各生育阶段,CO₂浓度对玉米的影响有所不同,以抽雄阶段影响最大;对植株的产量性状影响程度也不一致(穗>茎叶>根),收获指数也随CO₂浓度增加而有所提高。此外,CO₂浓度增加还可增强玉米抗短期高温(>40℃)和低光(常量的1/2)胁迫的能力。     

Effect of elevated carbon dioxide and water stress on gas exchange and water use efficiency in corn

CO₂ has been predicted to increase in the future, and thus leading to possible changes in precipitation patterns. The objectives of this study were to investigate water use and canopy level photosynthesis of corn plants, and to quantify water use efficiency in corn plants under two different CO₂ levels combined with four different water stress levels. Corn plants were planted in sunlit plant growth chambers and a day/night temperature of (28/18 °C) was applied. From 21 days after emergence (DAE), the eight treatments including two levels of carbon dioxide concentrations (400 and 800 μmol mol⁻¹) and four levels of water stress (well-watered control, “mild”, “moderate”, and “severe” water stress) treatments at each CO₂ level were imposed. Height, number of leaves, leaf lengths, and growth stages of corn plants were monitored from nine plants twice a week. Corn plants were separately collected, dried, and analyzed for the biomass accumulation at 21 and 60 DAE. Soil water contents were monitored by a time domain reflectometry (TDR) system (15 probes per chamber). The “breaking points” (changes from high to low rates of soil water uptake) were observed in the bottom of soil depth for the water stressed conditions, and the “breaking points” under ambient CO₂ appeared 6-9 days earlier than under elevated CO₂. Although approximately 20-49% less water was applied for the elevated CO₂ treatments than for ambient CO₂ from 21 DAE, higher soil water contents were recorded under elevated CO₂ than under ambient CO₂. However, corn growth variables such as height, leaf area, and biomass accumulation were not significantly different in CO₂ or water stressed treatments. This result may be explained by considering that significant differences in canopy level gross photosynthesis among the water stress treatments was observed only toward the end of the experiment. The higher soil water contents observed under elevated CO₂ resulted mainly from less water use than under ambient CO_2. WUE (above ground biomass per water use since 21 DAE) at the final harvest was consistently higher and varied with a smaller range under elevated CO₂ than under ambient CO₂. This study suggests that less water will be required for corn under high-CO₂ environment in the future than at present.     

不同参数超临界CO2处理对乳酸菌活性的影响

为了研究超临界CO₂作为非水相介质在生化反应工程中的作用，有必要考察超临界CO₂处理对微生物活性的影响。本文以乳酸杆菌为试验菌种，进行了该菌在不同参数超临界CO₂处理对菌体生长曲线、耐渗透压能力、耐酸能力、抑菌能力、降解胆固醇能力等活性指标影响的研究。结果表明：当提高超临界CO₂压强或延长超临界CO₂处理时间，乳酸杆菌的活性指标会发生如下变化：生长曲线的最大菌体浓度降低，但菌体的生长速率差异不大；菌体的耐渗透能力、耐酸能力降低；所得的抑菌圈比较明显，但抑菌圈直径减小；平均胆固醇降解率降低，而且长时间处理对降解效果的影响比高压强处理的明显。因此，在工程应用中需要研究一定的弥补措施。     

Distribution of magnesium between chlorophyll and other photosynthetic functions in magnesium deficient “sun”; and “shade”; leaves of poplar

Photosynthesis of attached sun and shade grown leaves of poplar (Populus euramericana (Dode) Guinier cv. ‘Robusta') has been measured at 0.03 and 0.5% CO₂ at light limitation and light saturation. Photosynthetic rates were compared for plants grown at normal and low Mg‐supply and related to leaf Mg content.

Photosynthetic rates at high CO₂ level were affected at Mg concentration lower than about 50 μmoles/g dry leaf tissue at both photosynthetic irradiations. This was paralleled by a decrease in chlorophyll concentration. At a low CO₂ level photosynthesis was affected at the same Mg concentration but the degree of the inhibition was higher. This indicates that synthesis of chlorophyll as well as CO₂ fixation are affected at the same “critical”; Mg concentration.

Shade leaves contain more chlorophyll per unit leaf weight than sun leaves but the percentual‐ decrease of chlorophyll in Mg deficient leaves Is similar for sun and shade leaves at the same Mg leaf concentration. As a consequence, in Mg deficient shade leaves extraordinary high portions of leaf Mg are bound to chlorophyll (up to 57%; in contrast: up to 37% in sun leaves).     

Elevated CO2 concentrations increase leaf nitrate reduction by strengthening sink activity in soybean plants

An experiment was conducted to examine the effect of CO₂ enrichment on the nitrate uptake, nitrate reduction activity, and translocation of assimilated-N from leaves at varying levels of nitrogen nutrition in soybean using ¹⁵N tracer technique. CO₂ enrichment significantly increased the plant biomass, apparent leaf photosynthesis, sugar and starch contents of leaves, and reduced-N contents of the plant organs only when the plants were grown at high levels of nitrogen. A high supply of nitrogen enhanced plant growth and increased the reduced-N content of the plant organs, but its effect on the carbohydrate contents and photosynthetic rate were not significant. However, the combination of high CO₂ and high nitrogen levels led to an additive effect on all these parameters. The nitrate reductase activity increased temporarily for a short period of time by CO₂ enrichment and high nitrogen levels. ¹⁵N tracer studies indicated that the increase in the amount of reduced-N by CO₂ enrichment was derived from nitrate-N and not from fixed-N of the plant. To examine the translocation of reduced-N from the leaf in more detail, another experiment was conducted by feeding the plants with ¹⁵NO₃-N through a terminal leaflet of an upper trifoliated leaf under depodding and/or CO₂ enrichment conditions. The export rate of ¹⁵N from the terminal leaflet to other plant parts decreased by depodding, but it increased by CO₂ enrichment. CO₂ enrichment increased the percentage of plant ¹⁵N in the stem and / or pods. Depodding increased the percentage of plant ¹⁵N in the leaf and stem. The results suggested that the increase in the leaf nitrate reduction activity by CO₂ enrichment was due to the increase of the translocation of reduced-N from leaves through the strengthening of the sink activity of pods and / or stem for reduced-N.