超临界技术

  • 网络supercritical technology;supercritical fluid technology
超临界技术超临界技术
  1. 本文研究了用CO2超临界技术从螺旋藻中提取天然食用黄色素的工艺,确定了400P,35℃为最佳的工艺条件,用该条件进行色素提取,其提取率可达98.5%

    The natural yellow pigment was extracted by supercritical CO2 fluid from spirulina platensis , the best conditions were found for the pigment extracting , the yield of the pigment was 98.5 % .

  2. 超临界技术在催化领域中的应用

    The application of supercritical fluid technology to the catalytic domain

  3. 超临界技术制备低水溶性药物脂质体实验研究

    Experimental Investigation on the Preparation of Hydrophobic Drugs Liposomes by Supercritical Technology

  4. 欧洲700℃先进超临界技术发展计划概况

    A survey of development plan for 700 ℃ advanced supercritical technology in Europe

  5. 用超临界技术提取八角茴香油的研究

    A study of the extraction technology of THB fruit oil from Illicium verum by supercritical carbon dioxide fluid

  6. 为进一步研究超临界技术在洗油加工,特别是喹啉加工上的应用提供了理论和实验依据。

    This study is treated as the foundation of further study of wash oil processing , and quinoline processing especially .

  7. 用光学显微镜对超临界技术处理前后的粒径和晶形进行了观察,发现经过处理后的粒径变小、晶形趋于球形。

    From the observation through optical microscope , it could be found that size became smaller and the crystal shape tended to the sphere after GAS .

  8. 因为这项技术具有良好的热效率,人们认为超临界技术将是未来燃煤电厂的潮流。

    Because this technology has good thermal efficiency , it is said that supercritical technology will be the wave of the future of the coal fired power plants .

  9. 采用超临界技术萃取分离大港常压渣油,可有效的脱除一些喹啉不溶物和固体杂质,且获得相对分子质量分布窄、反应性均一的组分。

    The supercritical fluid extraction not only removed the solid particals and the quinoline insoluble particles from Dagang petroleum residue , but also produced a number of pitch fractions , many of which presented narrow distribution of relative molecular mass and homogenous reactivity .

  10. CO2超临界萃取技术富集微生物油脂中花生四烯酸的研究

    Study on Arachidonic Acid Richness from Microbial Oil by Supercritical CO_2 Fluid Technology

  11. CO2超临界萃取技术提取刺玫果籽油及其抗氧化性的研究

    Extraction of Rosa Davurica Pall Seed Oil by Supercritical CO_2 and Study on its Anti-oxidation

  12. 以正硅酸乙酯(TEOS)为硅源,采用酸碱二步催化溶胶-凝胶法,结合超临界干燥技术制备了超低密度SiO2气凝胶。

    The two-step ( acid-base ) sol-gel process is employed to prepare SiO_2 aerogels with TEOS as the precursor .

  13. 应用超临界CO2技术萃取莲子心油。CO2超临界流体萃取莲子心油最佳工艺条件的研究

    The extraction of lotus germ oil by supercritical fluid CO2 has been studied . Researches on the Optimal Working Parameters in the Extraction of Lotus Germ Oil with Supercritical Carbon Dioxide

  14. 以溶胶-凝胶合成法结合CO2超临界干燥技术制备了性能优良的介孔TiO2-SiO2复合氧化物。

    The mesoporous TiO2 - SiO2 composite oxides which have better reaction performance were prepared by sol-gel and supercritical CO2 fluid drying method .

  15. 目的利用二氧化碳(CO2)超临界萃取技术萃取香附有效成分并进行工艺优化;研究萃取物镇痛活性。

    Objective To extract the effective component of rhizoma cyperi with the technique of supercritical CO_ ( 2 ) extraction and study on its optimum extracting conditions , the best prescription , and its analgesic activity .

  16. 以硝酸氧锆(ZrO(NO3)2.5H2O)为原料,采用水热法和超临界干燥技术制备了ZrO2气凝胶。

    Nano-porous ZrO_2 aerogels were prepared with zirconyl nitrate dihydrate ( ZrO ( NO_3 ) _2.5H_2O ) by heating hydro-thermal method subseqently supercritical drying technique .

  17. 采用超临界CO2技术萃取辣蓼叶中的挥发油,并用GC-MS联用方法对挥发油的化学成分进行了分离和鉴定,鉴定组分占挥发油总量的80.66%。

    Volatile oil in leaves of P. hydropiper Linn . was extracted by supercritical carbon dioxide , and their chemical constituents were separated and identified by GC-MS. The amount of identified constituents was over 80.66 % of the volatile oil .

  18. 采用二氧化碳超临界干燥技术制备了粒径为10~20nm的硼酸铜颗粒,并测定了其用作润滑油添加剂的摩擦学性能。

    Nanometer copper borate with a particle size of about 10 ~ 20 nm was prepared using carbon dioxide supercritical dry technique .

  19. 本论文总体结构由以下部分构成:第一部分简要介绍了国内外电站仿真技术、超超临界技术及其仿真技术的发展,同时也对集散控制系统、仿真模式以及虚拟DCS仿真技术进行了介绍。

    In the first part , power plant simulation technology at home and abroad , ultra-supercritical technology and its simulation technology have been introduced , and a description for distributed control system , simulation mode and virtual DCS simulation technology have also been made .

  20. 以铝、正丁醇、乙酰乙酸乙酯(EtAC)为原料,采用溶胶-凝胶法和N2超临界干燥技术制备出轻质纳米介孔固体Al2O3气凝胶,并对其光致发光特性进行了研究。

    Alumina aerogels of light nano mesoporous solid material are prepared from Al , n-butanol and ethyl acetoacetate by the sol-gel rute and the N_2 supercritical drying technique . Also , their photoluminescence properties are studied .

  21. 以硝酸铝和硝酸镁为主要原料,采用溶胶凝胶超临界干燥技术制备了纳米级MgO-Al2O3二元气凝胶。

    The nano - sized MgO - Al2O3 binary aerogel was synthesized by sol - gel supercritical fluid drying technology using Al ( NO3 ) 3 and Mg ( NO3 ) 2 as the starting materials .

  22. 压力对超临界流体技术制备药物微粒的影响

    Pressure effects on drug microparticle formation by using supercritical fluid technology

  23. 超临界流体技术在催化反应和金属有机反应中的应用

    Application of Supercritical Fluid Technology in Catalytic Reaction and Organometallic Reaction

  24. 紫外光谱技术在超临界流体技术中的应用

    Application research of UV spectroscopy detect technology in supercritical fluids condition

  25. 超临界流体技术在塑料分解回收中的应用

    Application of Supercritical Fluid Technique in the Recovery of Waste Plastics

  26. 超临界流体技术在中草药有效成分分析中的应用

    Application of Supercritical Fluid to Analysis of Effective Components of TCM

  27. 采用超临界二氧化碳技术制备了单分散性好的盐酸小檗碱脂质体。

    A monodisperse berberine liposome was prepared by supercritical CO2 method .

  28. 关于超临界流体技术在反应工程上应用的回顾和进展

    Review and Development of Super Critical Flow Application on Reaction Engineering

  29. 生物材料制备新方法&超临界流体技术

    A Novel Method for Preparing Biomaterials & Supercritical Fluid Technology

  30. 介绍了超临界流体技术和微孔聚合物的概念及优点。

    The concept and merits of micro-cellular and Supercritical fluids were discussed .