1) supercritical CO_2 reverse microemulsions
超临界CO2反相微乳
1.
With the self-designed interpolation ultrasound-enhanced supercritical CO_2 reverse microemulsions(USCRM) extraction device,bis(2-ethylhexyl) sodium sulphosuccinate(AOT) as a main surfactant and ethanol as a co-surfactant,the effect of ultrasound on ginsenosides extraction by supercritical CO_2 reverse microemulsions(SCRM) was studied.
采用自行设计的超声强化超临界CO2反相微乳萃取设备,以AOT为主表面活性剂,乙醇为助表面活性剂,研究了超声对超临界CO2反相微乳萃取人参皂甙的影响。
2) supercritical CO2 reverse microemulsion extraction
超临界CO2反相微乳萃取
1.
Objective To raise ginsenosides yield from Panax ginseng by supercritical CO2 reverse microemulsion extraction.
结果在萃取压力25MPa、温度45℃、时间4h、CO2流量为2L/h条件下,超临界CO2反相微乳萃取的人参皂苷萃取率是乙醇/水/超临界CO2萃取的3。
3) supercritical CO2 reversed microemulsion extraction
超临界CO反相微乳萃取
4) Supercrtitcal fluid reverse microemulsions
超临界流体反转微乳胶
5) supercritical CO_2
超临界CO2
1.
Zanthoxylum oil is extracted with supercritical CO_2 and encapsulated by spray drying(using a coaxial nozzle).
研究了超临界CO2萃取花椒油,并直接采用同轴喷嘴喷雾干燥制备微胶囊。
2.
This paper discusses the phase behavior of supercritical CO_2-alkyd resin-200#, the mimic gasoline ternary system, showing that it is feasible for supercritical CO2to be used in the spray of alkyd varnish with quickly volatilized solvent.
考察了超临界CO2-醇酸树脂-200#汽油拟三元体系相行为,结果表明:用超临界CO2为快挥发性溶剂进行醇酸清漆喷涂是可行的。
3.
To simulate the solubility data of solids in supercritical CO_2 well,the solubility data of 30 kinds of solids in supercritical CO_2 were simulated by using the back-propagation artificial neural networks(BPANN).
为了更好地模拟超临界CO2(SC CO2)中固体的溶解度数据,采用逆向传播神经网络(BPANN)对30种固体在超临界CO2中的873个溶解度数据进行了模拟,所得相对误差(AARD)都在10%以下,小于状态方程和经验方程的值,此结果表明BPANN能较好地模拟SC CO2中固体的溶解度数据。
6) supercritical carbon dioxide
超临界CO2
1.
Lycopene was extracted from tomato using supercritical carbon dioxide method.
采用超临界CO2萃取技术从番茄果实中提取番茄红素。
2.
The cell morphology of the microcellular polypropylene(PP) foams prepared by supercritical carbon dioxide was studied.
研究了应用超临界CO2技术制备微孔聚丙烯时发泡条件和聚丙烯(PP)的熔体强度对微孔形貌的影响。
3.
Porous alumina material was prepared with activated carbon as template and aluminum acetylacetonate as precursor in supercritical carbon dioxide (SC-CO2).
在超临界CO2中以活性炭为模板,乙酰丙酮铝为前驱体制备了氧化铝多孔材料。
补充资料:反相乳液聚合
分子式:
CAS号:
性质: 是将水溶性单体分散在连续油相中,形成油包水型(W/O)乳液,然后加入油溶性或水溶性引发剂引发的聚合。乳化剂为亲油性较强的低HLB值(HLB值为3~6)的乳化体系。如聚丙烯酰胺胶乳的生产。
CAS号:
性质: 是将水溶性单体分散在连续油相中,形成油包水型(W/O)乳液,然后加入油溶性或水溶性引发剂引发的聚合。乳化剂为亲油性较强的低HLB值(HLB值为3~6)的乳化体系。如聚丙烯酰胺胶乳的生产。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条