超临界流体的特性是什么?为什么选择co2作为萃取剂

2025-03-16 12:50:54
推荐回答(1个)
回答1:

超临界流体萃取分离过程的原理是利用超临界流体的溶解能力与其密度的关系,即利用压力和温度对超临界流体溶解能力的影响而进行的。在超临界状态下,将超临界流体与待分离的物质接触,使其有选择性地把极性大小、沸点高低和分子量大小的成分依次萃取出来。当然,对应各压力范围所得到的萃取物不可能是单一的,但可以控制条件得到最佳比例的混合成分,然后借助减压、升温的方法使超临界流体变成普通气体,被萃取物质则完全或基本析出,从而达到分离提纯的目的,所以超临界流体萃取过程是由萃取和分离组合而成的。 超临界流体萃取与化学法萃取相比有以下突出的优点: (1)可以在接近室温(35-40℃)及CO2气体笼罩下进行提取,有效地防止了热敏性物质的氧化和逸散。因此,在萃取物中保持着药用植物的全部成分,而且能把高沸点,低挥发度、易热解的物质在其沸点温度以下萃取出来; (2)使用SFE是最干净的提取方法,由于全过程不用有机溶剂,因此萃取物绝无残留溶媒,同时也防止了提取过程对人体的毒害和对环境的污染,是100%的纯天然; (3)萃取和分离合二为一,当饱含溶解物的CO2-SCF流经分离器时,由于压力下降使得CO2与萃取物迅速成为两相(气液分离)而立即分开,不仅萃取效率高而且能耗较少,节约成本; (4)CO2是一种不活泼的气体,萃取过程不发生化学反应,且属于不燃性气体,无味、无臭、无毒,故安全性好; (5)CO2价格便宜,纯度高,容易取得,且在生产过程中循环使用,从而降低成本; (6)压力和温度都可以成为调节萃取过程的参数。通过改变温度或压力达到萃取目的。压力固定,改变温度可将物质分离;反之温度固定,降低压力使萃取物分离,因此工艺简单易掌握,而且萃取速度快。

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