2) hydrophilic organic solvent floatation
亲水有机溶剂气浮浮选
1.
The aim of the research is to build a foundation of theory and practice for controlling the pollution of TCs residues,the main research contents are as follows:(1) The new separation and preconcentration technology of hydrophilic organic solvent floatation(HOSF) has been set up on the basis of traditional
主要研究结果如下:(1)以传统有机溶剂萃取(TOSE)理论为基础,耦合亲水有机溶剂双水相萃取(HATPE)和气浮溶剂浮选技术(GSF)优势,构建了亲水有机溶剂气浮浮选分离/富集新技术(HOSF)。
3) solvent flotation
溶剂浮选
1.
Study on recovery iodine from wet-process phosphoric acid by solvent flotation;
溶剂浮选法回收湿法磷酸中碘的研究
2.
Determination of trace boron by ternary-assiociation compound solvent flotation spectrophotometry;
三元缔合物溶剂浮选光度法测定痕量硼
3.
Association complex-solvent flotation spectrophotometric determination of dyestuff content in printing and dyeing wastewater;
气浮缔合物溶剂浮选光度法测定印染废水中染料含量
4) Solvent floatation
溶剂浮选
1.
Study on determination of trace chromium in environmental sample by solvent floatation spectrophotometry;
溶剂浮选光度法测定环境样品中痕量铬的研究
5) Solvent sublation
溶剂浮选
1.
A method for the determination of trace platinum by solvent sublation spectrophotometryis reported in this paper.
采用以Pt-SnCl_2-CPB体系溶剂浮选吸光光度法测定微量铂的方法。
2.
Combining solvent sublation with complexation extraction,the concept of Flotation Complexation Extraction(FCE) was proposed.
结合溶剂浮选和络合萃取,提出了气浮络合萃取(floatation complexation extraction)的概念,应用该方法实现了对L-苯丙氨酸的分离富集。
3.
In the process of solvent sublation, the hydrophobic compounds are levitated on bubble surface to the top of an aqueous column where they encounter a solvent layer to which the material is transferred as the bubbles move through the solvent layer.
溶剂浮选法是Sebba于1962年提出的。
6) aqueous two-phase gas solvent sublation
双水相气浮溶剂浮选
1.
Combining solvent sublation with aqueous two-phase extraction (ATPE),a new preconcentration/separation method was established:aqueous two-phase gas solvent sublation (ATGS).
结合气浮溶剂浮选和双水相萃取(ATPE)的优点,建立了一种新的分离/富集的方法,双水相气浮溶剂浮选(ATGS),并用于环境中痕量Cd(Ⅱ)的分离/富集。
补充资料:BF型机械搅拌式浮选机
BF型机械搅拌式浮选机
BF型机械搅拌式浮选机
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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