The application of activated carbon fibers (ACFs) to removing phenol from water was studied.
采用活性炭纤维吸附法净化水中微量的苯酚。
Modified ACFs treated with acids and salts were produced. The absorption properties of the ACFs for benzene and ammonia were studied.
文章研究了酸改性、硫酸盐改性对活性碳纤维静态吸苯、吸氨性能的影响。
The adsorption capacity of phenol, aniline, m-cresol and AO7 on ACFs can also be effectively enhanced by electrochemical polarization.
电化学极化也能有效地提高活性炭纤维对苯酚、苯胺、间甲酚和AO7的吸附量。
Since the 1960s, activated carbon fibers (ACFs) had been given much attention by scientists because of their novel adsorption properties.
六十年代以来,活性炭纤维由于其优异的吸附性能而引起了科学家们的重视。
The pore size and specific surface area of ACFs were decreased after fluorination. The adsorption isotherm of nitrogen on ACFs were evidently reduced.
氟化后活性炭纤维的孔结构和比表面积变小,氮低温吸附等温曲线明显降低。
The results show that the hydrogen of C—H bond on ACFs were substituted by fluorine at different condition. The C—F covalence bond was built at molecular level.
结果表明,随着反应时间和温度的变化,活性炭纤维表面氟取代氢基数目增加,同时在分子水平上形成C—F共价键。
The results show that the hydrogen of C—H bond on ACFs were substituted by fluorine at different condition. The C—F covalence bond was built at molecular level.
结果表明,随着反应时间和温度的变化,活性炭纤维表面氟取代氢基数目增加,同时在分子水平上形成C—F共价键。
应用推荐