采用活性炭纤维吸附法净化水中微量的苯酚。
The application of activated carbon fibers (ACFs) to removing phenol from water was studied.
采用活性炭纤维吸附回收装置处理含苯废气。
The activated carbon fiber adsorption unit is designed to treat benzene containing waste gas.
与颗粒状活性炭(GAC)相比,活性炭纤维吸附靛蓝的速度快,在短时间内就能达到平衡。
The absorption rate of ACF was more rapid than that of GAC in absorbing indigo, so the absorption equilibrium of ACF can be easily reached within a short time.
为解决其氧化塔塔顶的氧化尾气经过净化、回收后仍无法满足日益严格的排放标准的难题,先后应用了片状活性炭吸附技术、活性炭纤维吸附技术和催化氧化技术。
The oxidized tail gas at the top of the oxidization towers of these units has been unable to meet the increasingly strict emission standards even after being purified and recycled.
测定了两种活性炭纤维(acf)的氮气、水吸附等温线和XPS,研究了ACF的微孔结构和表面性质。
The nitrogen and water adsorption isotherms and XPS of two activated carbon fibers (ACF) are determined. The micropore structures and surface properties of ACF are investigated.
研究了活性炭纤维(ACF)对水中靛蓝的吸附试验。
Absorptive aqueous of indigo by activated carbon fiber (ACF) was studied.
通过实验找到了脱除并回收甲苯吸附剂-活性炭纤维的替代品,适应国内市场的需要。
By experimentation, we find active carbon fibre for removing and recovering toluene, meeting demand of native market.
活性炭纤维(acf)由于具有优异吸附性能和使用价值成为研究热点。
Because of its excellent absorption capacity and application value, the activated carbon fiber (ACF) has become a hot topic being studied.
通过试验选择活性炭纤维作为吸附剂,吸附气体中醋酸丁酯。对影响其吸附性能的主要因素进行了研究。
Activated carbon fibre was selected through tests as an optimum adsorbent for butyl acetate in gas. The main factors affecting the adsorption performance were studied.
用炭黑政性聚丙烯腈原丝,制得了富含中孔的活性炭纤维,研究了它对大分子物质VB12的吸附性能。
The mesoporous activated carbon fibers have been manufactured from polyacrylonitrile fibers with carbon black addition, then its adsorption of VB12 has been studied.
重点讨论活性炭纤维植绒的工艺及其吸附性能。
Discuss emphatically on the process of electrostatics flocking of activated carbon fiber and its adsorbability.
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。
The adsorption capacity of phenol, aniline, m-cresol and AO7 on ACFs can also be effectively enhanced by electrochemical polarization.
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。
Since the 1960s, activated carbon fibers (ACFs) had been given much attention by scientists because of their novel adsorption properties.
本文阐述了活性炭纤维的结构与吸附性能间的关系,并介绍了它在吸附领域的应用。
This paper introduced the relationship between the structure of activated carbon fiber and adsorption characteristics, and the application of activated carbon fiber in adsorption field.
主要阐述了活性炭纤维在净化、消毒、过滤水嘴中的应用以及对不同主体材料吸附过滤效果的测试。
This paper mainly illustrated the application of the activated carbon fiber at purification, sterilization and filter device, and then test the filter effectiveness of all the major filter material.
以KOH和CO2为活化剂分别制备了粘胶基活性炭纤维,并用77K氮吸附进行了孔结构表征。
The activated carbon fiber based of the stickiness preparated with KOH and CO2 as the activating agent, and the characteristic with 77K a nitrogen adsorbed the pore structure.
除了颗粒活性炭以外,活性炭纤维和活性炭成型物也正在气相吸附中得到日益广泛的应用。
In addition to granular activated carbon, activated carbon and activated carbon fiber molded by gas adsorption is also being increasingly widely used.
结合仪器分析与吸附模型分析了活性炭纤维(acf)和颗粒状活性炭(GAC)的孔与表面特性。
The characters of pore and surface of Activated Carbon Fiber (ACF) and Granular Activated Carbon (GAC) were analyzed through the combination of instrument analysis and absorption model.
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 pore size and specific surface area of ACFs were decreased after fluorination. The adsorption isotherm of nitrogen on ACFs were evidently reduced.
测量了比表面积和得率,孔径分布,用碘吸附值、亚甲基兰吸附值测定了中空活性炭纤维的吸附性能,用SEM观察了其表面结构。
The specific surface area, pore size and yield ratio have been measured. Iodine and Methylene blue adsorption were used to study the adsorption capacity of ACHF.
测量了比表面积和得率,孔径分布,用碘吸附值、亚甲基兰吸附值测定了中空活性炭纤维的吸附性能,用SEM观察了其表面结构。
The specific surface area, pore size and yield ratio have been measured. Iodine and Methylene blue adsorption were used to study the adsorption capacity of ACHF.
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