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对煤质活性炭、椰壳活性炭和沥青基活性炭进行了硝酸氧化处理。通过酸碱滴定、红外光谱、比表面积和孔径分布测定研究了硝酸氧化对3种活性炭的表面官能团、比表面积和孔结构的影响,以及硝酸氧化对活性炭进一步进行乙二胺胺化的影响。结果表明,在所选的3种活性炭中,氧化对于椰壳活性炭的物理结构破坏最严重,比表面积下降了16%,而煤质活性炭与沥青基活性炭均很好地保持了原有的结构性质。硝酸氧化在不同的活性炭表面均引入了一定量的酸性基团,其中沥青基活性炭氧化后表面酸性基团含量最高,达到2.36mmol/g。氧化后的3种活性炭接枝乙二胺后,沥青基活性炭的表面碱性基团含量最高,达到1.39mmol/g。 相似文献
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活性炭分离富集技术的应用新进展 总被引:5,自引:0,他引:5
对活性炭分离富集技术的应用新进展进行综述。重点评述了活性炭的结构和吸附机理,活性炭对有机物的分离和吸附,活性炭对金属离子的分离和富集,共引用文献35篇。 相似文献
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活性炭纤维的性能及其在环境卫生中的应用 总被引:1,自引:0,他引:1
简要介绍了新型功能材料——活性炭纤维的种类、制备和改性方法,通过与传统的颗粒状活性炭的比较,阐明了活性炭纤维的独特性能;综述了活性炭纤维在环境卫生方面的应用。 相似文献
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微波辐射法制备活性炭的应用研究进展 总被引:8,自引:0,他引:8
对微波辐射技术在活性炭的活化、表面改性及再生过程中的研究进展进行了概述。微波功率是影响活性炭的活化、改性、再生及其吸附性能和产率的主要因素之一。众多实验结果表明微波辐射技术是制备活性炭材料和提高活性炭吸附性能的有效途径。 相似文献
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以无氯Cu/AC催化剂中活性炭载体为研究对象,对活性炭上DMC水解反应条件进行了考察,并通过Boehm滴定法和XPS对活性炭上DMC水解活性位点进行了分析。结果表明,温度的升高和水含量的增加对DMC水解有较大的促进作用,较高的压力和CO_2气氛对DMC水解有一定的抑制作用,甲醇量和CO、O_2、N_2气氛对DMC水解影响较小。不同条件处理的活性炭表面基团种类、数量均有较大变化,HNO_3处理使活性炭碱性基团含量下降,羧基等酸性含氧官能团含量明显增加,总酸量最高可达1.88 mmol·g~(-1);先HNO_3后NaOH处理的活性炭上酸性基团含量大量减少,表面碱性基团含量则有较大提高,总碱量最高可达1.69 mmol·g-1。特别地,活性炭表面碱性基团是催化DMC水解的活性位点,在活性炭碱性基团含量由0.16增加到1.69mmol·g~(-1)的过程中,DMC水解程度由2.5%增加到了31.7%,而酸处理可以有效降低活性炭表面碱性基团含量,抑制其催化DMC的水解性能。 相似文献
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缓慢炭化部分氧化对制备煤质活性炭的影响 总被引:5,自引:0,他引:5
研究了炭化升温速度、炭化低温区引入空气部分氧化对活性炭制备过程中炭化阶段、炭化物结构、活性炭性能等的影响。结果表明,炭化时低温部分氧化可提高炭化物得率,使炭化物微晶的d002值升高和Lc值减小;而较慢的炭化升温速度有利于制备优质活性炭。缓慢炭化、部分氧化可以在一定程度上控制炭化路径,使炭化向生成取向性差、难石墨化、各向同性、呒定形炭多的炭化物的方向进行;并讨论了它们控制炭化的作用机理。以此为指导, 相似文献
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杂多酸在活性炭上的固载化—1.几种国产活性炭的表面性质 总被引:4,自引:0,他引:4
本文研究了作为杂多酸载体的几种国产活性炭的表面性质,实验证明,活性炭表面的化学特性是由表面含氧基团的化学结构以及这些基团的数目决定的。为了得到适当表面化学特性的活性炭。对它们进行了不同的化学改性处理,并使用XPS,IR,SEM,Boehm酸-碱滴定以及PH滴定等手段研究了活性炭的表面性质 相似文献
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活性炭表面含氧基团对NO的还原作用 总被引:3,自引:1,他引:3
通过C、H、N元素分析和Boehm滴定及NH3-TPD实验揭示了活性炭表面含氧基团数量及分布情况,结果表明,表面含量基团数量和分布决定了活性炭自身还原性及对NO的还原能力,活性炭表面含氧基团,特别是-COO基团,可能是最重要的NO还原反应活性中心,提出了该还原反应的机理。 相似文献
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A study of metals supported on active carbon with a temperature programmed reduction (TPR) technique
The influence of active carbon as support on the reducibility of supported metals (Ni, Cu, Cd, Zn) has been studied by means of a temperature programmed reduction (TPR) technique. The TPR profiles indicate that active carbon behaves as a dispersion agent and the supported metal is dispersed in a disordered phase rather than as a stoichiometric compound. The hydrogen consumed in the reduction indicates that the metal residues are present in monovalent and divalent forms. High-temperature reduction peaks were also observed and are explained on the basis of metal-surface interactions and the porosity of the active carbon. Nitrogen adsorption reveals that the active carbon porosity decreases due to progressive closure of the pores when metals are supported on the surface of active carbon. 相似文献
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Potassium-decorated active carbon supported Co-Mo-based catalyst for water-gas shift reaction 总被引:1,自引:0,他引:1 下载免费PDF全文
The effect of potassium-decoration was studied on the activity of water-gas shift (WGS) reaction over the Co-Mo-based catalysts supported on active carbon (AC), which was prepared by incipient wetness co-impregnation method. The decoration of potassium on active carbon in advance enhances the activities of the CoMo-K/AC catalysts for WGS reaction. Highest activity (about 92% conversion) was obtained at 250 ? C for the catalyst with an optimum K 2 O/AC weight ratio in the range from 0.12 to 0.15. The catalysts were characterized by TPR and EPR, and the results show that activated carbon decorated with potassium makes Co-Mo species highly dispersed, and thus easily reduced and sulfurized. XRD results show that an appropriate content of potassium-decoration on active carbon supports may favors the formation of highly dispersed Co 9 S 8 -type structures which are situated on the edge or a site in contact with MoS 2 , K-Mo-O-S, Mo-S-K phase. Those active species are responsible for the high activity of CoMo-K/AC catalysts. 相似文献
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The adsorption of lead(II) and copper(II) on an activated carbon (Filtrasorb 300, Chemviron) was characterized assuming that it takes place by formation of complexes with functional groups, present in the activated carbon. Their concentration and conditional adsorption coefficients were determined for each metal by titration of the carbon in suspension in aqueous phase, at constant acidity, with the metal itself. For each titration point, the concentration of the metal in the solution phase after equilibration was determined, and the data were processed by the Ruzic linearization method, to obtain the concentration of the active sites involved in the sorption, and the conditional constant. The effect of the pH was also examined, in the range 4-6, obtaining that the adsorption increases at increasing pH. The protonation and adsorption constants were determined from the conditional adsorption coefficients obtained at the different acidities. The concentration of the active sites is 0.023 and 0.042 mmol g−1, and the protonation constants are 1.0×106 and 4.6×104 M−1 for Pb(II) and Cu(II). The corresponding adsorption constants are respectively 1.4×105 and 6.3×103 M−1. All the parameters are affected by a large uncertainty, probably due to the heterogeneity of the active groups in the activated carbon. Even if so, these parameters make it possible a good prediction of the adsorption in a wide range of conditions. Other sorption mechanism can be set up at different conditions, in particular at different pH, as it has been demonstrated in the case of copper(II). 相似文献
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Xue Ping LI* Feng YIN Yuan LIN Jing Bo ZHANG Xu Rui XIAO Laboratory of Photochemistry Center for Molecular Sciences Institute of Chemistry Chinese Academy of Sciences Beijing 《中国化学快报》2001,(6)
Photocatalysis on TiO2, with a promising application to the elimination of organic contaminants from air and water, has been a particularly active area1. For such application, it is important to improve the efficiency of TiO_2 photocatalysts. In the most cases, the concentration of organic contaminants in water is extremely dilute (ppm level or below) and TiO_2 itself has low adsorbabilities for them, it usually takes a long time to complete their decomposition. One of the effective ways to … 相似文献
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Active carbon has been widely used to treat wastewater.In this paper active carb on adsorbent is used to treat methylbenzene resulting from the production of phenylacetic acid.Our experiment indicates that acidity has no effect on adsorb ability.At temperature 22℃ and flow rate 1Bv/h,adsorption efficiency of methyl benzen is 94.2% and erasing rate of CODCr reaches 94.9%.Alkaline-alcohol solution is employed as an eluent to regenerate active carbon.After regeneratio n,adsorption efficiency of methylbenzene is 86.4% and the erasing rate of COD Cr is 87.3%. 相似文献