de Celis J, Amadeo N E, Cukierman A L
Programa de Investigación y Desarrollo de Fuentes Alternativas de Materias Primas y Energía (PINMATE), Universidad de Buenos Aires, Pabellón de Industrias, Intendente Güiraldes 2620, Ciudad Universitaria, C1428BGA Buenos Aires, Argentina.
J Hazard Mater. 2009 Jan 15;161(1):217-23. doi: 10.1016/j.jhazmat.2008.03.075. Epub 2008 Mar 22.
Activated carbons were developed by phosphoric acid activation of sawdust from Prosopis ruscifolia wood, an indigenous invasive species of degraded lands, at moderate conditions (acid/precursor ratio=2, 450 degrees C, 0.5h). For in situ modification of their characteristics, either a self-generated atmosphere or flowing air was used. The activated carbons developed in the self-generated atmosphere showed higher BET surface area (2281m2/g) and total pore volume (1.7cm3/g) than those obtained under flowing air (1638m2/g and 1.3cm3/g). Conversely, the latter possessed a higher total amount of surface acidic/polar oxygen groups (2.2meq/g) than the former (1.5meq/g). To evaluate their metal sorption capability, adsorption isotherms of Cu(II) ion from model solutions were determined and properly described by the Langmuir model. Maximum sorption capacity (Xm) for the air-derived carbons (Xm=0.44mmol/g) almost duplicated the value for those obtained in the self-generated atmosphere (Xm=0.24mmol/g), pointing to a predominant effect of the surface functionalities on metal sequestering behaviour. The air-derived carbons also demonstrated a superior effectiveness in removing Cd(II) ions as determined from additional assays in equilibrium conditions. Accordingly, effective phosphoric acid-activated carbons from Prosopis wood for toxic metals removal from wastewater may be developed by in situ modification of their characteristics operating under flowing air.
通过在适度条件下(酸/前驱体比例 = 2、450℃、0.5 小时)用磷酸活化来自豆科牧豆树(一种本土入侵性退化土地物种)的锯末来制备活性炭。为了原位改性其特性,使用了自生气氛或流动空气。在自生气氛中制备的活性炭比在流动空气中制备的活性炭具有更高的 BET 表面积(2281m²/g)和总孔体积(1.7cm³/g)(分别为 1638m²/g 和 1.3cm³/g)。相反,后者比前者具有更高的表面酸性/极性氧基团总量(2.2meq/g 对 1.5meq/g)。为了评估它们对金属的吸附能力,测定了模型溶液中 Cu(II)离子的吸附等温线,并通过朗缪尔模型进行了恰当描述。空气衍生的活性炭的最大吸附容量(Xm = 0.44mmol/g)几乎是在自生气氛中制备的活性炭的两倍(Xm = 0.24mmol/g),这表明表面官能团对金属螯合行为有主要影响。根据在平衡条件下的额外测定,空气衍生的活性炭在去除 Cd(II)离子方面也表现出卓越的效果。因此,通过在流动空气条件下原位改性其特性,可以开发出有效的豆科牧豆树木磷酸活化活性炭用于从废水中去除有毒金属。
