AbstractThe equilibrium sorption capacity of the formaldehyde‐cross‐linked brown seaweedAscophyllum nodosumbiomass was studied using two‐metal systems comprising either (Cu + Zn), (Cu + Cd), or (Zn + Cd). Three‐dimensional sorption isotherm surfaces were used in the evaluation of sorption performance, replacing simple isotherm curves. While each of the metals tested can inhibit the sorption of the others, at low total residual metal concentrations the total metal sorption uptake increases. At higher total metal concentrations, the total metal sorption uptake either remains constant, or there may be a slight decrease compared to single‐metal uptakes. This is an indication of a mutual interference in the sorption uptake of the two metals tested in ea
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机译:摘要采用(Cu+Zn)、(Cu+Cd)或(Zn+Cd)双金属体系研究了甲醛交联褐藻Ascophyllum nodosumbiomass的平衡吸附能力。采用三维吸附等温线表面来评价吸附性能,取代了简单的等温线曲线。虽然测试的每种金属都可以抑制其他金属的吸附,但在较低的总残留金属浓度下,总金属吸附吸收会增加。在较高的总金属浓度下,总金属吸附吸收要么保持不变,要么与单一金属吸收相比略有下降。这表明在 ea 中测试的两种金属的吸附吸收存在相互干扰
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