ADSORPTION CAPACITY OF CARBONIZED TITONIA DIVERSIFOLIA TOWARDS Cd2+ AND CU2+ UNDER DIFFERENT pH, ADSORPTION CAPACITY AND CONCENTRATION

Journal Of Chemical Society Of Nigeria Pub Date : 2024-03-05 DOI:10.46602/jcsn.v49i1.948

K. A. Olaifa, J.O. Olaifa, A. O. Agbeja, D. R. Akindolu, A.O. Olaitan, M. Akinlade

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Abstract

Adsorption studies were performed to investigate the adsorption capacity of carbonized Tithonia diversifolia towards heavy metal ions (Cd2+ and Cu2+) under different pH, contact time, concentration and temperature conditions. Cadmium metal concentrations at; 25 ppm, 50 ppm, 75 ppm, 100 ppm, 150 ppm and 200 ppm of metal solutions were prepared and the pH was adjusted to 5. The uptake of copper (II) increases as the pH of the solution increases; at pH 1, pH 2, pH 3, pH 4 and pH 5, percentage metal bound were 20.59, 48.47, 94.26 and 94.08% respectively, at pH 5 and pH 6, percentage metal bound dropped to 93.26, 92.62% respectively. The increase in the removal of copper as pH increases is attributed to the decrease in competition between proton and Cu2+ ion for the surface site. Cadmium study showed that the optimum binding pH is 5 while at pH 1, pH 2, pH 3, pH4 and pH 6, percentage bound were 25.59, 59.12, 96.76, 96.14 and 98.31% respectively. The percentage removal for cadmium (II) ion is low at pH 1 and remains high and almost constant at pH 6. The high binding power of cadmium (II) ion at the initial stage is attributed to the biomass having maximum binding sites available for interaction. Our findings showed that the amount of Cu+2 and Cd2+ adsorbed was found to vary with the initial solution pH, adsorbent dosage and concentration.

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不同 pH 值、吸附容量和浓度下碳化噻吨藻对 Cd2+ 和 CU2+ 的吸附容量

为了研究碳化 Tithonia diversifolia 在不同 pH 值、接触时间、浓度和温度条件下对重金属离子（Cd2+ 和 Cu2+）的吸附能力，我们进行了吸附研究。制备了镉金属浓度为 25 ppm、50 ppm、75 ppm、100 ppm、150 ppm 和 200 ppm 的金属溶液，并将 pH 值调至 5。铜（II）的吸收量随着溶液 pH 值的增加而增加；在 pH 值为 1、2、3、4 和 5 时，金属结合率分别为 20.59%、48.47%、94.26% 和 94.08%；在 pH 值为 5 和 6 时，金属结合率分别降至 93.26%和 92.62%。随着 pH 值的升高，铜的去除率增加，这是因为质子和 Cu2+ 离子对表面位点的竞争减少了。镉的研究表明，最佳结合 pH 值为 5，而在 pH 值为 1、2、3、4 和 6 时，结合率分别为 25.59%、59.12%、96.76%、96.14% 和 98.31%。在 pH 值为 1 时，镉（II）离子的去除率较低，而在 pH 值为 6 时，镉（II）离子的去除率较高，且几乎保持不变。我们的研究结果表明，Cu+2 和 Cd2+ 的吸附量随初始溶液 pH 值、吸附剂用量和浓度的变化而变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal Of Chemical Society Of Nigeria

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