Department of Civil Engineering, National Institute of Technology, Warangal, Telangana, India.
Department of Civil Engineering, National Institute of Technology, Warangal, Telangana, India.
J Environ Manage. 2018 Nov 15;226:320-328. doi: 10.1016/j.jenvman.2018.08.055. Epub 2018 Aug 17.
In the present work, Acid Red 1 (AR1) dye degradation by two heterogeneous Fenton catalysts, namely iron loaded rice husk biochar (Fe-RHB) and coir pith biochar (Fe-CPB) are studied. Biochar prepared from RHB and CPB were sonicated in the presence of ferric nitrate for the synthesis of Fe-RHB and Fe-CPB by incipient impregnation method. Effect of operational parameters such as pH, the dosage of catalyst, HO concentration and temperature were examined. Characterization of the synthesized Fenton catalyst, Fe-RHB and Fe-CPB were analysed by SEM, EDS, XRD and XPS techniques. In Fe-RHB Fenton system, maximum dye removal efficiency of 97.6% and TOC removal efficiency of 84.2% were obtained at pH 3 for 50 mg L of AR1 concentration, with 16 mM of HO and 5 g L of catalyst dosage within 120 min reaction time. Similarly, for Fe-CPB, maximum dye removal efficiency of 99.1% and TOC removal efficiency of 86.7% were obtained with 16 mM of HO and 4 g L of dosage for 50 mg L of initial dye concentration at pH 3. The prepared catalysts can be reused for successive cycles as the catalyst materials are highly stable and have very less iron leaching property.
在本工作中,研究了两种非均相芬顿催化剂,即负载铁的稻壳生物炭(Fe-RHB)和椰壳生物炭(Fe-CPB),对酸性红 1(AR1)染料的降解作用。在硝酸铁存在下对 RHB 和 CPB 制备的生物炭进行了超声处理,通过初始浸渍法合成了 Fe-RHB 和 Fe-CPB。考察了操作参数如 pH 值、催化剂用量、HO 浓度和温度的影响。通过 SEM、EDS、XRD 和 XPS 技术对合成的芬顿催化剂 Fe-RHB 和 Fe-CPB 进行了表征。在 Fe-RHB 芬顿体系中,在 pH 值为 3、AR1 浓度为 50mg/L、HO 浓度为 16mM、催化剂用量为 5g/L 的条件下,反应时间为 120min,最大染料去除效率为 97.6%,TOC 去除效率为 84.2%。同样,对于 Fe-CPB,在 pH 值为 3、初始染料浓度为 50mg/L、HO 浓度为 16mM、催化剂用量为 4g/L 的条件下,最大染料去除效率为 99.1%,TOC 去除效率为 86.7%。所制备的催化剂可以重复使用多次,因为催化剂材料非常稳定,铁浸出性很小。