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研究报告

The adsorption ability of microporous benzylated wood powder to copper(Ⅱ) and lead ions(Ⅱ)

摘要：以中国杉木粉为研究对象,经苄基化改性和水热处理制得多微孔苄基化木粉.同时,以多微孔苄基化木粉为吸附材料,研究了苄基化木粉的增重率、溶液的pH值、接触时间、离子初始浓度和吸附温度等因素对Cu²⁺和Pb²⁺吸附效果的影响,并采用红外光谱、扫描电镜、核磁共振等分析手段对木粉改性与水热处理前后的材料进行了结构表征.结果表明:木粉经苄基化改性及水热处理后所制得的多微孔苄基化木粉对Cu²⁺和Pb²⁺的吸附百分率比原木粉分别提高57%和209%,木粉的苄基化程度、溶液的pH值、接触时间、离子初始浓度和温度是影响Cu²⁺和Pb²⁺吸附百分率的重要因素.当溶液的pH值为5.5,Cu²⁺和Pb²⁺的浓度为30 mg·L^-1,吸附温度为40℃,吸附时间为60 min,多微孔苄基化木粉质量为溶液质量的2.0%时,Cu²⁺去除率达94.4%,Pb²⁺去除率达88.7%.

Abstract：In this study, a novel microporous benzylated wood powder (MBWP) has been prepared from Chinese Fir through the benzylation modification reaction and hydrothermal treatment process, respectively. Taking the prepared MBWP as the adsorbents, effects of the MBWP's weight gain rate, solution pH, incubation time, metal ions concentration and temperature on the adsorption of Cu²⁺ and Pb²⁺ were investigated. In addition, The structure and morphology of the original wood powder and the prepared MBWP were also characterized by using of IR, SEM and NMR techniques. The results indicate that, Compared with the wood powder, adsorption capacity of the MBWP via benzylation modification and hydrothermal treatment increased by 57% for Cu²⁺ and 209% for Pb²⁺, respectively. moreover, benzylation, solution pH, incubation time, and temperature, are the important factors to affect the adsorption efficiency of Cu²⁺ and Pb²⁺. Under the optimum conditions, such as pH 5.5, 40℃, 60 min-incubation time, 2.0% (m/m) of MBWP, and 30 mg·L^-1 of Cu²⁺ and Pb²⁺, 94.4% of Cu²⁺ and 88.7% of Pb²⁺ can be removed, respectively.