Efficacy of Agricultural Residue-Derived Biochar for Tackling Cadmium Contamination in an Aqueous Solution
文献类型: 外文期刊
作者: Liu, Qinghai 1 ; Song, Zhengguo 3 ; Li, Jingwen 3 ; Pan, Chongshuang 1 ; Qiu, Weiwen 4 ;
作者机构: 1.Tibet Acad Agr & Anim Husb Sci, Inst Agr Qual Stand & Testing, Lhasa 850032, Peoples R China
2.Agr & Livestock Prod Engn Technol Res Ctr Tibet Au, Lhasa 850032, Peoples R China
3.Shantou Univ, Dept Civil & Environm Engn, Shantou 515063, Peoples R China
4.New Zealand Inst Plant & Food Res Ltd, Private Bag 3230, Hamilton 3240, New Zealand
关键词: agricultural residue derived-biochar; Cd(II); adsorption capacity
期刊名称:MOLECULES ( 影响因子:4.2; 五年影响因子:4.6 )
ISSN:
年卷期: 2024 年 29 卷 15 期
页码:
收录情况: SCI
摘要: This study aimed to investigate the efficacy of biochar, produced from different agricultural residues varying in lignin and cellulose content and subjected to different pyrolysis temperatures, in removing cadmium ions (Cd (II)) from an aqueous solution. This removal process is crucial for protecting human health and the environment. Specifically, the study focused on the adsorption behaviors of Cd (II) by the biochars made from rice husk biochar (RHB), maize straw biochar (MSB), peanut shell biochar (PSB), cottonseed shell biochar (CHB), and mulberry leaf biochar (MLB), which were prepared at 300 degrees C and 600 degrees C. The results indicated that the type of agricultural residue used to produce biochar significantly influenced the adsorption of Cd (II). Notably, mulberry leaf biochar prepared at 300 degrees C (MLB-300) demonstrated the highest adsorption efficiency, achieving a maximum adsorption capacity of 42.2 mg g-1. Batch adsorption experiments assessed the impact of various factors, including system pH, NO3- concentration, and adsorption duration. The adsorption kinetics were better described by the pseudo-second-order model than the pseudo-first-order model. Moreover, the study found that the lignin content of the biochar plays a major role in determining the adsorption capacity. The surface characteristics of biochar, influenced by the types of agricultural residues and preparation temperature, directly impact its adsorption mechanism and capacity. While biochar produced at 300 degrees C showed optimal Cd(II) adsorption, those processed at 600 degrees C were less effective, likely due to the loss of functional groups at higher temperatures.
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