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新型生物基炭去除水相突发生态污染物的机理研究。

Study of the removal mechanism of aquatic emergent pollutants by new bio-based chars.

机构信息

LAQV/REQUIMTE, Departamento de Química, Faculdade de Ciências e Tecnologia, Universidade Nova de Lisboa, 2829-516, Caparica, Portugal.

LAQV/REQUIMTE, Departamento de Ciências e Tecnologia da Biomassa, Faculdade de Ciências e Tecnologia, Universidade Nova de Lisboa, 2829-516, Caparica, Portugal.

出版信息

Environ Sci Pollut Res Int. 2017 Oct;24(28):22698-22708. doi: 10.1007/s11356-017-9938-9. Epub 2017 Aug 16.

DOI:10.1007/s11356-017-9938-9
PMID:28815412
Abstract

This work is dedicated to study the potential application of char byproducts obtained in the gasification of rice husk (RG char) and rice husk blended with corn cob (RCG char) as removal agents of two emergent aquatic contaminants: tetracycline and caffeine. The chars presented high ash contents (59.5-81.5%), being their mineral content mainly composed of silicon (as silica) and potassium. The samples presented a strong basic character, which was related to its higher mineral oxides content. RCG char presented better textural properties with a higher apparent surface area (144 m g) and higher micropore content (V  = 0.05 cm g). The alkaline character of both chars promoted high ecotoxicity levels on their aqueous eluates; however, the ecotoxic behaviour was eliminated after pH correction. Adsorption experiments showed that RG char presented higher uptake capacity for both tetracycline (12.9 mg g) and caffeine (8.0 mg g), indicating that textural properties did not play a major role in the adsorption process. For tetracycline, the underlying adsorption mechanism was complexation or ion exchange reactions with the mineral elements of chars. The higher affinity of RG char to caffeine was associated with the higher alkaline character presented by this char.

摘要

本工作致力于研究稻壳(RG 炭)和稻壳与玉米芯混合物(RCG 炭)气化过程中产生的炭副产品作为两种新兴水污染物:四环素和咖啡因的去除剂的潜在应用。这些炭的灰分含量很高(59.5-81.5%),其矿物质含量主要由硅(如二氧化硅)和钾组成。这些样品具有很强的碱性,这与其较高的矿物质氧化物含量有关。RCG 炭具有更好的表面结构特性,具有更高的表观表面积(144 m g)和更高的微孔含量(V = 0.05 cm g)。两种炭的碱性都导致其水提物具有很高的生态毒性水平;然而,在 pH 值校正后,生态毒性行为被消除。吸附实验表明,RG 炭对四环素(12.9 mg g)和咖啡因(8.0 mg g)的吸附容量都更高,这表明表面结构特性在吸附过程中没有起到主要作用。对于四环素,其吸附机制是与炭中矿物质元素的络合或离子交换反应。RG 炭对咖啡因的更高亲和力与该炭所具有的更高碱性特征有关。

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