EFFECTS OF ACID AND ALKALINE TREATMENTS ON EFFICIENCY OF DIATOMACEOUS EARTH IN REMOVAL OF TETRACYCLINE IN AQUEOUS SOLUTION

Q4 Earth and Planetary Sciences

ASEAN Engineering Journal Pub Date : 2023-08-30 DOI:10.11113/aej.v13.20194

Sarawut Sinpichai, R. Yuangsawad, Duangkamol Na-Ranong

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Abstract

Contamination of tetracycline (TC) in environment may cause serious problems relating to increase of antibiotic resistance and development of new deceases. This paper focuses on TC removal by simple adsorption treatment and utilization of natural diatomaceous earth (NDE) as a cheap adsorbent. To improve efficiency of NDE, an impregnation method using acid (H2SO4) or base (KOH) was applied to modify NDE and influences of important activation parameters, concentration of reagent (Creagent), ratio of NDE weight and activating solution volume (NDE-to-Sol), temperature (Tact) and time (tact), on the efficiencies of the obtained acid and base activated diatomaceous earths (ADE and BDE) were investigated. Batch adsorption experiment was performed at the same condition to evaluate TC adsorption capacities at equilibrium (qe, TC) of NDE, ADE and BDE. It was found that acid activation negatively affected qe, TC and increases of CH2SO4, Tact and tact resulted in poorer ADE. In contrast, qe, TC was successfully enhanced through activation by KOH; Tact and tact played more significant roles on the enhancement, comparing with CKOH and NDE-to-Sol; impregnation at higher Tact and longer tact could improve efficiency of BDE and the best BDE (BDE-B) with the highest qe, TC (86.31 mg/g) was obtained at 3 M, 0.1 g/ml, 80 °C and 9 h.

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酸、碱处理对硅藻土去除水中四环素的影响

四环素（TC）在环境中的污染可能引起严重的问题，这些问题与抗生素耐药性的增加和新疾病的发展有关。本文主要研究了天然硅藻土（NDE）作为一种廉价的吸附剂，通过简单的吸附处理去除TC。为了提高无损检测的效率，采用了使用酸（H2SO4）或碱（KOH）的浸渍方法来修改无损检测以及重要活化参数、试剂浓度（Creagent）、无损检测重量与活化溶液体积之比（NDE与Sol）、温度（Tact）和时间（Tact）的影响，研究了所获得的酸和碱活化硅藻土（ADE和BDE）的效率。在相同条件下进行分批吸附实验，以评估NDE、ADE和BDE在平衡（qe，TC）下对TC的吸附能力。研究发现，酸活化对qe、TC产生负面影响，CH2SO4、Tact和Tact的增加导致ADE较差。相反，通过KOH的活化，qe、TC得到了成功的增强；与CKOH和NDE相比，策略和策略对Sol的增强作用更为显著；在更高的Tact和更长的Tact下浸渍可以提高BDE的效率，并且在3M、0.1g/ml、80°C和9h下获得了具有最高qe、TC的最佳BDE（BDE-B）（86.31mg/g）。

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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来源期刊

ASEAN Engineering Journal Engineering-Engineering (all)

CiteScore

0.60

自引率

0.00%

发文量