硼掺杂金刚石阳极处理垃圾渗滤液中有机化合物及铵态氮的电化学氧化动力学

Kinetics of the Organic Compounds and Ammonium Nitrogen Electrochemical Oxidation in Landfill Leachates at Boron-Doped Diamond Anodes.

作者信息

Wilk Barbara Krystyna, Szopińska Małgorzata, Luczkiewicz Aneta, Sobaszek Michał, Siedlecka Ewa, Fudala-Ksiazek Sylwia

机构信息

Department of Water and Wastewater Technology, Faculty of Civil and Environmental Engineering, Gdansk University of Technology, 11/12 Narutowicza St., 80-233 Gdansk, Poland.

Department of Metrology and Optoelectronics, Faculty of Electronics, Telecommunication and Informatics, Gdansk University of Technology, 11/12 Narutowicza St., 80-233 Gdansk, Poland.

出版信息

Materials (Basel). 2021 Aug 31;14(17):4971. doi: 10.3390/ma14174971.

DOI:10.3390/ma14174971

PMID:34501059

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8433647/

Abstract

Electrochemical oxidation (EO) of organic compounds and ammonium in the complex matrix of landfill leachates (LLs) was investigated using three different boron-doped diamond electrodes produced on silicon substrate (BDD/Si)(levels of boron doping [B]/[C] = 500, 10,000, and 15,000 ppm-0.5 k; 10 k, and 15 k, respectively) during 8-h tests. The LLs were collected from an old landfill in the Pomerania region (Northern Poland) and were characterized by a high concentration of N-NH (2069 ± 103 mg·L), chemical oxygen demand (COD) (3608 ± 123 mg·L), high salinity (2690 ± 70 mg Cl·L, 1353 ± 70 mg SO·L), and poor biodegradability. The experiments revealed that electrochemical oxidation of LLs using BDD 0.5 k and current density (j) = 100 mA·cm was the most effective amongst those tested (C/C: COD = 0.09 ± 0.14 mg·L, N-NH = 0.39 ± 0.05 mg·L). COD removal fits the model of pseudo-first-order reactions and N-NH removal in most cases follows second-order kinetics. The double increase in biodegradability index-to 0.22 ± 0.05 (BDD 0.5 k, j = 50 mA·cm) shows the potential application of EO prior biological treatment. Despite EO still being an energy consuming process, optimum conditions (COD removal > 70%) might be achieved after 4 h of treatment with an energy consumption of 200 kW·m (BDD 0.5 k, j = 100 mA·cm).

摘要

采用在硅基底上制备的三种不同硼掺杂金刚石电极（BDD/Si）（硼掺杂水平[B]/[C]分别为500、10000和15000 ppm - 0.5 k、10 k和15 k），在8小时的测试中研究了垃圾渗滤液（LLs）复杂基质中有机化合物和铵的电化学氧化。这些垃圾渗滤液取自波兰北部波美拉尼亚地区的一个旧垃圾填埋场，其特点是高浓度的N - NH（2069±103 mg·L）、化学需氧量（COD）（3608±123 mg·L）、高盐度（2690±70 mg Cl·L，1353±70 mg SO·L）以及较差的生物降解性。实验表明，在测试的条件中，使用BDD 0.5 k且电流密度（j）= 100 mA·cm对垃圾渗滤液进行电化学氧化最为有效（C/C：COD = 0.09±0.14 mg·L，N - NH = 0.39±0.05 mg·L）。COD去除符合准一级反应模型，在大多数情况下N - NH去除遵循二级动力学。生物降解性指数提高两倍至0.22±0.05（BDD 0.5 k，j = 50 mA·cm）表明电化学氧化在生物处理之前的潜在应用。尽管电化学氧化仍然是一个耗能过程，但在200 kW·m的能耗下处理4小时后可能达到最佳条件（COD去除> 70%）（BDD 0.5 k，j = 100 mA·cm）。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9085/8433647/c06364a4d753/materials-14-04971-g0A1.jpg

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硼掺杂金刚石阳极处理垃圾渗滤液中有机化合物及铵态氮的电化学氧化动力学

Kinetics of the Organic Compounds and Ammonium Nitrogen Electrochemical Oxidation in Landfill Leachates at Boron-Doped Diamond Anodes.

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