模拟淡水中硒、砷和低分子量有机物的中试人工湿地处理系统的性能

Q2 Earth and Planetary Sciences
Michael M. Spacil, J. Rodgers, J. W. Castle, W. Chao
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引用次数: 12

摘要

作为石油开采的副产物,可能会产生含有硒(Se)、砷(As)和低分子量有机物(LMWOs)的采出水(PWs)。设计和建造了中试规模的人工湿地处理系统(CWTSs),以评估从模拟新鲜PW (SFPW)中去除这些成分的情况。研究目的是表征新鲜PW并确定关注点成分(COC);制定SFPW;为SFPW设计和建造中试规模的CWTS;并测量性能(即COC去除率和范围)。本研究的处理目标是通过微生物还原将SFPW中的硒浓度从大约50 g/L降低到5 g/L以下;通过铁共沉淀法使SFPW中的As浓度从约20 g/L降至5 g/L以下;并通过生物降解将SFPW中的LMWO浓度从大约25 mg/L降低到小于1 mg/L。为了确定COC的去除率和程度以及环境因素,测量包括分析Se、As、LMWOs、溶解氧、电导率、pH、氧化还原电位、碱度、硬度和温度。平均流出量Se浓度从小于1到47.1 g/L不等。平均流出量As浓度为5.7 ~ 9.5 g/L,所有处理和未处理对照的平均流出量LMWO浓度均小于1 mg/L。有机碳改进剂对Se的去除效果显著,对As和LMWO的去除效果无显著影响。这项中试研究表明,CWTSs可以提高SFPW中硒的去除量,并且可以达到严格的排放限制。同时靶向硒的cwts脱除砷的技术有待进一步的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance of a pilot-scale constructed wetland treatment system for selenium, arsenic, and low-molecular-weight organics in simulated fresh produced water
A by-product of petroleum extraction, produced waters (PWs) containing selenium (Se), arsenic (As), and low-molecular-weight organics (LMWOs) may be generated. Pilot-scale constructed wetland treatment systems (CWTSs) were designed and built to evaluate the removal of these constituents from simulated fresh PW (SFPW). Study objectives were to characterize a fresh PW and determine the constituents of concern (COC); formulate an SFPW; design and build a pilot-scale CWTS for SFPW; and measure performance (i.e., COC removal rates and extents). The treatment goals for this study were to decrease Se concentration in SFPW from approximately 50 g/L to less than 5 g/L via microbial reduction; decrease As concentration in SFPW from approximately 20 g/L to less than 5 g/L via iron coprecipitation; and decrease LMWO concentration in SFPW from approximately 25 mg/L to less than 1 mg/L via biodegradation. To determine COC removal rates and extents and environmental factors, measurements included analysis of Se, As, LMWOs, dissolved oxygen, conductivity, pH, oxidation-reduction potential, alkalinity, hardness, and temperature. Mean outflow Se concentrations ranged from less than 1 to 47.1 g/L. Mean outflow As concentrations ranged from 5.7 to 9.5 g/L, and the mean outflow LMWO concentrations were less than 1 mg/L for all treatments and the untreated control. Organic carbon amendments had a significant effect on Se removal and no effect on As or LMWO removal. This pilot-scale study illustrates that CWTSs can enhance Se removal from SFPW and that removal can be achieved to meet stringent discharge limits. More research is needed to advance the techniques of As removal in CWTSs designed to simultaneously target Se.
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来源期刊
Environmental Geosciences
Environmental Geosciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)
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