高效尺寸排阻色谱法和荧光激发发射矩阵法测定生物滤池硝化过程中的有机物。

IF 3.1 Q2 ENVIRONMENTAL SCIENCES

GLOBAL JOURNAL OF ENVIRONMENTAL SCIENCE AND MANAGEMENT-GJESM Pub Date : 2020-04-01 DOI:10.22034/GJESM.2020.02.01

E. N. Hidayah, W. Lai, O. Cahyonugroho, F. Rizqa

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引用次数: 3

摘要

采用高效尺寸排阻色谱法与有机碳检测器、紫外检测器相结合，结合峰值拟合技术和荧光激发发射矩阵光谱法，应用荧光区域积分法测定硝化过程中有机物的特性。在好氧条件下，在没有有机碳底物的情况下分批规模的bionet硝化操作约150分钟。分析了本体有机参数和NH4+-N浓度。用色谱法鉴定了五种不同分子量的有机物，并用荧光法检测了五组不同的荧光团有机组分。根据碳和紫外检测器的色谱分析，硝化过程中有机物的主要特征从碳/紫外检测器峰面积百分比为31%/53%至14%/27.5%的构建块芳香族化合物转变为碳/紫外线检测器峰面积百分数为21%/17%至27%/46.5%的腐殖类物质。这些前化合物是可生物降解的，也是在底物利用和内源阶段释放的微生物产物的性质，主要被鉴定为类腐殖物质，从而进行了进一步的生物降解。然而，荧光团有机组分发生了显著变化，如荧光激发-发射矩阵分析所示，其表现出腐殖酸样，荧光区域指数百分比从53%变为68%。这些方法的结合表明，硝化过程中释放的有机物主要由腐殖化合物组成。这些结果推测，将高效尺寸排阻色谱与碳和紫外检测器以及荧光激发发射矩阵相结合，可以用于测定硝化过程中有机物和水质变化的特征。

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Organic matter from biofilter nitrification by high performance size exclusion chromatography and fluorescence excitation-emission matrix.

A combination of high performance size exclusion chromatography with organic carbon detector and ultraviolet detector coupled with peak-fitting technique and fluorescence excitation-emission matrix spectrometry applied fluorescence regional integration method was conducted to determine the characteristics of organic matter during nitrification. The batch scale of bionet nitrification without organic carbon substrate under aerobic conditions was operated for around 150 minutes. Bulk organic parameters and NH4+-N concentration were analyzed. Five different molecular weights of organic matter were identified by using chromatography, and five different groups of fluorophores organic fractions detected by fluorescence. According to chromatography with carbon and ultraviolet detector, the main characteristics of organic matter shifted from building blocks aromatic compounds with percentage peak area of carbon/ultraviolet detector: 31%/53% to 14%/27.5% to humic-like substances with percentage peak area of carbon/ultraviolet detector 21%/17% to 27%/46.5% during nitrification. Those former compounds are biodegradable as well as properties of microbial products released during substrate utilization and endogenous phase, which are mainly identified as humic-like substances, thus underwent further biodegradation. However, there was significant change in the fluorophores organic fractions, which exhibited humic acid-like with percentage fluorescence regional index area 53% into 68%, as shown by fluorescence excitation-emission matrix analysis. A combination of these methods indicated that the organic matter released during nitrification mainly consists of humic compounds. These results conjecture that a combination of high performance size exclusion chromatography with carbon and ultraviolet detector and fluorescence excitation-emission matrix can be used to determine the characteristic of organic matter and water quality change during nitrification.

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来源期刊

GLOBAL JOURNAL OF ENVIRONMENTAL SCIENCE AND MANAGEMENT-GJESM ENVIRONMENTAL SCIENCES-

CiteScore

7.90

自引率

2.90%

发文量

审稿时长

8 weeks