在线水质荧光指纹预警溯源系统校准方法研究

    Research on Calibration Methods for Online Water Quality Fluorescence Fingerprint Early Warning and Traceability Systems

    • 摘要: 随着水环境监测从现状监测向预警溯源监测的跨越,提升水污染预警溯源能力成为构建水环境监测体系的重要构成。在线水质荧光指纹预警溯源系统是快速准确实现水污染预警溯源的关键设备,其性能的准确可靠直接影响到检测结果的有效性。针对目前国内尚无现行有效的国家计量技术规范对在线水质荧光指纹溯源系统开展有效溯源,为完善其量值溯源体系,保障水环境污染监测结果的准确性,根据在线水质荧光指纹预警溯源系统的结构和工作原理,提出了信噪比、零点漂移、量程漂移、重复性、测量线性和检出限等校准项目并介绍了其校准方法,给出了校准实例及检出限测量结果不确定度的评定过程。其中信噪比S/N为259.91;测量线性为0.9986;检出限为0.0017 mg/L,其扩展不确定度为0.0010 mg/L(k=2);零点漂移和量程漂移分别为0.19%和0.40%;测量重复性为2.15%。结果表明,该校准方法能够准确可靠地对在线水质荧光指纹预警溯源系统的综合性能进行评价,校准过程及不确定度评定范例可为相关仪器的校准工作提供参考。

       

      Abstract: With the leap from current monitoring to early warning and traceability monitoring in water environment monitoring, Improving the ability of water pollution warning and tracing has become an important component of building water environment monitoring system. The online fluorescence fingerprint warning and tracing system for water quality is key equipment for quickly and accurately realizing water pollution warning and tracing, The accuracy and reliability of its performance directly affect the effectiveness of the detection results. Regarding the current lack of national metrological technical specifications for effective traceability of online water quality fluorescence fingerprint traceability systems in China, In order to improve its traceability system and ensure the accuracy of water environment pollution monitoring results, This article introduces the calibration method of the online water quality warning and traceability system based on its structure and working principle, Calibration projects such as signal-to-noise ratio, zero drift, range drift, repeatability, measurement linearity, and detection limit are proposed. At the same time, calibration examples and the evaluation process of uncertainty in detection limit measurement results are provided. The signal-to-noise ratio S/N is 259.91; The measured linear correlation coefficient is 0.9986; The limit of detection is 0.0017 mg/L with an expanded uncertainty to be 0.0010 mg/L(k=2); Zero drift is 0.19%; Range drift is 0.40%; The measurement repeatability is 2.15%. The results indicate that this calibration method can accurately and reliably evaluate the comprehensive performance of the online water ripple warning and traceability system, and the calibration process and uncertainty assessment examples can provide reference for the calibration work of related instruments.

       

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