National Institute of Standards and Technology, 100 Bureau Drive, Gaithersburg, MD 20899, USA.
J Air Waste Manag Assoc. 2013 May;63(5):565-74. doi: 10.1080/10962247.2013.773951.
Ambient ozone measurements in the United States and many other countries are traceable to a National Institute of Standards and Technology Standard Reference Photometer (NIST SRP). The NIST SRP serves as the highest level ozone reference standard in the United States, with NIST SRPs located at NIST and at many U.S. Environmental Protection Agency (EPA) laboratories. The International Bureau of Weights and Measures (BIPM) maintains a NIST SRP as the reference standard for international measurement comparability through the International Committee of Weights and Measures (CIPM). In total, there are currently NIST SRPs located in 20 countries for use as an ozone reference standard. A detailed examination of the NIST SRP by the BIPM and NIST has revealed a temperature gradient and optical path-length bias inherent in all NIST SRPs. A temperature gradient along the absorption cells causes incorrect temperature measurements by as much as 2 degrees C. Additionally, the temperature probe used for temperature measurements was found to inaccurately measure the temperature of the sample gas due to a self-heating effect. Multiple internal reflections within the absorption cells produce an actual path length longer than the measured fixed length used in the calculations for ozone mole fractions. Reflections from optical filters located at the exit of the absorption cells add to this effect. Because all NIST SRPs are essentially identical, the temperature and path-length biases exist on all units by varying amounts dependent upon instrument settings, laboratory conditions, and absorption cell window alignment. This paper will discuss the cause of and physical modifications for reducing these measurement biases in NIST SRPs. Results from actual NIST SRP bias upgrades quantifying the effects of these measurement biases on ozone measurements are summarized.
NIST SRPs are maintained in laboratories around the world underpinning ozone measurement calibration and traceability within and between countries. The work described in this paper quantifies and shows the reduction of instrument biases in NIST SRPs improving their overall agreement. This improved agreement in all NIST SRPs provides a more stable baseline for ozone measurements worldwide.
美国和许多其他国家的环境臭氧测量都可追溯到美国国家标准与技术研究院标准参考光度计(NIST SRP)。NIST SRP 是美国臭氧的最高级别参考标准,在美国国家标准与技术研究院和许多美国环境保护署(EPA)实验室都有 NIST SRP。国际度量衡局(BIPM)通过国际计量委员会(CIPM)维护一个 NIST SRP,作为国际测量可比性的参考标准。目前,全球共有 20 个国家使用 NIST SRP 作为臭氧参考标准。BIPM 和 NIST 对 NIST SRP 进行了详细检查,发现所有 NIST SRP 都存在固有温度梯度和光程偏差。吸收池中的温度梯度会导致温度测量错误,最大可达 2 摄氏度。此外,用于温度测量的温度探头由于自热效应而无法准确测量样品气体的温度。吸收池内的多次内部反射会产生比计算臭氧摩尔分数时所用的固定测量长度实际更长的路径长度。吸收池出口处的光学滤波器的反射也会增加这种效果。由于所有 NIST SRP 基本上都是相同的,因此根据仪器设置、实验室条件和吸收池窗口对准情况,这些温度和光程偏差在所有单元中以不同的量存在。本文将讨论 NIST SRP 中这些测量偏差的产生原因和物理修正方法。总结了实际 NIST SRP 偏差升级对臭氧测量中这些测量偏差的影响的结果。
NIST SRP 在世界各地的实验室中得到维护,为各国之间和各国内部的臭氧测量校准和可追溯性提供支持。本文所述的工作量化并展示了 NIST SRP 中仪器偏差的减少,提高了它们的整体一致性。所有 NIST SRP 中这种改进的一致性为全球臭氧测量提供了更稳定的基线。
