Vapor Pressure of Water at Its Triple Point.

Journal of Research of the National Bureau of Standards. Section A, Physics and Chemistry Pub Date : 1976-05-01 Epub Date: 1976-06-01 DOI:10.6028/jres.080A.054

L A Guildner, D P Johnson, F E Jones

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Abstract

The vapor pressure of water at its triple point was measured with exceptionally high accuracy by realizing it with a special apparatus and measuring the pressure with the NBS precision mercury manometer. The vapor pressure apparatus had a system for circulating the liquid water. Actual triple point conditions were established with a thin sheet of freshly distilled liquid flowing down over an exposed mantle of ice frozen on a vertical well. This technique reduced non-volatile contaminants and the vapor was repeatedly pumped to remove accumulated volatile contaminants. A diaphragm pressure transducer was used to separate the water vapor from the helium used to transmit the pressure to the manometer. The value found for the vapor pressure of water at its triple point was 611.657 Pa with an uncertainty of ± 0.010 Pa from random errors, computed at 99 percent confidence limits. The systematic errors are estimated to be insignificant relative to the random errors.

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水在三相点时的蒸气压。

水在三相点的蒸气压是通过一种特殊的仪器实现的，并使用 NBS 精密水银压力计测量压力，测量精度极高。水蒸气压仪器有一个液态水循环系统。实际的三相点条件是通过在垂直井上冻结的裸露冰层上流下一薄层新蒸馏的液体来确定的。这种技术减少了非挥发性污染物，并反复抽取水蒸气以去除累积的挥发性污染物。使用隔膜压力传感器将水蒸气与氦气分离，将压力传递到压力计。水在三相点的蒸汽压力值为 611.657 帕，随机误差的不确定性为 ± 0.010 帕，按 99% 的置信限计算。与随机误差相比，系统误差估计微不足道。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Research of the National Bureau of Standards. Section A, Physics and Chemistry

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