一种超长杆铂电阻温度计校准装置

doi:10.3969/j.issn.1000-1158.2020.12.06

摘要
图/表
参考文献(13)
相关文章 (15)

全文: PDF (928 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要核电站所用的铂电阻温度计总长度超过3m,温度计的感温元件长度接近3m,常规的校准系统不能用于此类超长杆温度计的性能评估。介绍了一种用于核电站的超长杆铂电阻温度计的校准实验装置,通过实验验证,该系统的温度稳定性优于±0.015℃,水平和垂直温度均匀性分别优于0.05℃和0.02℃,标准不确定度和扩展不确定度分别为0.016℃和0.032℃,该实验系统可有效地评估长杆铂电阻温度计的性能。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	曾佳旭
	潘江
	雷珍珍
	赵文娟
	赵晓东
	孙建平

关键词 ：计量学, 铂电阻温度计, 超长杆, 校准系统, 压水堆, 性能评估

Abstract：Usually, the length of the platinum resistance thermometer for nuclear power plants is longer than 3meters, even the sensing element length of some thermometers is nearly 3meters. For this reason, the performance evaluation cannot be carried out with the common experimental systems. A special experimental system for these super long stem platinum resistance thermometers for nuclear power plants was designed. The performance of the experimental system was experimentally studied. The temperature stability of the experimental system is better than ±0.015℃. The horizontal and vertical temperature uniformity of the system are better than 0.05℃ and 0.02℃, respectively. The measurement uncertainty of the experimental system is 0.016℃, and the expanded uncertainty is 0.032℃, respectively. The results showed that the experimental system could be used to effectively evaluate the performance of the long stem platinum resistance thermometer.

Key words： metrology platinum resistance thermometer super long stem calibration device pressurized water reactor performance evaluation

收稿日期: 2019-04-03 发布日期: 2020-12-08

PACS:

TB942

基金资助:国家重点研发计划重点专项(2017YFF0205900;2017YFF0205904)

通讯作者: 潘江(1974-),男,山西文水人,中国计量大学副教授,主要从事热工参数及热物性测试方面的研究。Email: panjiang@cjlu.edu.cn E-mail: 15757164955@163.com

作者简介: 曾佳旭(1993-),女,山东日照人,中国计量大学研究生,研究方向为热工参数及热物性测试。Email: 15757164955@163.com

引用本文:

曾佳旭,潘江,雷珍珍,赵文娟,赵晓东,孙建平. 一种超长杆铂电阻温度计校准装置[J]. 计量学报, 2020, 41(12): 1482-1487.
ZENG Jia-xu,PAN Jiang,LEI Zhen-zhen,ZHAO Wen-juan,ZHAO Xiao-dong,SUN Jian-ping. Apparatus for the Performance Evaluation of Super Long Stem Platinum Resistance Thermometer in Nuclear Power Plant. Acta Metrologica Sinica, 2020, 41(12): 1482-1487.

链接本文:

http://jlxb.china-csm.org:81/Jwk_jlxb/CN/10.3969/j.issn.1000-1158.2020.12.06 或 http://jlxb.china-csm.org:81/Jwk_jlxb/CN/Y2020/V41/I12/1482

［1］Hashemian H M, Jiang J. Accuracy in temperature sensor response time estimation for new nuclear reactor designs［J］. International Journal of Nuclear Energy Science and Technology, 2011, 6(1): 17.
［2］王皓, 高宏堂, 薛梓, 等. 基于热电偶的mK级精度测温系统［J］. 计量学报, 2014, 35(z1): 158-163.
Wang H, Gao H T, Xue Z, et al. Temperature Measurement System Based on Thermocouple with mK Precision［J］. Acta Metrologica Sinica, 2014, 35(z1): 158-163.
［3］Durmayaz A, Sogut O S. Influence of cooling water temperature on the efficiency of a pressurized-water reactor nuclear-power plant［J］. International Journal of Energy Research, 2006, 30(10): 799-810.
［4］Gaán J, Rahman Al-Kassir A, González J F, et al. Influence of the cooling circulation water on the efficiency of a thermonuclear plant［J］. Applied Thermal Engineering, 2005, 25(4): 485-494.
［5］余娜. 中国核电站冷却水“热污染”调查［J］. 中国能源, 2016, (2): 82-88.
Yu N. Investigation on “thermal pollution” of cooling water in nuclear power plants in China［J］. Energy of China, 2016, (2): 82-88.
［6］Ibrahim S M A, Attia S I. The influence of condenser cooling seawater fouling on the thermal performance of a nuclear power plant［J］. Annals of Nuclear Energy, 2015, 76: 421-430.
［7］Linnerud Kristin, Mideksa Torben K, Eskeland Gunnar S. 2011. The Impact of Climate Change on Nuclear Power Supply［J］. Energy Journal, 2011, 32(1): 149-168.
［8］Zeng M, Wang S C, Duan J H, et al. Review of nuclear power development in China: Environment analysis, historical stages, development status, problems and countermeasures［J］. Renewable and Sustainable Energy Reviews, 2016, 59: 1369-1383.
［9］曾凡超, 曾兵, 孙建平, 等. 基于微型Ga-Sn共晶点的精密铂电阻温度计现场标定［J］. 计量学报, 2015, 36(z1): 28-31.
Zeng F C, Zeng B, Sun J P, et al. Precision Platinum Resistance Thermometer inthe Field Calibration Based on Miniature Ga-Sn Eutectic Point［J］. Acta Metrologica Sinica, 2015, 36(z1): 28-31.
［10］张恒,曾凡超,文昌俊,等. 一种高精度薄膜铂电阻温度计测量迟滞性的研究［J］. 计量学报, 2019, 40(6): 1025-1029.
Zhang H,Zeng F C,Wen C J, et al. Research on Hysteresis of the High-precision Thin-film Platinum Tesistance Thermometers［J］. Acta Metrologica Sinica, 2019, 40(6): 1025-1029.

［10］孙建平, 曾凡超, 张琳, 等. 微型镓基共晶点现场精密铂电阻温度计校准研究［J］. 计量学报, 2015, 36(6A): 32-36.
Sun J P, Zeng F C, Zhang L, et al. Onsite Calibration of the Precision Industrial Platinum Resistance Thermometer Based on Gallium and Gallium-Based Small-size Eutectic Points［J］. Acta Metrologica Sinica, 2015, 36(6A): 32-36.
［11］Hashemian H M. On-line monitoring applications in nuclear power plants［J］. Progress in nuclear engergy, 2011, 53(2): 167-181.
［12］梁志国, 吕国义, 尹肖, 等. 一种适用于现场原位校准的双输入激励方法［J］. 计量学报, 2019, 40(1): 140-145.
Liang Z G, Lü G Y, Yin X, et al. A Novel on Site Calibration Method by Using Double Stimulations［J］. Acta Metrologica Sinica, 2019, 40(1): 140-145.
［13］JJG 229-2010 工业铂、铜热电阻检定规程［S］. 2010.