[1]田 利,戴 鑫,陈裕忠,等.一种智能型氢电导率测量方法研究及应用[J].热力发电,2018,(10):84-89.[doi:10.19666/j.rlfd.201712114]
 TIAN Li,DAI Xin,CHEN Yuzhong,et al.Research and application of an intelligent hydrogen conductivity measurement method[J].Thermal Power Generation,2018,(10):84-89.[doi:10.19666/j.rlfd.201712114]
点击复制

一种智能型氢电导率测量方法研究及应用

参考文献/References:

[1] 火力发电机组及蒸汽动力设备水汽质量: GB/T 12145—2016[S].
Quality criterion of water and steam for power plant and steam-generating equipment: GB/T 12145—2016[S].
[2] 火力发电厂水汽分析方法 第二十九部分: 氢电导率的测定: DL/T 502.29—2006[S].
Analytical methods of steam and water in power plants Part 29: Determination of cation conductivity: DL/T 502.29—2006[S].
[3] Standard test method for on-line determination of anions and carbon dioxide in high purity water by cation exchange and degassed cation conductivity: ASTM D 4519-1994[S].
[4] 曹求洋, 钱州亥, 陈颖, 等. 采用氢电导率监测炉水阴离子含量研究[J]. 热力发电, 2009, 38(4): 73-76.
CAO Qiuyang, QIAN Zhouhai, CHEN Ying, et al. Study on monitoring anion content in boiler water by using hydrogen conductivity[J]. Thermal Power Generation, 2009, 38(4): 73-76.
[5] 李志成, 王应高. 在线氢电导率表离子交换柱附加误差研究[J]. 热力发电, 2011, 40(3): 21-23.
LI Zhicheng, WANG Yinggao. Study on additional error of ion exchange column by using on-line hydrogen conductivity meter[J]. Thermal Power Generation, 2011, 40(3): 21-23.
[6] 张维科, 郑斐斐. 再生方法对阳离子交换树脂再生度的影响[J]. 热力发电, 2013, 42(3): 88-89.
ZHANG Weike, ZHENG Feifei. Influence of regeneration method on regeneration degree of cation exchange resins[J]. Thermal Power Generation, 2013, 42(3): 88-89.
[7] 刘玮, 王振平. 阳离子交换树脂对氢电导率测量的影响[J]. 热力发电, 2013, 42(10): 137-140.
LIU Wei, WANG Zhenping. Effect of cation exchange resin on hydrogen conductivity measurement[J]. Thermal Power Generation, 2013, 42(10): 137-140.
[8] 张洪博, 曹松彦, 王海莲, 等. 炉水氢电导率偏高的原因分析及解决措施[J]. 工业水处理, 2017, 37(2): 108-110.
ZHANG Hongbo, CAO Songyan, WANG Hailian, et al. Analysis and countermeasures of high hydrogen conductivity in furnace water[J]. Industrial Water Treatment, 2017, 37(2): 108-110.
[9] 苏永. 300MW机组水汽品质异常原因分析与处理[J]. 电力安全技术, 2016, 18(7): 52-54.
SU Yong. Analysis and treatment of abnormal water vapor quality of 300MW unit[J]. Electric Power Safety Technology, 2016, 18(7): 52-54.
[10] 王国蓉, 李继刚, 游喆, 等. 氢电导率和脱气氢电导率联合测试技术在凝结水系统故障识别中的应用[J]. 净水技术, 2012, 31(6): 77-81.
WANG Guorong, LI Jigang, YOU Zhe, et al. Application of combined test of hydrogen conductivity and deaerated hydrogen conductivity in fault identification of condensate system[J]. Water Purification Technology, 2012, 31(6): 77-81.
(责任编辑 李园)

相似文献/References:

[1]曹求洋,钱州亥,陈 颖,等.采用氢电导率监测炉水阴离子含量研究[J].热力发电,2009,(04):0.
[2]李志成,王应高.在线氢电导率表离子交换柱附加误差研究[J].热力发电,2011,(03):20.
 LI Zhicheng,WANG Yinggao.STUDY ON ADDITIONAL ERROR OF ION EXCHANGE COLUMN BY USING ON[CD*2]LINE HYDROGEN CONDUCTIVETY METER[J].Thermal Power Generation,2011,(10):20.
[3]李志刚,沈保中,黄万启.锅炉给水加氧转换期间铬酸根离子释放研究[J].热力发电,2012,(02):47.
 LI Zhigang,SHEN Baozhong,HUANG Wanqi.STUDY ON CrO24RELEASING IN CONVERTING PROCESS OF ADDING OXYGEN INTO FEEDWATER FOR BOILERS[J].Thermal Power Generation,2012,(10):47.
[4]曹杰玉.火力发电机组水汽系统氢电导率的测量[J].热力发电,2003,(11):0.
[5]刘 玮,曹杰玉.电厂高纯水电导率及氢电导率温度系数的试验研究[J].热力发电,2005,(08):0.
[6]慕晓炜,郑敏聪,李建华.凝结水精处理混床运行控制指标分析与确定[J].热力发电,2013,(10):134.
 MU Xiaowei,ZHENG Mincong,LI Jianhua.Operation and control of the condensate polishing mixed beds[J].Thermal Power Generation,2013,(10):134.
[7]刘玮,王振平.阳离子交换树脂对氢电导率测量的影响[J].热力发电,2013,(10):137.
 LIU Wei,WANG Zhenping.Effect of cation exchange resin on hydrogen conductivity measurement[J].Thermal Power Generation,2013,(10):137.

备注/Memo

田利(1970—),女,硕士,教授级高工,主要研究方向为电厂化学监督及腐蚀监控技术,tianli@tpri.com.cn。

更新日期/Last Update: 2018-09-29