供热工况下超临界机组水汽氢电导率异常研究分析
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李海洋,王仁雷,祁东东,王冬梅
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Study and analysis of supercritical unit's abnormal hydrogen conductivity of water and vapor under heat addition
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Haiyang Li,Renlei Wang,Dongdong Qi,Dongmei Wang
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表5 2种工况下给水和主蒸汽的理论氢电导率计算结果
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| 离子 | 极限摩尔电导率/
(S·cm2·mol-1) | 不供热时质量浓度/(μg·L-1) | | 供热时质量浓度/(μg·L-1) | | 给水 | 主蒸汽 | | 给水 | 主蒸汽 | | H+ | 350.0 | — | — | | — | — | | F- | 54.4 | <0.1 | <0.1 | <0.1 | <0.1 | | CH3COO- | 40.9 | <0.2 | 5.32 | <0.2 | 11.76 | | HCOO- | 54.6 | <0.2 | 1.47 | <0.2 | 3.05 | | Cl- | 76.4 | 0.16 | 0.28 | 0.35 | 0.63 | | NO2- | 71.8 | <0.2 | <0.2 | <0.2 | <0.2 | | NO3- | 71.4 | <0.2 | <0.2 | <0.2 | <0.2 | | PO43- | 69.0 | <0.2 | <0.2 | <0.3 | <0.3 | | SO42- | 80.0 | <0.3 | <0.3 | 0.49 | <0.2 | | 理论氢电导率/(μS·cm-1) | <0.060 | <0.087 | | <0.062 | <0.137 | | 实际氢电导率/(μS·cm-1) | 0.080 | 0.097 | 0.104 | 0.152 |
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