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多水源供水模式下管网腐蚀产物释放与应对措施初探 被引量:9
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作者 顾军农 《城镇供水》 2010年第1期66-70,共5页
某市现有水源水质的Larson指数与应急调水水源1的Larson指数相差较大(后者为前者的4-5倍),从而造成腐蚀管网(铁制管材)表面稳定的致密层遭到破坏,内部腐蚀产物释放,引起管网水质发黄。相应的应对措施如下:调节pH在8.5—10之间... 某市现有水源水质的Larson指数与应急调水水源1的Larson指数相差较大(后者为前者的4-5倍),从而造成腐蚀管网(铁制管材)表面稳定的致密层遭到破坏,内部腐蚀产物释放,引起管网水质发黄。相应的应对措施如下:调节pH在8.5—10之间时,可以有效控制管网内部腐蚀(药剂成本5.4分/m3);投加磷酸盐缓蚀剂(浓度为0.4mg/L)时,也可以控制管网内部腐蚀(药剂成本1.02分/m3);根据生产性试验发现,调节外调水和原地表水源的勾兑比例(2:8)也是控制管网腐蚀产物释放的一个可行方案,该方案不需要外加药剂,即保证了管网水质的安全性又节约了制水成本。 展开更多
关键词 多水源供水 “黄水”现象 管网腐蚀 Larson指数
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水源切换引发供水管网腐蚀产物释放的控制对策 被引量:10
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作者 米子龙 张晓健 +2 位作者 邬慧婷 陈超 汪隽 《中国给水排水》 CAS CSCD 北大核心 2013年第22期44-48,共5页
水源切换将造成原水水质化学组分突变,易引发供水管网腐蚀产物的过量释放,严重时会发生“黄水”问题。为保障水源切换后供水管网水质稳定性,定量研究了水源调配技术、调节pH值技术和投加缓蚀剂技术对管网铁释放的控制效果。研究表明... 水源切换将造成原水水质化学组分突变,易引发供水管网腐蚀产物的过量释放,严重时会发生“黄水”问题。为保障水源切换后供水管网水质稳定性,定量研究了水源调配技术、调节pH值技术和投加缓蚀剂技术对管网铁释放的控制效果。研究表明,不同水源勾兑使用、提高管网水pH值和投加六偏磷酸盐均可使管网铁释放量明显降低。由此确定了应对高硫酸盐水源切换后管网铁释放的控制对策:控制管网水硫酸根浓度〈75mg/L;将管网水pH值由7.8调高至8.3,必要时调至8.8;投加0.3~0.5mg/L(以P计)的六偏磷酸盐缓蚀剂。 展开更多
关键词 水源切换 管网腐蚀 铁释放 控制技术 “黄水”现象
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Quantifying the Degree of Water Resource Utilization Polarization: A Case Study of the Yellow River Basin 被引量:8
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作者 GU Shijie LU Chunxia QIU Jingen 《Journal of Resources and Ecology》 CSCD 2019年第1期21-28,共8页
The overexploitation of water resources has a substantial influence on their sustainable utilization and the ecological environment in a river basin. Quantification of the development and utilization of water resource... The overexploitation of water resources has a substantial influence on their sustainable utilization and the ecological environment in a river basin. Quantification of the development and utilization of water resources plays an important role in guiding the rational utilization of water resources. Based on this, this paper develops the concept of water resource utilization polarization(WRUP) in order to qualitatively analyze whether water resources are being overexploited in the process of utilization. An index model of WRUP was built to quantify the degree of water resources overexploitation. In addition, taking seven secondary basins of the Yellow River as examples, the available quantity, overdraft and polarization indexes of surface water and groundwater resources were calculated. The results show that there are 34.49×108 m3 of surface water available, which accounts for 56.21% of the total surface water volume. A total of 5.84×108 m3 of groundwater is available, which is 58.74% of the total groundwater resources. We also found that the water resources are heavily overexploited and that there is extensive polarization in the middle and lower reaches of the Yellow River. The highest polarization of water resources occurs from Lanzhou to Toudaoguai where the polarization index is 19.88 and from Longmen to Sanmenxia where it is 11.81. There is no polarization above Longyangxia or from Toudaoguai to Longmen. Overall, the polarization of water resources is 7.95 over the entire Yellow River area. These results provide a reference for the availability of water resources that can be used to determine the degree of overexploitation of the water resources in the Yellow River. 展开更多
关键词 water research water resources utilization polarization phenomenon the Yellow River
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