本幻灯片演示概述了与紫外线（UV）消毒相关的操作问题。项目背景下概述的问题包括:美国的河口水系统。；颁布长期2强化地表水处理规则（LT2ESWTR）；此外，紫外线消毒的实施存在紫外线透射率、灯套污染、传感器可靠性和电能质量问题。UV演示现场是位于加利福尼亚州康科德的CCWD Bollman水处理厂，针对每个实施问题给出了结论。建议包括:用实验室监测UVT254 分光光度计: 持续监测UVT以获得更好的效果 用于确定UV系统大小的数据集； 参考传感器和占空比的比较 传感器紫外线强度测量； 水质监测pH值、碱度、， 硬度，金属（包括铁和铝） 低检测限）和主要离子；监测紫外线强度以捕获 系统和允许原因和 影响其他人之间的关系 待开发的参数； 包括灯具在内的维护活动 套筒清洁，传感器端口窗口 清洁和更换灯具；和 开发更好的脱钩方法 影响紫外线的因素的影响 强烈包括数字。

This slide presentation outlines information on operational issues associated with ultraviolet (UV) disinfection. Issues outlined under project background include: estuarine water systems in the U.S.; promulgation of the Long Term 2 Enhanced Surface Water Treatment Rule (LT2ESWTR); and, UV disinfection implementation issues with UV transmittance, lamp sleeve fouling, sensor reliability, and power quality. The UV demo site was the CCWD Bollman Water Treatment Plant in Concord, California, and conclusions are presented for each of the implementation issues. Recommendations included: monitoring of UVT254 with a laboratory spectrophotometer: continued monitoring UVT to get a better dataset for sizing UV systems; comparison of reference sensor and duty sensor UV intensity measurements; water quality monitoring of pH, alkalinity, hardness, metals (including Fe and Al at low detection limits) and major ions; monitoring of UV intensity to capture variation in system and allow cause and effect relationships between other parameters to be developed; maintenance activities including lamp sleeve cleaning, sensor port window cleaning, and lamp replacement; and, develop better approaches for decoupling the impacts of factors impacting UV intensity. Includes figures.