为帮助企业降低生产成本,减少质量风险,维护市场公平竞争,对灌装关键过程域(key process area,KPA)的灌装机准确度、温度密度控制、皮重均匀性3项指标进行研究,根据相关标准系统分析了KPA 3项指标对灌装商品结果的影响情况,提出从灌装...为帮助企业降低生产成本,减少质量风险,维护市场公平竞争,对灌装关键过程域(key process area,KPA)的灌装机准确度、温度密度控制、皮重均匀性3项指标进行研究,根据相关标准系统分析了KPA 3项指标对灌装商品结果的影响情况,提出从灌装过程控制角度出发,通过降低灌装KPA 3项指标对灌装量的影响,将灌装量温度修正技术和灌装量风险成本控制技术应用在灌装机计量性能修正方面的建议,以确保所灌装的定量包装商品计量准确性能符合要求。展开更多
In this work, the concentrations of natural Uranium and the annual effective dose (ET in Sv·y-1) in drinking water for Nineveh Governorate in northern Iraq were determined using a pulsed-laser Kinetic Phosphoresc...In this work, the concentrations of natural Uranium and the annual effective dose (ET in Sv·y-1) in drinking water for Nineveh Governorate in northern Iraq were determined using a pulsed-laser Kinetic Phosphorescence Analyzer (KPA). Furthermore, the relationship between pH for water samples and the concentration of Uranium was studied. The drinking water samples are taken approximately from all regions of Nineveh as;15 samples of tap water are taken from refinery stations, 13 samples of water samples are taken from wells that are used for drinking, and 18 samples of drinking water are withdrawn from wells in Adayyah region (this region is located near nuclear wastes site). Thus, the total studied samples are 46. The results of Uranium concentration for all samples ranged from 2.61 ± 0.08 to 9.14 ± 0.012 μg·L-1 with an overall average value about 5.87 ± 0.046 μg·L-1, and the total annual effective dose ranged from 2.3 to 8.04 μSv·y-1. The results also showed that the pH number increases with increasing Uranium concentration and have, in general, high values in well water.展开更多
文摘为帮助企业降低生产成本,减少质量风险,维护市场公平竞争,对灌装关键过程域(key process area,KPA)的灌装机准确度、温度密度控制、皮重均匀性3项指标进行研究,根据相关标准系统分析了KPA 3项指标对灌装商品结果的影响情况,提出从灌装过程控制角度出发,通过降低灌装KPA 3项指标对灌装量的影响,将灌装量温度修正技术和灌装量风险成本控制技术应用在灌装机计量性能修正方面的建议,以确保所灌装的定量包装商品计量准确性能符合要求。
文摘In this work, the concentrations of natural Uranium and the annual effective dose (ET in Sv·y-1) in drinking water for Nineveh Governorate in northern Iraq were determined using a pulsed-laser Kinetic Phosphorescence Analyzer (KPA). Furthermore, the relationship between pH for water samples and the concentration of Uranium was studied. The drinking water samples are taken approximately from all regions of Nineveh as;15 samples of tap water are taken from refinery stations, 13 samples of water samples are taken from wells that are used for drinking, and 18 samples of drinking water are withdrawn from wells in Adayyah region (this region is located near nuclear wastes site). Thus, the total studied samples are 46. The results of Uranium concentration for all samples ranged from 2.61 ± 0.08 to 9.14 ± 0.012 μg·L-1 with an overall average value about 5.87 ± 0.046 μg·L-1, and the total annual effective dose ranged from 2.3 to 8.04 μSv·y-1. The results also showed that the pH number increases with increasing Uranium concentration and have, in general, high values in well water.