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Effects of Ni(2+) on aluminum hydroxide scale formation and transformation on a simulated drinking water distribution system.
Author: DingZhenzhen, Mitchell SpearJ, QiaoZixia, SongShan, WangWen, WangWendong, WangXiaochang, ZhangXiaoni
Original Abstract of the Article :
Observations of aluminum containing sediments/scales formed within the distribution pipes have been reported for several decades. In this study, the effect of Ni(2+) on the formation and transformation processes of aluminum hydroxide sediment in a simulated drinking water distribution system were in...See full text at original site
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引用元:
https://doi.org/10.1016/j.chemosphere.2013.12.045
データ提供:米国国立医学図書館(NLM)
Aluminum Hydroxide Scale Formation: Exploring the Role of Nickel
Aluminum hydroxide scale formation, a common issue in drinking water distribution systems, can lead to pipe corrosion and water quality issues. This study investigates the effect of nickel (Ni(2+)) on the formation and transformation of aluminum hydroxide sediment in a simulated drinking water distribution system.The researchers used a range of techniques, including X-ray diffraction, Fourier transform infrared spectroscopy, and scanning electron microscopy, to analyze the impact of Ni(2+) on the formation of bayerite, a common form of aluminum hydroxide. The study's findings reveal that the presence of Ni(2+), even in small amounts, significantly promotes the formation of bayerite. This understanding could lead to more effective strategies for managing aluminum hydroxide scale formation in drinking water distribution systems.
Navigating the Desert of Water Quality: A New Perspective
Imagine a vast desert landscape, representing the complexities of maintaining water quality in drinking water distribution systems. This research, like a group of researchers exploring this challenging terrain, delves into the intricate dynamics of aluminum hydroxide scale formation. The study's findings offer a new perspective on the role of nickel in this process, potentially leading to more effective strategies for managing this important issue.The Importance of Trace Elements
Imagine a desert ecosystem, where even the smallest trace elements can have a significant impact on the overall environment. This study, like a team of scientists studying the intricate interactions within a desert ecosystem, highlights the importance of trace elements in water quality. The researchers' findings demonstrate that even small amounts of nickel can play a significant role in aluminum hydroxide scale formation, underscoring the need for a holistic understanding of the factors influencing water quality.Dr. Camel's Conclusion
This study, like a caravan traversing a vast desert, sheds light on the complex and often overlooked factors influencing water quality. The researchers' findings highlight the importance of trace elements, such as nickel, in the formation of aluminum hydroxide scale. This research offers valuable insights into the dynamics of water quality, potentially leading to more effective strategies for managing this important issue.Date :
- Date Completed 2014-09-25
- Date Revised 2019-04-30
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