To Explore the Bleaching Effect of Chlorine Water
Science Journal of Analytical Chemistry
Volume 7, Issue 1, January 2019, Pages: 21-26
Received: Jan. 9, 2019; Accepted: Feb. 19, 2019; Published: Apr. 3, 2019
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Wang Haijun, The Beijing No 12 High School Chemical Innovation Experiment Center, Beijing, China
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In this paper, first of all, based on the chemical process of chlorine water system in-depth comprehensive analysis, aims to clear the chlorine water is composed of a variety of molecules, ions and free radicals in the complex redox system; secondly, we designed six experiments for scientific inquiry on chlorine bleaching effect under the different conditions, and give a reasonable explanation for the experimental results; finally, scientifically summed up the bleaching effect of chlorine water is a process of multiple components of synergy, many influence factors, but the "hero" is still the hypochlorous acid, the chemical principle and bleaching effect of hypochlorous acid to give a scientific explanationand and give a scientific explanation of the chemical principle of bleaching. The research methods are as follows: Contrastive experimental analysis method; Research purposes: Explain the principle and essence of Chlorine bleaching, and further clarify people's vague or even wrong understanding of Chlorine bleaching. Results and conclusions: The bleaching of chlorine water is a very complex physicochemical process with many influencing factors. The structure and properties of Hypochlorous Acid play a decisive role.
Chlorine, Chlorine Water, Hypochlorous Acid, Oxidation, Bleaching, Photocatalytic Reaction
To cite this article
Wang Haijun, To Explore the Bleaching Effect of Chlorine Water, Science Journal of Analytical Chemistry. Vol. 7, No. 1, 2019, pp. 21-26. doi: 10.11648/j.sjac.20190701.13
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Liu Xin-Jin, Zhu Ya-Xian, Gao Fei. Inorganic Element Chemistry. Beijing: Science Press, 2005: pp 126-126.
Zhong Xing-Hou, Xiao Wen-Jin, Yuan Qi-Hua, et al. Series on Inorganic Chemistry (Volume 6). Beijing: Science Press, 2012: pp 213-213.
Xing Qi-Yi, Pei Wei-Wei, Xu Rui-Qiu et al. Basic Organic Chemistry (Volume 1). 3 Edition. Beijing: Higher Education Press, 2005: pp 324-325.
Liu Wei-Sheng (Editor-in-Chief). Coordination Chemistry: Chemical Industry Press, 2013.
Douglas John Newman, Betty Wu Doug. Handbook of Crystal Field: China University of Science and Technology Press, 2012.
John P Lowe, Kirk A. Peterson. Quantun Chemistry (third edition): Elsevier (Singapore) Pte Ltd, World Book Publishing Company, 2011.
Xu Guang-Xian, Wang Xiang-Yun. Material Structure: Science Press, 2013.
Zhang Gui-Ling, (editor-in-chief), Yang Zhao-Di, Sun Miao, Yuan Dan-Dan. Fundamentals of Quantum Chemistry: Chemical Industry Press, 2012.
Zhao Xin-Sheng. Introduction to Chemical Reaction Theory: Peking University Press, 2004.
Ying Bai-Ning, Song Hua-Can. Physical Organic Chemistry: Chemical Industry Press, 2009.
Wang Jian-Bo. Concise Course of Physical Organic Chemistry: Peking University Press, 2013.
Sheila R. Buxton, Stanley M. Roberts. Guide to Stereochemistry: Chemical Industry Press, 2007.
Gong Zhu-Qing and Wang Zhi-Xing. Modern electrochemistry: Central South University Press, 2010.
Zhou Gong-Du. Structure and Physical Property: Higher Education Press, 2002.
Shen Pan-Wen (Editor in Chief), Yang Hong-Xiu, Che Yun-Xia, Cheng Peng and Liu Xin. Introduction to Modern Chemistry: Higher Education Press, 2002.
Fu Xiang-Jian (chief editor), Liu-Qun (deputy editor), Zhou Li-Ren (deputy editor). Higher Organic Chemistry: Higher Education Press, 2003.
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