Paper Titles

Research on the Removal of Organic Contaminants of Photoinitiator Wastewater under Fenton Condition
p.143

Research Progress and Prospect of Inorganic Filler for Urea-Formaldehyde Resin Adhesive
p.148

Research Progress of Co-Pyrolysis of Waste Plastics Contained Chlorine with Biomass
p.153

Research Progress on Thermal Insulation Materials
p.157

Researches and Development of Activated Water and its Effects on Biological Growth
p.163

Surfactant-Templated Synthesis and Magnetic Properties of Ordered Nanostructured Fe₃O₄
p.169

Synthesis and Characterization of Ionic Liquid 1-Propargly-3-Methylimidazolium Chlorate
p.173

The Analysis on Materials Testing Network of Ecology Environment
p.179

The Influence on Electrical Characteristics of Contact WCu and Ti₃SiC₂ Material
p.185

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 427Researches and Development of Activated Water and...

Researches and Development of Activated Water and its Effects on Biological Growth

Article Preview

Abstract:

Activated water is beneficial to healthcare due to its changes of physicochemical properties compared to ordinary water. Some related researches on activated water are reviewed in this paper. Take magnetized water, mineral and ceramic activated water and electrolyzed water for examples, activating materials and technologies are briefly introduced. Then, mechanism of activation devices and activated water are summarized and discussed. Finally, mechanism of activated water on biological growth is analyzed by comparing their different properties.

You might also be interested in these eBooks

Advance in Ecological Environment Functional Materials and Ion Industry III

Info:

Periodical:

Advanced Materials Research (Volume 427)

Pages:

163-168

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.427.163

Citation:

Cite this paper

Online since:

January 2012

Authors:

Dong Mei Zhang, Jie Liu, Jin Sheng Liang, Jun Ping Meng

Keywords:

Activated Water, Devices, Electrolyzed Water, Healthcare, Magnetized Water, Physicochemical Property

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2012 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] R.X. Guo, H.Z. Wang and W.H. Li: Journal of Environment and Health: Vol. 17(2000), p.24.

[2] Y.P. Li, X.N. Yu and C.L. Zhou, et al.: Food Science, Vol. 27(2006), p.532.

[3] D.Y. Zhao, X.L. Lu and H.M. Zhu, et al.: Chin J Phys Ther , Vol . 21(1998), p.278.

[4] J.S. Liang, G.C. Liang and H.F. Qi, et al.: Journal of the Chinese Rare Earth Society, Vol. 21(2003), p.241.

[5] M.C. Liu and B.H. Liu: China Patent CN 201722251 U (2011).

[6] J.D. Yu: China Patent CN 1212953 A (1999).

[7] Z.Z. Jin, Z.J. Ji and J.S. Liang, et al.: Chinese Physics, Vol. 12(2003), p.222.

[8] Z.J. Ji, Z.Z. Jin and J. S. Liang, et al.: Journal of Synthetic Crystals, Vol. 31(2002), p.503.

[9] Z.J. Ji, Z.Z. Jin and J.S. Liang, et al.: Journal of Functional materials, Vol. 35(2004), p.2579.

[10] R.V. Dietrich: The Tourmaline Group, New York, Van Nostrand Reinhold Company (1985), p.173.

[11] J S. Liang, G.C. Liang and C.Z. Wei, et al.: China Patent, CN 1724112A. (2005).

[12] S.C. Lee and Y. Ann, et al.: U.S. Patent US 0206020 A1 (2009).

[13] Z.R. Ding, Y.J. Zhao and F.L. Chen, et al.: Acta. Phys. Sin., Vol. 60 (2011), pp.064704-1.

[14] S. Nagata: Japan Patent, 2009-208065 (2009).

[15] S. KIN: Japan Patent, 2002-126763 (2002).

[16] C.H. Cao, P.S. Pei and R.X. Wan: China Patent, CN 1699669 A. (2004).

[17] Joshima, Nobuyuki and Sasaki, et al.: U.S. Patent 5, 076, 902. (1991).

[18] Koizumi and Haruhiko: U.S. Patent 5, 340, 458. (1994).

[19] Ichiro Otsuka and Sumio Ozeki: Journal of Physical Chemistry B Letters, Vol. 37 (2006), p.1509.

[20] X.F. Pang and B. Deng: Journal of Atomic and Molecular Physics, Vol. 24 (2007), p.281.

[21] J. Zhan, B.H. Ge and P. Wang, et al.: Journal of Functional Materials, Vol. 40 (2009), p.556.

[22] J. Zhan, Z.Y. Wang and P. Wang, et al.: Journal of Functional Materials, Vol. 41 (2010), p.159.

[23] D.M. Zhang, J.S. Liang and Y. Ding, et al.: Advanced Materials Research, Vol. 178 (2011), p.86.

[24] G.C. Zuo: Journal of Liaoning Agricultural College, Vol. 7(2005), p.9.

[25] X.H. Gao, Z.B. Zhang and S.R. Guo, et al.: Chinese Agricultural Science Bulletin, Vol. 20 (2004), p.227.

[26] T.S. Gong, Z.B. Yu and W. Zhang, et al.: J. Prev. Med. Chin. PLA., Vol. 18 (2000), p.86.

[27] W.M. Kang, N.X. Xiao and K. Yitao: Jourmal of Hebei Agrotechnical Teacher's College, Vol. 11 (1997), p.60.