On the Absorbability of Lead Chrome Yellow by Using Active Floridin

Ming Yong Shu; Guang Hui Liu; Hai Ying Yin

doi:10.4028/www.scientific.net/AMR.496.169

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 496On the Absorbability of Lead Chrome Yellow by...

On the Absorbability of Lead Chrome Yellow by Using Active Floridin

Abstract:

Taking the active floridin prepared by mixed acids as absorbent, its absorbability and absorption capacity of lead chrome yellow are studied. The research results indicate that the initial concentration of wastewater is advantageous for improvement of the active floridin absorbability. Larger dosage of active floridin results in greater removal rate of lead chrome yellow but smaller absorbability; higher temperature of the wastewater causes weaker surface absorbability of active floridin and thus the absorbability and removal rate of lead chrome yellow are lower; greater ph value of wastewater brings more severe damage on the lamellar structure of active floridin, as well as lower absorbability and removal rate accordingly.

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Periodical:

Advanced Materials Research (Volume 496)

Pages:

169-174

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.496.169

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Online since:

March 2012

Authors:

Ming Yong Shu, Guang Hui Liu, Hai Ying Yin

Keywords:

Absorption Capacity, Active Floridin, Lead Chrome Yellow, Removal Rate

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References

[1] Wu Zhan-sheng, Li Chun, Sun Xi-fang. China food additives, 2005,69(2): 100-102

Google Scholar

[2] Kun-She Low,Chnoong-Kheng Lee,Lee-Yong Kong.China food additives, In Chinese, 1998, 72:67-73

Google Scholar

[3] Gui-lan Jiang and Pei-ping Zhang. Beijing: Chemical Industry Press,In Chinese,2005.04: 169–172

Google Scholar

[4] Lin Zhi-yuan, Sun De-si, Xie Bao-hua. Mining bulletin 2008 (471 ): 47-50

Google Scholar

[5] G. M. Habashy and A. M. GadallaT. M. Ghazi and W. E. MouradS. Surface Technology, 1982, 15(4): 313-322

Google Scholar

[6] F. K. Hymore. Applied Clay Science, 1996, 10 (5): 379-385

Google Scholar

[7] Zhou Jian, Wang He-jin. In Chinese,Acta mineralogica Sinica, 2002 ( 2): 95-100

Google Scholar

[8] Cao Ming-li. Industrial minerals and processing,In Chinese,, 2000, 28 ( 2): 5-8

Google Scholar

[9] Richard Kamga, G. Joseph Kayem, and Paul G. Rouxhet. Journal of Colloid and Interface Science, 2000,232:198–206

DOI: 10.1006/jcis.2000.7191

Google Scholar

[10] Pan Wan-gui, Chen Jiao-ling, Shen Yang-er. chemical industry, In Chinese,2006, 37 ( 5): 15-l7

Google Scholar