The Experimental Research on Performance of the Composite Ion-Exchange Regenerant FH-30

Lin Yang; Jun Ming Zhao; Bin Yuan; Jie Yang Huang

doi:10.4028/www.scientific.net/AMR.864-867.2018

Paper Titles

Transfer of PBDEs from TV Housing Plastics to Aqueous Media
p.1997

Transfer Characteristics of Heavy Metal Pb in Municipal Solid Waste Incineration
p.2001

Effect of Regulated Deficit Irrigation on Yield and Water Use Efficiency of Processing Tomato (Solanum lycopersicum)
p.2009

Treatment of Micro-Polluted Water with Diatomite-Enhanced Coagulation
p.2013

The Experimental Research on Performance of the Composite Ion-Exchange Regenerant FH-30
p.2018

Numerical Calculation of Insulating Layer Thickness of Rural Water Supply Pipe in Permafrost Regions
p.2022

Numerical Simulation on Hydraulic Characteristics of Underflow for Falling-Sill Bottom-Flow Dissipation
p.2027

The Optimization Design and Operating Characteristics of Vertical Flow Dissolved Air Flotation Carbon-Sand Dual Media Filter Flofilter
p.2031

Study on Species and Distribution of Volatile Organic Compounds in WWTP
p.2035

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 864-867The Experimental Research on Performance of the...

The Experimental Research on Performance of the Composite Ion-Exchange Regenerant FH-30

Abstract:

The composite ion-exchange regenerant FH-30 was made using the own patent technology. The effect of softened water quality and running cycle, after the use of FH-30, was studied under simulation of industrial boiler softened water preparation process conditions. The dynamic simulation experimental results showed that at room temperature, the flow speed of 35 cm/min, the running cycle would not change when the dosage of regenerant was changed, the sodium and ammonium ion content would decrease with the increase of the running time in the softened water preparation process, the sodium ion content would decrease a bit faster at the later running cycle when the dosage of regenerant was greater, the molar ratio of sodium and ammonium almost not changed in the softened water preparation process when the regenerant dosage was 2.1 gram per milliliter resin, composite regenerant can completely replace single sodium salt regenerant. Through the measurement of sodium and ammonium ion in the regeneration resin and failure resin, proved that sodium and ammonium ion were not accumulated in the resin layer.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 864-867)

Pages:

2018-2021

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.864-867.2018

Citation:

Cite this paper

Online since:

December 2013

Authors:

Lin Yang, Jun Ming Zhao, Bin Yuan*, Jie Yang Huang

Keywords:

Composite Regenerant, Height Distribution, Ion Exchange, Sodium Ammonium Coexist, Softened Water

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Guangming Huang. Industrial Water Treatment [J]. 2009, 29(9): 88-90. (In Chinese).

Google Scholar

[2] Ming Zeng, Lin Yang, Junming Zhao, Yuhui Du. China Petroleum and Chemical Standard and Quality [J]. 2013, (14): 34-35. (In Chinese).

Google Scholar

[3] Lin Yang , Zhigang Chen, Maodong Li, etc. A sodium ion softing water treatment regenerant[P]. CN 102259987A, 2011-11-30. (In Chinese).

Google Scholar

[4] Chuanjun Zhu, Lin Li, Hongqian Shao. Analysis of water used in boiler and cooling system-Determination of hardness[S]. GB/T 6909-2008, 2008. (In Chinese).

Google Scholar

[5] Yanfei Shao, Lin Li, Hongqian Shao, Chuanjun Zhu . Water used in industrial circulating cooling system and boiler-Determination of potassium and sodium[S]. GB/T 14640-2008, 2008. (In Chinese).

Google Scholar

[6] Jianping Wang, Xiuhua Shi, Siwei Lu, Gang Lv, Jun Liu. Inorganic chamicals for industrial use-General method for determination of Ammonium content –Nessler ' s reagent colorimetric method[S]. GB/T 23773-2009, 2009. (In Chinese).

Google Scholar