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Optimization of Magnetic Ca/Al Layered Double Hydroxides on Adsorption of Reactive Brilliant Red X-3Bby Response Surface Methodology

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ã€Authorã€‘ CHENG Chen;YUE Xiuping;ZHOU Aijuan;WANG Sufang;ZHAO Bowei;66325 Unit of the PLA;College of Environmental Science and Engineering,Taiyuan University of Technology;

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ã€Abstractã€‘ Ultrasound-assisted method was used to synthesize magnetic Ca/Al layered double hydroxides,and decoloration efficiency of reactive brilliant red X-3 Bsimulated dye wastewater was studied.The effect of adsorbent dosage,adsorption time,and initial pH was investigated on the decolorization efficiency of reactive brilliant red X-3 Bdye wastewater,and the Box-Behnken response surface methodology(RSM)was used to optimize the adsorption conditions.The experimental results show that when the adsorbent dosage is 7.6 g/L,the adsorption time is 32.3 min and the initial pH is 6.9,the theoretical maximum decolorization rate of the reactive brilliant red X-3 Bis 94.2%.Owing to the magnetic characteristics of the material,after adsorption,magnetic Ca/Al layered double hydroxides can be quickly recovered from the suspension in an externed magnetic field.Meanwhile,the adsorption property of regenerated magnetic Ca/Al layered double hydroxides was studied.After 3 adsorption-desorption cycles the matenial still had a good decoloration efficiency,indicating that the magnetic Ca/Al hydrotalcite is a potential new type of dye adsorbent.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ magnetic Ca/Al layered double hydroxidesï¼› simulationï¼› reactive brilliant red X-3Bï¼› response surface methodologyï¼› adsorptionï¼› optimizationï¼›

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