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W2079747452 startingPage "1403" @default.
W2079747452 abstract "Fly ash (FA) from the Rugeley Power Station, West Midlands (England) was used in a study on synthesis at laboratory scale of zeolitic materials under various conditions by two different routes. Zeolitic materials were synthesized from FA by hydrothermal treatment in NaOH (Na-phillipsite, hydroxysodalite, hydroxycancrinite, tobermorite, analcime and herschelite) and KOH (hydroxysodalite, zeolite Barrer-KF, K-chabazite and zeolite Linde Type F) solutions. By fusion with NaOH followed by hydrothermal reaction, FA was converted into faujasite and hydroxysodalite. No zeolitic materials were obtained by this method using KOH as alkali activator. The process of synthesis was optimised by applying a wide range of experimental conditions with a wide range of reaction temperature, time, alkali hydroxide concentration and solid/solution ratio. The efficiency FA-based zeolites (FAZs) for heavy metal and ammonium uptake from synthetic solutions at laboratory scale have been investigated by the authors, revealing that these FAZs may reach appropriate cation exchange capacities for their application in industrial wastewater treatment." @default.
W2079747452 created "2016-06-24" @default.
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W2079747452 date "2009-08-01" @default.
W2079747452 modified "2023-10-17" @default.
W2079747452 title "A comparative study of two methods for the synthesis of fly ash-based sodium and potassium type zeolites" @default.
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W2079747452 cites W1988029356 @default.
W2079747452 cites W1989177030 @default.
W2079747452 cites W1992469583 @default.
W2079747452 cites W1993055478 @default.
W2079747452 cites W1994960268 @default.
W2079747452 cites W2000854585 @default.
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W2079747452 cites W2004103107 @default.
W2079747452 cites W2005682432 @default.
W2079747452 cites W2016337351 @default.
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W2079747452 cites W2021301379 @default.
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W2079747452 cites W2025302775 @default.
W2079747452 cites W2030348458 @default.
W2079747452 cites W2030486858 @default.
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W2079747452 cites W2033157122 @default.
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W2079747452 cites W2167490329 @default.
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W2079747452 doi "https://doi.org/10.1016/j.fuel.2009.02.012" @default.
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