Study on removal of <i>m</i>-phenylenediamine from aqueous solution by adsorption over granular activated carbon

Abstract

<i>m-</i>Phenylenediamine (MPD) is used for manufacture of thin film composite reverse osmosis (RO) membrane in polyamide thin film formation by interfacial polymerization. The used<i> m- </i>phenylenediamine solution has to be discarded as effluent. Granular activated carbon is found to be an efficient adsorbent for removal of <i>m-</i>phenylenediamine from aqueous solution. Brunauer-Emmett-Teller (BET) surface area of the granular activated carbon is 446 m²/g and micropore volume 0.15 cc/g. A systematic study of adsorption of <i>m-</i>phenylenediamine over granular activated carbon with different loading of adsorbent in given <i>m-</i>phenylenediamine solution concentration and different concentration of <i>m</i>-phenylenediamine solution in given adsorbent quantity has been carried out. Adsorption isotherms have been developed in each case. It is found that at 28% w/v concentration of adsorbent, the total MPD present in the 2% aqueous solution is adsorbed. It is found that adsorption of MPD over granular activated carbon follows Freundlich isotherm x/m = k c^1/n, where k =0.4576 and n = 4. Moreover, the study involves kinetics of adsorption of <i>m-</i>phenylene diamine over granular activated carbon at different temperatures and it is found that the kinetics of MPD adsorption over granular activated carbon follows Elovich Model.<i> </i>The kinetic study indicates that the optimum temperature of adsorption is 40<span style="font-family:Symbol;mso-ascii-font-family: " times="" new="" roman";mso-hansi-font-family:"times="" roman";mso-char-type:symbol;="" mso-symbol-font-family:symbol"="" lang="EN-GB">°C as the MPD adsorption efficiency improves from 30 to 40<span style="font-family:Symbol; mso-ascii-font-family:" times="" new="" roman";mso-hansi-font-family:"times="" roman";="" mso-char-type:symbol;mso-symbol-font-family:symbol"="" lang="EN-GB">°C and subsequently drops drastically for 45<span style="font-family: Symbol;mso-ascii-font-family:" times="" new="" roman";mso-hansi-font-family:"times="" roman";="" mso-char-type:symbol;mso-symbol-font-family:symbol"="" lang="EN-GB">°C. The optimum temperature for adsorption has been found. It is found that granular activated carbon is an efficient adsorbent for removal of<i> m-</i>phenylenediamine from aqueous solution.

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