关键词: 水合锰氧化物, 阴离子交换树脂, 磺胺嘧啶, 降解

Abstract:

A new polymer-supported hydrous manganese dioxide(HMO-201) was prepared by impregnating HMO onto a porous polystyrene anion exchange resin(D201) through ion exchange, oxidation and reduction. The removal of sulfadiazine(SD) by HMO-201 was evaluated as a function of solution pH, background electrolyte NaCl and dissolved organic matter(DOM). HPLC-MS results showed that the removal of SD by HMO-201 was due to degradation rather than adsorption. The results indicated that the removal of 0.01 mmol/L SD reached 99.9% at pH=1.0 within 120 min. The SD degradation followed the pseudo-first-order kinetics. SD removal efficiency was little affected by ionic strength and DOM. With simulated SD wastewater containing NaCl and DOM, SD removal efficiency remained above 99% within 240 min for up to ten batches of continuous operation. Fixed-bed column experiment results of HMO-201 showed that SD remained undetected after 2000 bed volume simulated SD wastewater was passed through the column. HMO-201 was effective for the removal of sulfonamide antibiotics commonly found in the environment. It could be reused without a significant loss of capacity and thus has a great potential of real-world applications.

Key words: Hydrous manganese dioxide, Anion exchange resin, Sulfadiazine, Degradation