Magnesium-based compounds (MgO, Mg(OH)₂ and MgCO₃) have been expected as adsorbents for purifying arsenic contaminated water. However, the spent arsenic adsorbents would contain a great amount of arsenic. When the spent adsorbents were discarded into environment without proper processing, secondary environmental pollutions might be caused by arsenic leached from the spent adsorbents. Therefore, to evaluate on environmental stabilities of the spent adsorbents must be important.
In this study firstly, magnesium compounds adsorbed a large amount of arsenic were prepared as spent magnesium-based arsenic adsorbents. Then the spent adsorbent was placed together with soil and ion-exchanged water whose pH had already been adjusted in a test tube. The test tube was shaken in a temperature-controlled shaker at room temperature for 24 hours. Arsenic, magnesium and other main elements in the eluate filtered were quantitatively analyzed by using ICP-MS or ICP-AES. From the experimental results, MgO and Mg(OH)₂ after being used as arsenic adsorbents were found to have higher environmental stability in all the soil tested. On the other hand, the spent MgCO₃-based adsorbents were found to easily leach arsenic in sandy soils.