摘要
A sort of lightwerght porous ceramic foam ball that can float on the water was recently made from the nat- ural zeolite. The diameters of porous hall and its macroscopic pores are around 5 and 1 mm, respectively. Such ball surface could be modified to activate in different ways, i. e. loading the active alumina or desili- cating the ball. Both of modified products have been investigated to adsorb the toxic ion of arsenic (As) in water effectively. This kind of porous ceramic hall was prepared by powder sintering, using natural clinop- tilolite powder as the primary raw material. An active-alumina loaded porous ceramic product was genera- ted by sol-gel method with pseudoboehmite (A1OOH) as the main composition. The active AI atom on the porous ball surface could also be achieved by desilicating the ceramic ball in the NaOH solution. Such a desilicated product exhibited a good activity to adsorb the arsenic ion although carrying no ac- tive alumina. With this effective porous structure, the present products can be expected to become practically advantageous.
A sort of lightwerght porous ceramic foam ball that can float on the water was recently made from the nat- ural zeolite. The diameters of porous hall and its macroscopic pores are around 5 and 1 mm, respectively. Such ball surface could be modified to activate in different ways, i. e. loading the active alumina or desili- cating the ball. Both of modified products have been investigated to adsorb the toxic ion of arsenic (As) in water effectively. This kind of porous ceramic hall was prepared by powder sintering, using natural clinop- tilolite powder as the primary raw material. An active-alumina loaded porous ceramic product was genera- ted by sol-gel method with pseudoboehmite (A1OOH) as the main composition. The active AI atom on the porous ball surface could also be achieved by desilicating the ceramic ball in the NaOH solution. Such a desilicated product exhibited a good activity to adsorb the arsenic ion although carrying no ac- tive alumina. With this effective porous structure, the present products can be expected to become practically advantageous.
基金
supported by the Testing Foundation of Beijing Normal University(No.C16)