Electrostatic removal of colloidal, soluble and insoluble materials from a fluid

Thus, having described the invention, what is claimed is: 1. A filter for removing soluble, colloidal, and insoluble lead particles from water comprising: a container for receiving ingress water, and for securing and introducing filter media to said water; a first layer of filter media, including fibrillated cellulose nanofibers treated with an electrostatic attraction additive including polyDADMAC for providing said fibers with a positive charge for capturing said colloidal and insoluble lead particles; a second layer of filter media including a cation exchange material contained therein located downstream of and adjacent to said first layer of filter media, for filtering said soluble lead from said water and soluble lead from soluble colloidal material lead initially electrostatically trapped by said first layer of filter media; and a third layer of filter media including a cation exchange material contained therein located down stream of and adjacent to, and in fluid communication with, said second layer of filter media, wherein said second and third layers of filter media create a physical barrier for said colloidal and insoluble lead particles at their interface for capturing said colloidal and insoluble lead particles; said colloidal and insoluble lead particles being retained by said first layer of filter media through electrostatic attraction and being retained by said physical barrier through size exclusion until becoming soluble in said water, soluble lead subsequently passing through said first layer of filter media being removed by both said second and third layers of filter media, and soluble lead passing through said physical barrier at said interface being removed by said third layer of filter media. 2. A filter for removing soluble, colloidal, and insoluble lead particles from water comprising: a container for receiving ingress water, and for securing and introducing filter media to said water; a first layer of filter media including a cation exchange material contained therein for filtering said soluble lead from said water; a second layer of filter media located downstream of and adjacent to said first layer of filter media, said second layer of filter media including fibrillated cellulose nanofibers treated with an electrostatic attraction additive including polyDADMAC for providing said fibers with a positive charge for capturing said colloidal and insoluble lead particles; and a third layer of filter media including a cation exchange material contained therein located down stream of and adjacent to, and in fluid communication with, said second layer of filter media; said colloidal and insoluble lead particles being retained by said second layer of filter media through electrostatic attraction until becoming soluble in said water, soluble lead subsequently passing through said second layer of filter media being removed by said third layer of filter media.