Environ Sci Technol. 2011 Dec 15.
Virus removal in ceramic depth filters based on diatomaceous earth.
Michen B, Meder F, Rust A, Fritsch J, Aneziris C, Graule T.
Ceramic filter candles, based on the natural material diatomaceous earth (DE), are widely used to purify water at the point-of-use (POU). Although such depth filters are known to improve drinking water quality by removing human pathogenic protozoa and bacteria, their removal regarding viruses has been rarely investigated. These filters have relatively large pore diameters compared to the physical dimension of viruses. However, viruses may be retained by adsorption mechanisms due to intermolecular and surface forces.
Here, we use three types of bacteriophages to investigate their removal during filtration and batch experiments conducted at different pH values and ionic strengths. Theoretical models based on DLVO-theory are applied in order to verify experimental results and assess surface forces involved in the adsorptive process. This was done by calculation of interaction energies between the filter surface and the viruses. For two small spherically-shaped viruses (MS2 and PhiX174) these filters showed no significant removal. In the case of phage PhiX174, where attractive interactions were expected, due to electrostatic attraction of oppositely charged surfaces, only little adsorption was reported in the presence of divalent ions.
Thus, we postulate the existence of an additional repulsive force between PhiX174 and the filter surface. It is hypothesized that such an additional energy barrier originates from either the phage’s specific knobs that protrude from the viral capsid, enabling steric interactions, or hydration forces between the two hydrophilic interfaces of virus and filter. On the other hand, a larger-sized, tailed bacteriophage of the family Siphoviridae was removed by 2 to 3 log which is explained by postulating hydrophobic interactions.