The Long Term 2 Enhanced Surface Water Treatment Rule (LT2) is intended to improve control
of Cryptosporidium through watershed control programs, improved removal processes or the use
of alternative disinfectants (U.S. Environmental Protection Agency, 2003). Large systems may satisfy LT2 requirements by
switching to ultraviolet (UV) disinfection; however, small treatment systems may not have the capabilities to
implement this technology. Adenovirus, which is on the Contaminant Candidate List, is highly
UV resistant (Gerba et al., 2002). Also, certain bacteria can photoreactivate after treatment with
UV (Harris et al., 1987) contributing to the challenge of properly applying UV disinfection.
Utilities using chlorine alone may not be able to simultaneously meet LT2 and disinfection
byproduct regulations because C. parvum is highly resistant to chlorination (Driedger et al.,
2000). An alternative is the use of multiple disinfectants which can enhance inactivation
(Corona-Vasquez et al., 2002). Sonication is an innovative chemical free disinfectant that should
be considered.
Ultrasonic waves create pressure variations in time and space that ultimately lead to cavitation.
Collapsing bubbles cause dramatic increases in fluid velocity and temperature on a microscopic
scale, increasing velocity to near the speed of sound and temperatures to 3,000 K or more (Riesz
et al., 1985). When used in combination with a second disinfectant, the stresses on cell
membranes can cause an increase in microorganism sensitivity such that inactivation is greater
than would be predicted based on additive effects (Phull et al., 1997; Jyoti and Pandit, 2003). In
addition, sonication can reduce the required dose or contact time of a second disinfectant while
still achieving the same inactivation (Burleson et al., 1975). The objective of this study was to
quantify the synergistic impact of ultrasound treatment on chlorination for the disinfection of
drinking waters. This technology was studied for potential application at small utilities that
currently use chlorine for primary disinfection and need to enhance levels of inactivation in order
to meet the LT2 requirements.
Laboratory experiments were performed to quantify the inactivation of E. coli and MS2
coliphage (as representative bacterial and viral indicator organisms, respectively) through
combined disinfection with chlorine and sonication. Three separate sets of experiments were
conducted. The first two, which tested sonication alone and chlorination alone, were used to
determine benchmark inactivation levels. In the third set of experiments, the two disinfectants
were applied simultaneously. Includes 10 references, tables.
| Edition : | Vol. - No. |
| File Size : | 1
file
, 150 KB |
| Note : | This product is unavailable in Ukraine, Russia, Belarus |
| Number of Pages : | 4 |
| Published : | 11/01/2005 |
