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In Germany and Austria ultraviolet (UV) disinfection was used in the '80s for small water systemsas a simple chemical free technology, and for large water systems as a disinfection techniquewithout chlorination byproducts.But at that time, nothing was known about how much UV dose was needed to insure sufficientdisinfection, and how sufficient UV dose could be monitored. The usual assumption was:detention time (flow rate divided by reactor volume) times assumed UV intensity at the endof lamp life time (calculated for some 2 inch distance from lamp) should lie between 150 and250 J/m^2 (i.e. 15 and 25 mJ/cm^2). End of lamp life was determined either by an assumption of10,000 hours or 1 year, or, if a light intensity monitor was installed, when reaching 50 to 60%of the initial intensity that was adjusted to 100% after mounting the new lamps.This practice kept most health authorities from allowing UV-disinfection in public water supply.To overcome this situation two German joint research projects on prerequisites to use ultravioletradiation for drinking water disinfection were carried out from 1987 to 1994. Advised by apanel of 25 experts from health authorities, university institutes on hygiene, chemistry and technology,and major water suppliers, the project resulted in the findings, that disinfection performanceof UV-systems:must insure a fluence of 400 J/m^2 (= 40 mJ/cm^2) based on radiation of 253,7 nm to inactivateall relevant waterborne micro-organisms and viruses to more than 4 logs (reproducibledetermination of UV susceptibility requires a homogeneous parallel beam irradiationin Petri dishes); depends on water quality, components and design;needs full scale challenge tests under worst case operation conditions with seeding microorganisms of specific UV susceptibility, (calculation can only model but not detect insufficientlyirradiated volume parts);requires reproducible physical monitoring that insures challenge test conditions aremaintained during use (removable standardized online UV sensors in sensor ports, thatallow checking for proper reading by comparison to portable reference UV-sensors). To make UV disinfection acceptable for water suppliers and health authorities, it was necessary to establish:a national standard on properties and performance testing for UV systems;an online monitoring concept that allows verification of proper operation (comparable tothe determination of residual chlorine with conventional disinfection);a testing facility to certify performance and monitoring; and,a certification body to keep track of quality of certified systems.According to these requirements, the German DVGW Standard W 294 was released in 1997and the DVGW Test Facility for UV Disinfection Systems was established at the WahnbachReservoir Association near Bonn. The test facility is able to run full scale biodosimetricchallenge tests of UV-systems with up to 20 mgd (3000 m^3/h) capacity. Furthermore, astandardized monitoring sensor was developed and adopted as industry standard. Includes 6 references, tables, figures. Product Details
Edition: Vol. - No. Published: 06/16/2002 Number of Pages: 13File Size: 1 file , 570 KB