5.3.2 Ultraviolet Radiation

Ultraviolet (UV) light is a natural component of sunlight and can also be generated through special light bulbs. UV disinfection systems accomplish microbial inactivation through damage to one or more critical biomolecules by photochemical reactions. Artificially generated UV light is commonly used for disinfection treatment in large-scale systems with high flow rates.

Some typical design parameters for these systems are shown in the following table.

UV is effective when effluent turbidity remains low. UV lamps have a limited life and will experience reduced output over time. This will result in reduced pathogen inactivation if the system is not properly sized. Another major operational problem is the fouling of the sleeve or lamp from materials in the flow stream.

Natural UV disinfection is practiced more frequently in developing countries using shallow ponds or polishing ponds, or free-water surface flow constructed wetlands. These structures are to be designed with depths shallow enough to allow sunlight to penetrate throughout and disinfect the total depth of the water column. Direct contact with sunlight without the interference of e.g. plants in the case of vegetated wetlands or trees in the surrounding that cause shadow is essential.

The table presented below outlines the benefits and limitations of UV radiation disinfection.