UV Disinfection as Part of a Multi-Barrier Approach

Safe drinking water is a privilege in North America.  Though essential to good health, it is often taken for granted.  It is delivered to our homes or offices for our enjoyment with little thought given to where it originated or how it got there.  We expect water to come forth as required.  We expect water to both look and taste good.  And we expect our health to be protected.   It is only in times of crises – when illness strikes – that our awareness is given to this invaluable resource.

giardia lamblia

Giardia Lamblia

The multi-barrier approach to safe drinking water is applied on many levels.  It is used by governments andmunicipalities and is equally applicable to small drinking water systems.  The general premise is that delivering safe drinking water requires a number of key factors to be woven together; to work in tandem; with one of the most critical factors being water treatment and ultimately disinfection.

A multi-barrier approach for a small drinking water system will involve facets both managerial and technical.   It begins with the selection of the best source water available, protection of that source water, application of appropriate water treatment and vigilant monitoring.  In this way, small drinking water systems can manage the risk of contamination and waterborne disease.

Regardless of the source, water can become contaminated with biological organisms.  In this event, avoiding a disease outbreak becomes fully dependent on disinfection.   Disinfection refers to improving water quality and safety by killing or inactivating disease causing microorganisms in the water supply.  Successful disinfection is dependent on a number of factors.  The first of these is filtration.  This will always be necessary to remove suspended particles and reduce turbidity.  Secondly, it must eliminate any or all harmful organisms including bacteria like fecal coliform or E.coli, adenoviruses and also destroy cysts like Giardia lamblia or Cryptosporidium sp.  In addition, it must deliver on the promise of water quality – meeting the aesthetic expectations of good taste and minimal odor.  And, all this must be achieved in a cost effective manner.  That is a lot to expect of any one disinfection system.  But why not consider a multi-barrier disinfection approach?

Historically, the more common approach to disinfection has been chemical.  Chlorination devices disinfect water by the constant addition of chlorine.  Though effective against many organisms, this approach also generates disinfection by-products (DBPs).  These are harmful chemicals that result from the reaction of chlorine with organic substances in water which may potentially  introduce another public health risk.   Chlorine is not a good solution  when addressing more chlorine-resistant organisms like Giardia.  However, these challenges are very manageable with the simple addition of a physical disinfection technology – ultraviolet (UV) light.

A UV device emits radiation that passes through the water.  When this radiation is absorbed by any micro-organisms present, it alters their DNA rendering them incapable of reproduction – effectively inactivating them.  There is a time and intensity relationship that delivers the appropriate UV dose however, the inactivation of most organisms can be achieved in a relatively short timeframe.   UV disinfection typically offers a 4-log reduction (99.99%) for both bacteria and most viruses.  And, as only energy, and no chemicals, has been applied, there is no negative impact to the water.

UV disinfection systems are easy to install and/or retro-fit to an existing system.  As no holding tank is necessary, the system takes little space and requires little maintenance.  Ultraviolet lamps offer a useful life of about 9000 hours which means replacement is done on an annual basis.

These two approaches, chemical and physical, while both effective independently, naturally complement each other and create a very effective multi-barrier disinfection approach.   UV is highly effective against chlorine resistant organisms and chlorine is highly effective against UV resistant organisms.  By introducing a UV disinfection unit as the primary technology, chlorine use can be minimized.  This significantly reduces disinfection by-products and improves taste and odor while maintaining the benefit of low-level residual chlorine levels to protect the water as it is delivered to the tap.

If your business or premise provides drinking water for public consumption that does not originate from a municipal system, consider multi-barrier disinfection for your small drinking water system.  Community centers, motels, and restaurants can all benefit from this approach.   Using ultraviolet light in combination with reduced chlorine levels will cost effectively deliver a safe and more palatable product.

Shop now for UVMAX or Sterilight products.

VIQUA’s, Market Research Specialist and regular blogger, Diane Arnott, www.viqua.com With a background in CPG and the healthcare industry as a brand manager, Diane has over a decade of experience leveraging consumer insight to drive business. She is passionate about voice of customer and has a B.Sc. Applied Chemistry. Outside the office she can frequently be found on the golf course where she also endeavours to avoid water hazards.

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