Developed for cooling tower water systems in health care facilities and commercial buildings
ANN ARBOR, Mich. – Global public health organization NSF International has published a new protocol as part of its commitment to improve building water health – NSF P453: Cooling Towers – Treatment, Operation, and Maintenance to Prevent Legionellosis. This protocol outlines proper maintenance and safety practices associated with evaporative cooling systems. It also addresses health concerns associated with commercial buildings, including health care facilities, whose residents may experience health issues such as Legionellosis from improperly maintained water systems.
“According to the Centers of Disease Control and Prevention (CDC), about 5,000 cases of Legionnaires’ disease are reported each year in the United States, which unfortunately include some deaths,” said Dave Purkiss, General Manager, Water Systems, NSF International. “Legionella bacteria are found naturally in fresh water environments, like lakes and streams, but can quickly become a health concern due to lack of proper treatment, operation and maintenance in building water systems and cooling towers . Rooted in NSF International’s 70-year history of protecting human health, the NSF P453 protocol establishes effective monitoring and cleanliness plans to improve building water health and reduce the number of illnesses and deaths caused by these dangerous bacteria.”
The new protocol uses the water safety plan approach recommended by the World Health Organization (WHO) to assemble a team, identify potential hazards and establish control measures to prevent the growth of Legionella bacteria. The protocol can be used by facilities to establish a management plan for the treatment, operation and maintenance of cooling tower water systems.
NSF P453 allows owners and managers of buildings with cooling tower water systems to create an easy-to-follow, actionable plan with specific means and methods to manage the risk of Legionnaires’ disease. It complies with the New York City and state regulations for cooling towers, which were developed in response to the Legionnaires’ disease outbreak in the summer of 2015. Although cooling towers are not regulated beyond New York state, NSF P453 can be applied across the United States to address the risk of Legionellosis and other diseases associated with cooling tower water systems.
This protocol was developed with input from various industry organizations and benefited from a public review comment period. NSF International has additional services to assist facility operators in establishing and verifying their management plans for cooling tower water systems through education, guidance in developing plans and third-party verification audits.
For more information on NSF International’s building water health related programs, contact Dann Holmes at firstname.lastname@example.org or +1-734-214-6222.
Editor’s Note: Media interested in more information can contact Liz Nowland-Margolis at email@example.com or +1-734-418-6624.
About NSF International: NSF International (nsf.org) is a global independent organization that writes standards, and tests and certifies products for the water, food, health sciences and consumer goods industries to minimize adverse health effects and protect the environment Founded in 1944, NSF is committed to protecting human health and safety worldwide. With clients in more than 170 countries, NSF International is a Pan American Health Organization/World Health Organization (WHO) Collaborating Center on Food Safety, Water Quality and Indoor Environment.
NSF International provides risk assessments, testing, inspection and certification services for the water industry from source to tap. NSF International led the development of the American National Standards for all materials and products that treat or come in contact with drinking water to help protect public health and the environment and minimize adverse health effects. In 1990, the U.S. EPA replaced its own drinking water product advisory program with these NSF International standards.