In a piping system, water is intended to flow in one direction: from the supply to the point of delivery. Danger lurks when the pressure in a system exceeds the pressure of the supply. Anytime pressure in a system drops, even momentarily, the system is subject to backflow, back pressure, or back siphonage, opening the door to contamination. This can happen all too easily when a water main is shut off, a water main is broken, or water demand surges in a specific area.
Ultimately, rigorous backflow prevention and competent, thorough testing protect against cross-contamination. Avoiding cross-connections, however, has its challenges, especially considering the vastly more complicated connections to water at sites such as medical and diagnostic centers and research facilities.
How serious are the risks of contamination?
Several years ago, after a week in which a large number of employees of a plywood mill in Oregon missed work complaining of nausea and severe diarrhea, the county health department was called in to test the drinking-water supply. What it found were unusually high levels of fecal coliform.
Although the mill’s drinking water came from the city supply and appeared to be clean and properly chlorinated, water for the fire system came from an adjacent river. Water from the city entered the mill at about 70 psi, while booster pumps maintained fire-system water pressure at about 125 psi.
The mill’s maintenance staff examined the piping system for cross-connections, finding three (with open gate valves) between the potable-water and fire systems. The mill’s recent use of water had been unusually low: 10 cu ft per month instead of the 7,000 to 9,000 cu ft used by comparable mills. Mill employees had been drinking untreated river water via the cross-connections.
A single check valve located at the mill’s connection to the city was credited with preventing further contamination. Without it, the mill undoubtedly would have moved more contaminated water into the city’s mains.
And this, from the American Water Works Association:
For some time, nurses at a Michigan hospital had been complaining about rusty water coming from a drinking fountain. When maintenance workers finally looked into the matter, they discovered the rust actually was blood from an autopsy table that had backflowed into the hospital’s potable-water system.
Hospital autopsy tables have a sump to collect blood and other fluids. They also have a spray unit. On an autopsy table at the Michigan hospital, there was no hook on which to hang the hose for the spray unit, so pathologists placed the hose in the sump when they were not using it. With no vacuum breaker in the line supplying water to the spray unit, blood and other fluids from the autopsy table were sucked into the hospital’s potable-water system.
These stories illustrate a key point: The risks of contamination are very real and can be life-threatening.
Bernie Clarke of Clarke Sales in Valencia, Calif., who for years has been recognized as one of Southern California’s top backflow experts, says the weak links in the chain are:
“The key answer to these problems is for water companies to set a baseline for testing performance and verification and to enforce them,” Clarke said.
Dave Yates, president of York, Pa.-based F.W. Behler Inc., a licensed backflow tester, added: “One challenge today is that there are so few standards for verifiable accountability of the testers. Very little is asked of the tester, and there are no ‘witness stamps.’ Nationally, most backflow test forms simply require a signature. There’s room for improvement.
“There should be verification of my presence at the valve,” Yates continued. “Also, OSHA (Occupational Safety & Health Administration) guidelines for confined-space entry are dangerously ignored by so many testers.
“I wish the protocol would be more rigorous, such as a policy or guidance document that verifies the tester’s presence and establishes that all components are functioning properly,” Yates concluded. “Also, a pressure reading, a main water-meter reading, and a facility representative’s signature as witness if meter reading requires confined-space entry and time of day.”
What to Do and Where to Begin
Water pressure. Water pressure is an important factor and should be noted on test forms. Consider:
Testers must come in contact with valves to get pressure readings and record data.
Water-meter reading. Requiring water-meter readings forces intelligent contact with backflow assemblies. A tester must verify which water meter he or she is shutting off prior to a test. A water-meter reading should include the date and time a unit was tested.
Unauthorized connections. Specify what you want a tester to look for and document. With a stipulation that unauthorized connections be sought, the problems that can be avoided is rather amazing.
Gauge calibration. Gauge calibration should be part of any policy. Accurate calibration of gauges leaves technique, test procedure, and recording as the only sources of inaccuracy.
Verification of forms and data. Verification of forms and data helps to focus a tester on getting the job done. It also tells the water company when the form was ready to be released to the tester. Other advantages include:
Plumbing, irrigation, and fire systems. Noting plumbing-, irrigation-, and fire-system specifics adds valuable context for testing. Before water service is turned off, the tester acknowledges what the backflow assembly is attached to and considers the impact of his or her immediate actions.
Customer identification. Alphanumeric identification (e.g., “APR007-DEC121-F”) can be a sensible way to sort forms, with easy combinations of information of value to you.
Flooded With Risk
At a medical facility in Southern California, a plumbing contractor turned off the water main for a short time. Unbeknownst to him, nurses had partially closed the supply valve to a vacuum breaker, starving flow to the backflow assembly. The unit leaked undetected for days, flooding three floors and effectively closing six doctors’ offices for six months. Needless to say, a substantial lawsuit followed.
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“Why are we shutting down water service, especially to buildings where water service is critical, such as restaurants, hospitals, schools, and clinical facilities?” Clarke asked. “It’s not necessary. Designers and engineers need to know there’s now a better way. The regulator doesn’t need to go into the building; put it with the backflow preventer. This lets the water customer have uniform pressure at the needed flow rate.”
A dual backflow assembly, regulator, and other components combined into one fully redundant valve station eliminates:
The use of an automatic control valve (ACV) is the best way to optimize pressure range. The ACV has a higher range of pressure and can hold design operation pressure when flow is increased.
The first consideration in selecting a backflow assembly is the type of substance at risk of flowing into a clean water supply. A “pollutant” is a substance that would affect the color or odor of water, but not necessarily pose a health hazard. A health hazard exists when a substance, if ingested, could cause illness or death.
The second consideration in selecting a backflow assembly is system hydraulics. With back siphonage, reverse flow is caused by negative pressure, or vacuum, in supply piping. With back pressure, reverse flow is caused by downstream pressure being greater than supply pressure.
Backflow assemblies can be categorized as follows:
Sizing of backflow preventers is determined by system requirements. In most cases, backflow preventers are line-sized.
A common problem with reduced-pressure-style backflow preventers is discharge of water. More often than not, improper flushing of a system during installation is the cause of discharge.
“This serves to illustrate the importance of having certified installers,” backflow expert Bernie Clarke of Clarke Sales of Valencia, Calif., said.
If discharge occurs during installation, the valve simply needs to be cleaned and put back into service.
When a valve discharges, fouling nearly always is on the first check. If dirt has damaged the check, then the elastomer needs to be replaced. Adequate floor-drain capacity needs to be provided to accommodate discharge water from the relief valve of a reduced-pressure zone backflow preventer.
The president of trade-communications firm Common Ground, John Vastyan is a journalist who has been writing about the plumbing-and-mechanical and HVAC industries for 25 years. He can be reached at 717-664-0535.
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