Aquatic Facility Maintenance
Delivering healthy indoor air quality
By James Hogan
Recreation managers aren't expected to be architects, engineers or HVAC technicians, but they should know enough about the basics of indoor pool operation to determine if their facilities are operating correctly. For proper IAQ, a natatorium must have synergy between the building envelope, the air distribution (ductwork), mechanical dehumidification equipment and water chemistry. If any of these important components break down, the facility will not function properly.
Ongoing neglect of a dysfunctional natatorium goes beyond impacting general health. Numerous instances of untamed humidity within natatoriums have led to collapsed roofs or resulted in building demolition or complete reconstruction.
Poor natatorium IAQ might require only a quick fix of pool-water chemistry or routine mechanical equipment service and calibration. Unfortunately, in many cases major reconstruction of the building or air distribution is needed to remedy poor IAQ problems.
Almost all indoor pools have some type of mechanical HVAC equipment. Most modern pools have a commercial dehumidifier that, depending on its size, is specially designed to eliminate up to several hundred pounds of moisture per hour from the natatorium air. Besides dehumidifying the natatorium to approximately 50 percent relative humidity (RH), many dehumidifiers also provide air conditioning for the space and can use heat recovery to heat the pool water.
Keeping the space relatively dry at 50 percent RH is critical not only for the integrity of the building structure, but also for the general health of the occupants. Some older facilities might have conventional air-conditioning equipment, which can't handle the excessive humidity of indoor pools. Depending on the season and geographical location, conventional air conditioning typically can't provide 50 percent RH all year long.
Modern dehumidifiers from as early as the 1980s have a microprocessor controller with a read-out that indicates room and pool conditions, plus the diagnostic operating status of the unit. Daily monitoring and recording will indicate any abnormal operating conditions such as high RH, temperature variances, etc. This controller is mounted either on the unit, in the mechanical room, near the pool or located remotely in an administrator's office.
HVAC service contractors don't necessarily see dehumidifiers regularly. Therefore, a facility manager shouldn't automatically assume that the dehumidifier has been installed properly or maintained correctly. For example, many dehumidifiers are designed to recover heat and thus provide free pool-water heating. However, there are many incidences where the pool-water circulation system was never connected to the unit. This can cost tens of thousands of dollars in pool-water heating costs because the backup boiler becomes the primary pool heater.
While a dehumidifier should be serviced by a certified refrigeration technician, a recreational facility manager should keep a maintenance checklist. Some manufacturers supply maintenance checklists as part of the machinery manual.
A general checklist is:
- Air filters should be replaced monthly.
- Fan belts should have proper tension because loose belts can diminish air flow. Overly tight belts can result in blower damage.
- The condensate drain pan should be cleaned semi-annually.
- Older-model dehumidifiers have motor bearings or blower bearings that should be greased annually. Newer models may have permanently sealed assemblies that need no lubricants.
Attentive eyes, ears and noses are the best deterrent to emerging IAQ problems. Problems may be indicated by mechanical equipment noises, unusually uncomfortable IAQ, atypical chemical odors, condensation on windows or visible building damage such as crumbling brick and discolorations on walls or ceilings.
Another natatorium rule-of-thumb is maintaining a one- to two-degree differential between water and space temperature. For example, a pool-water temperature of 82 degrees would dictate keeping the space temperature at about 84 degrees. These temperatures and set points should be accessible via the dehumidifier controller readout.