Medora Corporation

Complete potable tank mixing, chlorine & chloramine systems - Water and Wastewater - Water Treatment

Every Tank Needs Mixing. Chlorine & chloramine systems can attain real water quality benefits. There are more than 50,000 municipal water systems in the United States and most of these systems rely on water towers, above-ground, and below-ground tanks to store their treated potable water.  Many operators rely on mixing via normal cycling of water in and out of the tank to limit water age and deterioration of disinfectant chemicals (but most often this is not enough).

Inadequate potable tank mixing is a persistent problem for many municipal water systems across the United States, Canada, & the world.  Simply put, tanks need consistent, effective, and reliable mixing.  Test sample inconsistencies, thermal stratification, inconsistent water age, low disinfectant, and other DBP issues can all be mitigated with complete top to bottom tank mixing.

When continuous active mixing is combined with frequent sampling & periodic disinfectant boosting (when needed), water quality is maintained and less disinfectant is required.   GridBee® & SolarBee® active mixing technologies were developed to completely mix potable water storage tanks up to 100 million gallons or more while virtually eliminating thermal stratification, sampling inconsistencies, and other tank water quality issues.  These technologies have the additional benefits of reduced labor and chemical expenditures as well as providing a means for EPA regulatory compliance. 

Passive mixing is not enough.

Reliance on “passive mixing” rarely prevents thermal stratification with any kind of consistency.  This can lead to a drop in disinfectant residual and a resultant growth of bacteria.

When bacteria contamination occurs in a tank, a common response is to set the tank for deep drawdown and in extreme cases, completely drain, flush, and refill the tank.  Not only is this strategy a big waste of water resources, it also raises cost for labor and chemicals.

Mixing can eliminate temperature stratification
Thermal stratification promotes deterioration of water quality especially in the upper part of the tank. When water warms and stratifies, newly treated cold water coming into the tank will not mix with the existing water and tends to stay near the bottom. This cold bottom water is also the first to exit the tank creating a usage 'short-circuit” leaving the bulk of the warmer top water unmixed and unused. (See Figure 1 below.) Thermal stratification can start to occur with temperature gradients as small as 0.1°C. If stratification persists, the chlorine / chloramine residual may decline in the warmer unmixed volume allowing bacterial growth and an overall decrease in water quality. Stratification also introduces sampling inconsistencies that can lead to over- or under- boosting of chemical disinfectant. Since water quality testing is based on sampling from pre-selected locations within a tank, it is possible water quality testing may not reflect the real health of the entire water volume especially in a stratified condition.

However, a fully and consistently mixed storage system provides a reliable means for true testing of water quality parameters including temperature and residual disinfectant from any sample point.

Mixing helps water quality monitoring and disinfectant boosting
While active mixing can provide consistent disinfectant residual, eliminate thermal stratification, and ensure that all of the water in the tank is of a uniform age, water quality still needs be monitored on a regular basis to ensure that it meets requirements. Since active mixing provides a much higher confidence and trust in test sample results, both over-chlorination (higher costs) and under-chlorination (higher risk) can be avoided when disinfectant boosting is needed.
Does you tank have ice problems in the winter?
Mixing can help! Learn more on our Ice Prevention page!

Mixing can reduce trihalomethanes.

In water systems with natural organic matter (NOM) content, chlorine added at the treatment facility can react with NOM to form a disinfection byproduct (DBP) called trihalomethane (THM).  THM formation is a concern for many water systems due to of potential health risks over time.  The THM compliance limit is currently 80 ppb (locational running annual average) but this may be lowered at some point in the future. 

Unmixed tanks with old, stratified water will tend to have high levels of THM in the upper, warmer part of the tank.  Good floor to surface mixing homogenizes the water into a lower THM 'blend' as existing, high THM water is mixed with the new, lower THM water.  The well mixed, lower THM blend can then pass out of the tank under the compliance limit and as the average water age declines with mixing, new formation of THM in the tank is further minimized.

About 30% of US water systems have switched from chlorine to chloramines to reduce THMs.  Active mixing is beneficial with both types of disinfectants; however, good mixing is especially important in chloraminated systems.

Here’s why...

If chloraminated water is allowed to stratify and age too long due to poor mixing, ammonia oxidizing bacteria (AOB) may convert free ammonia to nitrites.  The American Water Works Association (AWWA) has noted nearly two-thirds or more of tanks with chloraminated water experience unwanted nitrification and a loss of residual disinfectant, especially when water temperatures rise during warm weather.  When the temperature of chloraminated water rises above 15°C (59°F), rapid AOB growth (which are 13 times more resistant to chlorine than most bacteria) can occur particularly on the floor and walls of the tank.  To avoid this scenario, it is critical for the mixer to circulate completely along the walls and clear down to the bottom of the tank to maximize AOB exposure to available disinfectant.

GridBee GS Series Potable Tank Mixers
Utilizing all the knowledge and experience of SolarBee high-efficiency mixing, the GridBee GS Series is a compact, submersible electric mixer utilizing effective sheet flow to create large induced flow patterns within the tank.  The GridBee GS rests on the tank floor to ensure a complete and consistent floor to surface mix.  The GridBee GS was also designed for diverse deployment and can be suspended off the floor within the water column should it be required (in cases where there is a buildup of manganese in the tank for example).

GS Series Potable Water Mixers quickly became an industry favorite and is the best way to introduce reliable, consistent, and affordable mixing for your tanks.

SolarBee Potable Tank Mixers
SolarBee active mixers were originally developed for solving water quality problems in lakes and raw water reservoirs where they have a proven ability to efficiently circulate water long distances up to 35 surface acres or more. SolarBee also pioneered the modern-day potable tank mixing market in 2004.

Instead of creating turbulence, the SolarBee utilizes near laminar, high volume flow to provide complete bottom to top, side to side mixing. SolarBee equipment require very little power due to its minimal lift (head), up-flow pump design. The low-power consumption, high-flow output allows the SolarBee to be powered completely by solar energy with a deep-cycle battery backup to allow 24/7 operation. The SolarBee is a self-adjusting floating mixer with its intake about an inch above the tank floor. This creates a full bottom to top mix giving your tank all the advantages of effective circulation.

Medora Corporation GridBee and SolarBee potable mixing technologies are a “best on the market” mixing solution for potable water storage tanks of all shapes and sizes (up to 100 million gallons or more!) bolstered by unmatched life cycle support of its Customers and equipment.