The Turbo Descaler is  an  Electrochemical Scale Removal & Prevention device.  The  turbo descaler  is  a  patent pending ,self-diagnosising ,modulating  pure  sine  wave signal. The  electrochemical device  has 2  certifications  by the FCC . Electrochemical Scale Removal & Prevention device. The descaler changes the molecular structure of the minerals (calcium and  magnesium) that make up hardness. The process allows these healthy minerals to remain in your  water  without  sticking  to  the  sides  of  your  pipes  and appliance heating elements. Our descaler removes existing limescale from pipes and the heating elements of  hot water heaters, dishwashers and other appliances and prevents new limescale.

The science and unlimited variables of scaling issues can be very complicated. This is why we Have deployed to different technologies working synergistically to remediate scaling issues.

The descaler’ s electrochemical signal  causes electrical force which in turn causes continuous movement of the dissolved ions in the water. The positive metal ions (Ca+2 and Mg+2) and the negative ions (CO3-2) are kept moving in the water and the electrical signal is strong enough to emit a interference signal inhibiting the ionic bonding force keeping calcium and magnesium ions from bonding to each other to precipitate as new calcium or magnesium carbonate (limescale).

The electrical force of the descaler causes a stirring action in the water which increases water solubility.

The unit also begins to remove lime scale from existing pipe and heating elements from the moment it’s turned on and connected to the pipe. The Descaler has a continuous electrochemical signal that provides activation energy for separating a hydrogen ion from carbonic acid already in the water. The freed hydrogen ion combines with the solid CaCO3, limescale, and converts it into soluble ions 

descaler has built-in computer diagnostics, calibration, and continuous self-testing, to  assure uniform unit-to-unit performance and confirmation of successful performance over the years. The descaler retests installation suitability about every ten seconds for as long as it is in place. Should a problem occur, the descaler’s front panel lights alert the user that the descaling signal is being diverted to electrically grounded pipe rather than propagating into the water to be treated. 

All one can see is the shiny metal surface of the water supply tube in the hot water heater with the descaler. There is no white limescale encrustation.

Results:

• After 13 months, hot water heater #1, with only moderately hard water but no descaler, shows limescale completely covering the water supply line

• After 13 months, hot water heater #2 with precisely the same water but with a Home Water Plant descaler shows no limescale.

Conclusion:

The  descaler prevented limescale formation.

Protocol for Documenting Formation and Prevention of Limescale in Hot Water Heaters Exposed to Moderately Hard Water.

Purpose of the two experiments: to document (1) the formation of limescale on a new hot water heater given moderately hard water, and (2) the prevention of limescale on a new hot water heater with Home Water Plant descaler treatment.

1) Single shots and Video of scale forming on new 7 gallon Bosch hot water heater (no descaler)

2) Single shots and Video of prevention of scale on a new 7 gallon Bosch hot water heater (with descaler in line).

Experiments 1 and 2 started in parallel at Aquametrics on December 5, 2017.

Two new 7 gallon Bosch hot water tanks were set up and supplied with moderately hard water from the city of Auburn at Aquametrics. For experiment 1 (with no descaler), the water runs into the hot water heater via a direct connection to plumbing in the Aquametrics building. For experiment 2 (with the descaler), the water flows into the hot water heater from a 50 gallon drum that holds identically sourced water. Water flows into and out of each hot water tank for a 1 minute interval, hourly. There is a pipe camera for each experiment. On December 5, 2017, a pipe camera was placed near the heating element near the bottom of each hot water heater. Placement of the pipe camera lens and lighting were optimized in each tank. Still pictures and video/audio were taken and saved to files in appropriate folders. In addition, video and audio were shot of each set-up using the following scripts:

“December 5, 2017. The purpose of experiment #1 is to document the formation of limescale over time in a hot water heater exposed to hard water. Equipment used includes a new Bosch 7-gallon hot water heater and a pipe camera to take still pictures and video/audio inside the tank near the heating element. 8 grain water from the city of Auburn is pumped through the hot water heater under a pressure of 60 psi, with the water flowing for 1 minute each hour. The temperature is set to 140oF.

“December 5, 2017. The purpose of experiment #2 is to document the prevention of limescale over time in a hot water heater exposed to hard water. Equipment used includes the  descaler from Aquametrics, a new Bosch 7-gallon hot water heater, and a pipe camera to take still pictures and video inside the tank near the heating element. 8 grain water from the city of Auburn is pumped through the hot water heater under a pressure of 60 psi, with the water flowing for 1 minute each hour.

The temperature is set to 140oF. The equipment in experiment #2 is as identical as possible to that in experiment #1, except for the addition of the  descaler attached to the cold water inlet of hot water heater #2.

The following measurements will be made as indicated and entered on a spreadsheet.

pH of intake and outflow at start and twice a week thereafter

Hardness of intake and outflow (in gpg) at start and twice a week thereafter Discharge temperature twice a week.

During the first 2 weeks, still shots and audio/video will be taken M-F, once a day, for each of experiments 1 and 2.

Following weeks — will decide how often after first two weeks.

A still shot of the descaler with working lights will be taken once a week.

A water descaler treats the water with electric impulses generated in the electronic unit. A computerized microchip controls these electric impulses.  

hi-tech device that does not alter the chemical composition of your water, but rather how the hard minerals in the water behave. Avhigh frequency modulated electromagnetic field

By manipulating their behavior with the use of electrical currents, a water descaler keeps the minerals in your water but prevents them from building up inside your pipes or appliances, rendering them harmless.

• A water descaler treats the water with electric impulses generated in the electronic unit.
• A computerized microchip controls these electric impulses.
• The bands of the water descaler work in pairs and form a frequency-field.
• As the water flows through, this frequency field changes the mineral crystals in the water.

In short, a water descaler creates an electromagnetic field (frequency-modulated) inside the supply pipe. The field forces the ions of calcium/magnesium bicarbonate to create crystallized particles of calcium/magnesium carbonate in the water.  These micronuclei accumulate and grow in a snowball effect, flowing in the water as suspended particles. The water descaler, thus, modifies their shape and size, which is now different from the ones you find in untreated hard water. 

After going through the descaling process, the calcium/magnesium nuclei remain in suspension until they reach the drain. They do not stick to the inside of the pipes, heating elements, and appliances' components. 

Since the innovative water descalers function based on two impulse coils placed around your incoming water supply line, they come with a significant advantage: installation is straightforward and does not require the presence of a plumber.

• Water descalers are small pieces of equipment you can install in your own home by following the instructions offered by the manufacturer.
• The water descaler, as it breaks down calcium and magnesium molecules, transforms them from crystals to nano particles that do not adhere to your pipes’ interiors or appliances’ components.
• In case you wondered, an electronic water descaler removes the deposits gradually. It also changes the molecular structure of the minerals, as described.
• If a water softener uses a chemical process of replacing some hard molecules with salt, the water descaler simply modifies the very fabric of the hardness particles, making them benign and eliminating the nuisance of limescale.

One of the most proficient ways to manage hard water and limescale deposits, preventing them from ruining the infrastructure of your home and the functionality of your appliances, are water treatment systems.

A BETTER ALTERNATIVE than water softeners -descaler - represent modern and innovative devices that can Treat the scale hardness in your water and on your pipes. Yeah I know your water but without replacing some molecules with others. On the contrary, salt Water softener alternative do not add anything new in your water; they just treat it through a different process.

As discussed above, water descaling is not the same thing as water softening. Water descalers work well with any home size and can meet all budgetary restrictions. Moreover, they do not carry an environmental burden. 

We’ve already mentioned how this benefits your appliances, hair, and skin]. Research has shown that excess calcium and magnesium particles in hard water are beneficial for drinking.

They help people with diabetes and can even prevent other illnesses such as heart disease. With a water descaler, all of the mineral particles are left intact, it’s only their shape that gets modified to stop them from sticking to your hair and skin.