save up to 20% on your energy bills and extend the life of your household appliances
We are introducing the next generation of energy-saving systems that can save up to 20% on your energy bills and extend the life of your household appliances.
We are a group of enthusiasts interested in energy-saving solutions.
Electricity consumption is increasing day by day and energy prices are rising all over the world. These are the main reasons that now energy-saving issues are becoming more and more important. Reducing energy consumption is now a big concern for the majority of the population of our planet.
After conducting research on how to save energy in private houses and apartments, we have come up with a solution. The solution is device that has been tested thoroughly.
Our experimental sample demonstrated the possibility to reduce energy consumption by 20% and lower your electricity bills accordingly. The studies have also shown that due to the stabilizing function of the device, the service life of all your household appliances is extended.
The expected service life of our innovative energy-saving device was determined to be 20 years.
When mass-produced, the retail price of one device is estimated as €499, which is considered to be quite a low cost, taking into consideration such long durability of our gadget.
Our goal is to set up mass production of our product.
- To protect the product from unfair competition and theft, the trademark under which the device (hereinafter referred to as the ESS) will be produced, will be announced after the launch of production.
Invention is the ESS device, which is connected to the electrical network through the Differential Circuit Breaker of a private house, an apartment or an office. ESS stabilizes the voltage in the network, which allows you to extend the life of the household appliances connected to the network. Voltage stabilization also lowers electricity consumption, which will definitely help you save up a good deal on your electricity bills.
ESS device influences some factors of a low-quality electrical network thus reducing the amount of consumed electricity.
These poor-quality factors are as follow:
- Reactive power level (the power of parasitic currents that are not involved in useful work).
- The level of the higher components of the harmonics of the fundamentalfrequency (the flow of any transient processes in electrical networks).
One of the ESS’s principles of operation is to bring the supply voltage level to the optimal value.
The ESS also serves as a voltage stabilizer in the network, thus protecting appliances from electrical signal fluctuations and extending their service life.
Now let us consider cost-saving figures using a specific example.
The tests were carried out for two years in a private house under the most identical conditions. The comparison was made in kW consumed per month.
In this way, the average energy saved with the ESS amounted to 17.3%.
The payback period of the ESS was only 9 months, which is significantly lower than the payback period of other modern energy-saving systems.
For the European market, the models will be presented for the mains voltage of 230V. There will be two models presented in the USA market. The first model is for the power supply voltage of 120 volts. The second model is available for the houses where the mains voltage of 120V and of 240V is used at the same time.
As you can see from the table above, in order to understand which ESS is suitable for your particular case, you need to know the electrical power allowed in the house (kW) or amperage (A).
You can learn your electrical power and amperage by doing any of the following:
- Request this information from the power supply company.
- Search for the required parameter in the energy supply agreement or in your electricity bill.
- Check the “Differential Circuit Breaker” options.
If you would like to use the last option and check “Differential Circuit Breaker” yourselves, you might find the following tips useful.
Amperage (Amps) are written on the main Differential Circuit Breaker in your home. The figure above shows a Differential Circuit Breaker with a current of 100A but each case might be different and might have a different value.
The maximum permissible power load (kW) can be calculated using the formula:
P = U x I; where U is the nominal voltage (for example, 230 volts (V) for Europe or 120V for America), I is the amperage written on the Differential Circuit Breaker (A).
Take for example the amperage = 32A. Therefore, 230V x 32A ≈ 7.4kW (according to European standards) and 120V x 32A ≈ 3.8kW (according to American standards in some regions). If you have single-phase voltage for both 120V and 240V (in some regions of the USA) in your house, you will need to install two ESS devices.
So, in this case, knowing either the permitted power (kW) or the amperage (A), you can choose the device to be installed in your home.
Sometimes, for some reason, there is no way to accurately determine the parameters of the device that will fit in your house. For example, the declared power in the electricity agreement does not match the electrical power in your monthly electricity bills. In this case, you can use a device with higher parameters. For instance, if you do not know the permitted power in your house (if it is 24kW or 36kW), you can use a device with a power of 36kW, and this will neither affect the work of the device nor the amount of the energy saved. But installing our device will definitely prevent the Differential Circuit Breaker from working wrong.