electricity input saver

[lancaIV]

                         https://www.ultracapacitor.info/          1000 Wh or 1KWh capacity

        and 700W-350W= 350W net output          https://www.youtube.com/watch?v=UukXtWSLnh8&t=64s   

                                              sufficient for the future low-e household

[lancaIV]

https://worldwide.espacenet.com/publicationDetails/biblio?FT=D&date=20191106&DB=EPODOC&locale=en_EP&CC=EP&NR=3078241B1&KC=B1&ND=5#
[0069] 6 times more efficient than ohmic resistance heating ( by given example comparison)

[0070] existent heater can by this device/equipment become improved by this factor

[ramset]

6 times more heat with same input ?
Lanca a big Hug for more info......
please

[lancaIV]

https://register.epo.org/application?number=EP14833591&tab=main
they used publicated knowledge


the method from Kanarev/Bierbaumer [0098] [0099] [0100]
https://worldwide.espacenet.com/patent/search/family/035385192/publication/US2009263113A1?q=pn%3DUS2009263113&called_by=EuropeanRegister
C.O.P. up to 33 publicated
Kanarev/Bierbaumer application also became 2012 EP patent granted, later lapsed by not fee paying, Bierbaumer R. I. P. 

https://worldwide.espacenet.com/patent/search/family/035385192/publication/EP1875140B1?q=pn%3DUS2009263113&called_by=EuropeanRegister

[tak22]

From patent  US10362640 (B2) ― 2019-07-23

It has been realized that motion of the ions in a given medium generates a significant amount of heat. It has also been realized that when the ions in the ion containing medium are excited in an at least partially closed space at a resonance frequency characteristic of the space, a stationary wave is created during the amplitude modulation of the ions set in motion. As a result of this, high-efficiency collisions are induced between the ions resulting in active heat generation. To this properly formed oscillators with alternating polarity are needed to be built in the given space. This requires suitably high-efficient oscillator electronics and controller. By using electronics for monitoring and adjusting the modulating frequency the efficiency may further be enhanced as the energy required for reaching the same temperature is significantly less. The energy demand required for this type of heat generation is entirely different from an electrically powered but ohmic heat generator.


During the amplitude modulation of the ions set in motion at a frequency characteristic of the resonant space in the cavity of housing of the heating element, a stationary wave is generated. As a result of this, high-efficiency collisions are induced between the moving, charged ions resulting in active heat generation and typically more heat can be generated than with like ohmic heat generating apparatuses while using the same amount of energy.


The graph shows the temperature/power consumption of an electric oil radiator provided with an ohmic heating element available at the market as compared to the temperature/power consumption of the same type of radiator but provided with the heat generator according to an embodiment of the invention taken as a function of time. In the graph the continuous line shows the power consumption of the heat generator according to the invention as a function of time to reach a surface temperature of 80° C. of the oil radiator. To this 15 minutes and a power of 30 W were needed. The dotted line shows the power consumption of the customary ohmic apparatus as a function of time to reach the surface temperature of 80° C. To this 4.5 minutes and a power of 190 W were needed. It is clear that the solution according to the present invention used less than one sixth of the power used by the ohmic apparatus. This ratio remains,the same while the temperature is maintained.