For the purposes of providing energy in high temp circumstances, such as a probe to Venus, it would need to be able to operate in temperatures of 500°C. Is there any reason that this technology couldn’t be adapted to that temperature range excluding the electronics, although there is research going on for silicon carbide chips that will run at those temperatures.if we assume you could duplicate your electronic control system to run at those temperatures?
At this point what is the highest temperature these devices could endure without failure?
Dear Dr Andrea Rossi,
Thank you for the magnificent live streaming of the life streaming I found here: http://www.ecat.com
All the best
Andrea Magnusson
Mr.Rossi
It would be possible to equip each E-catSKLep with an LED indicator, for easy checking of correct operation in serio-parallel connection. To make maintenance easier.
Warm Regards J.Š.
1,000,000 pre-orders at 250 USD equals 250 million USD as a prerequisite for production and market launch.
Is it about the money or about the sales speed of the E-Cats?
If it’s about the money, would a USD 250 million loan guarantee also be sufficient for market entry?
I think the sales rate will increase exponentially with market entry, as soon as the first E-Cats are delivered and customers can convince themselves of their veracity. Corporations would order thousands at a time.
Of course, it would be understandable if you do not want to make a public statement on this.
Dear Andrea,
you wrote: Wilfried:
There is not such theoretical limit, and we are working also on it.
Can the zero point give a lot of energy power at a small size? Can you elaborate, please, would be nice to hear some thoughts of that subject since it is mind blowing the whole zero point energy power reality,
thanks, congratulation to good work by the way
do you know of any physical reason why it should not be possible to increase the power density of the E-Cat by another power of ten? This is independent of whether the necessary manufacturing technologies are already available today or not.
Is it therefore permissible to dream that one day there could be a 10W E-Cat with only a tenth of the volume of today’s 10W E-Cat?
They would typically run 12 hours or more per day, seven days a week. With the goal of reducing CO2 emissions, many gas or wood burning pizza shops will be required to convert to electric. During off hours, perhaps the unused electrical energy could be fed back into the electrical grid, with suitable authorized equipment?
Horst Dieter Preschel:
1. yes
2. depends on the situations; it is always better to put in series and parallels omologous units.
3. yes
Warm regards,
A.R.
Some time ago you wrote that the size of the E-Cat SKlep 10W will be reduced. Does this also apply to the E-Cat SKLep SSM 10W and is this being worked on?
In some applications, e.g. grid connected micro inverters, you need an input power of a multiple of 100W plus the inverter losses of 5-10%. Is it possible to run one E-Cat 100W and one E-Cat 10W in parallel to get 110W?
Do you plan to offer housing systems for E-Cats 100W and 10W?
Italo R.:
Good buy; you can measure EMF / Radiations also in V/m, as we did. The result is the same, although using different measuring units.
Just google ” how to measure EMF and radiations “.
You can also check the characteristics of our instrumentation of which I gave recently in this blog the models denominations. Find also them in Amazon.
Warm Regards,
A.R.
Hi Dr Rossi,
Can you update us:
how many units have been pre-ordered after the live streaming of the Ecat SSM ?
how many units pre-orders have been cancelled in the same period ?
Thank you if you can answer
The Tsunami Detection Buoys have a tethered surface unit and an ocean floor unit. Both have energy storage of around 2,000 Watt-hours over their anticipated four-year design lifetime.
Each Tsunami Detection Buoy reports via the surface unit to a Satellite about once every 15 minutes, unless a seismic event occurs and then it goes into a faster reporting rate for about 4 hours.
Some powering techniques are used tapping wave motion and/or solar cells to power the surface and the ocean floor units, but there hare high failure rates and maintenance is very expensive.
Powering the buoys with SKLep SSM modules would solve a lot of problems. This is not a large number of sales but it is a perfect application for SKLep SSM where long duration operation is required and maintenance/replacement costs are very high.
Dr Rossi,
Congratulations for the live streaming of the Ecat SSM.
Can you explain where is exactly the Ecat in the picture ?
Sorry if you already said that, I lost the information.
All the best
Paul
Dr Rossi,
The radiations measurements of yesterday confirmed that the Ecat SKLep SSM in the live streaming does not emit any radiations beyond the normal backstage and that there are not EMF around it.
This is a fact,
Best
Roberto
Yet another application for SKLep technology – Traffic Control power units
Traffic Control lights, so called stop lights, number about 330,000 in the USA. Generally, a typical Traffic Control light has 12 lights (4 Green; 4 Yellow; and 4 Red). One of the three is always on. There are also pedestrian signs for people crossing intersections.
There are two ways that SKLep technology could be envisioned to have application: Independent power for existing, incandescent traffic control lights; OR replace the existing traffic control lights but incorporate SKLep technology within the new LED traffic lights so they consume no or very little electrical power. The same concept applies for the pedestrian signs.
One incandescent bulb uses in traffic lights consumes about 135 Watts. Replacement 12″ LED lights require between 10 and 22 Watts each.
Incandescent pedestrian signs require about 60 Watts of electrical power. LED pedestrian signs require about 6 Watts.
Since 4 bulbs are always powered on, the electrical power for a traffic light would be 540 Watts for an incandescent. For an LED traffic control light, the average consumption would be about 44 – 50 Watts.
If SKLep SSM units were employed, then the traffic control lights would continue to work even if the entire city was without power.
For existing Traffic Control lights, a inline serial unit could be used by inserting the unit at the traffic control unit where the city electrical power enters. Suitable conversion electronics (an inverter) would be required.
For replacement LED traffic control units, the SKLep technology could be integrated into the LED Traffic control unit.
The same procedure could be used for the pedestrian design.
If only the LED replacement unit approach was done on all 330,000 traffic control lights, the annual power savings would be about $25 Million USD per year (ignoring the savings over incandescent usage savings).
Assuming 5 SKLep SSM 10W units produced the 50W of electrical power, then the 330,000 units would require 1,650,000 units. At $25USD per 10W units, the savings in electrical power would be paid for in about 2 years of operation.
If SKLep SSM technology was used with existing incandescent traffic control lights, assuming there were 300,000 of them, then 54 SKLep SSM 10 Watt units would be required for each incandescent traffic light. This would require about 15 million SKLep SSM 10 Watt units.
Dear Readers:
Today at 1 PM Miami time, as promised, we have shown during the live streaming of the Ecat SKLep SSM the measurements with the FEM detector and the Radiations detector, and, as could be seen by the Readers who watched, the results of the measurements have been the same of a safe background.
We will repeat these measurements now and again and we are 100% sure that the results will be always the same, based on our past experience under the experimental point of view, and on our theoretical models under the theoretical point of view.
Warm Regards,
A.R.
My comment on The Electric Viking’s youtube on Tesla’s massive grid-based battery instalations.
Iggie Dalrymple
E-Cat SKLep SSM Livestream https://www.youtube.com/watch?v=1NfWiowf8SoAutomotive
LED headlight powered by device that generates power from zero point
energy. Livestream has been running for past 8 days. The device is expected to run
at full power for 100,000 hours. The E-Cat can be stacked for whatever amount of
power you need. The E-Cat will make most windmills, batteries, and solar panels
obsolete. I am a Tesla investor. This new technology should soon power homes,
cars, trains, and aircraft.
Dear Readers:
Today at 1 PM Miami Time we will show in the live streaming of the Ecat SKLep SSM both the measurements of the FEM and the radiations: the Geiger has just arrived.
Warm Regards,
A.R.
Mr. Rossi
With a serio-parallel connection, do you connect the Ecat SKLep configuration to the matrix or are the individual branches only connected vertically and then connected in parallel?
Warm Regards J.Š.
Dear Andrea Rossi,
do you think that sooner or later we will see the Ecat SKLep applied to the automotive ?
For the purposes of providing energy in high temp circumstances, such as a probe to Venus, it would need to be able to operate in temperatures of 500°C. Is there any reason that this technology couldn’t be adapted to that temperature range excluding the electronics, although there is research going on for silicon carbide chips that will run at those temperatures.if we assume you could duplicate your electronic control system to run at those temperatures?
At this point what is the highest temperature these devices could endure without failure?
Dear Dr Andrea Rossi,
Thank you for the magnificent live streaming of the life streaming I found here:
http://www.ecat.com
All the best
Andrea Magnusson
Wilfried:
1- both
2- yes
Warm regards,
A.R.
Lars:
Theoretically yes, experimentally has to be tested,
Warm Regards,
A.R.
Jan Srajer:
Yes,
Warm Regards,
A.R.
Mr.Rossi
It would be possible to equip each E-catSKLep with an LED indicator, for easy checking of correct operation in serio-parallel connection. To make maintenance easier.
Warm Regards J.Š.
Dear Andrea,
1,000,000 pre-orders at 250 USD equals 250 million USD as a prerequisite for production and market launch.
Is it about the money or about the sales speed of the E-Cats?
If it’s about the money, would a USD 250 million loan guarantee also be sufficient for market entry?
I think the sales rate will increase exponentially with market entry, as soon as the first E-Cats are delivered and customers can convince themselves of their veracity. Corporations would order thousands at a time.
Of course, it would be understandable if you do not want to make a public statement on this.
Best regards
Wilfried
Dear Andrea,
you wrote: Wilfried:
There is not such theoretical limit, and we are working also on it.
Can the zero point give a lot of energy power at a small size? Can you elaborate, please, would be nice to hear some thoughts of that subject since it is mind blowing the whole zero point energy power reality,
thanks, congratulation to good work by the way
Steven Nicholes Karels:
Thank you for the suggestion,
Warm Regards,
A.R.
Wilfried:
There is not such theoretical limit, and we are working also on it.
Warm regards,
A.R.
Dear Andra,
do you know of any physical reason why it should not be possible to increase the power density of the E-Cat by another power of ten? This is independent of whether the necessary manufacturing technologies are already available today or not.
Is it therefore permissible to dream that one day there could be a 10W E-Cat with only a tenth of the volume of today’s 10W E-Cat?
Kind regards
Wilfried
Dear Andrea Rossi,
Yet another SKLep application
Electric Pizza ovens – typically 12 kW or 24 kW
They would typically run 12 hours or more per day, seven days a week. With the goal of reducing CO2 emissions, many gas or wood burning pizza shops will be required to convert to electric. During off hours, perhaps the unused electrical energy could be fed back into the electrical grid, with suitable authorized equipment?
Horst Dieter Preschel:
1. yes
2. depends on the situations; it is always better to put in series and parallels omologous units.
3. yes
Warm regards,
A.R.
Dear Dr. Rossi,
Some time ago you wrote that the size of the E-Cat SKlep 10W will be reduced. Does this also apply to the E-Cat SKLep SSM 10W and is this being worked on?
In some applications, e.g. grid connected micro inverters, you need an input power of a multiple of 100W plus the inverter losses of 5-10%. Is it possible to run one E-Cat 100W and one E-Cat 10W in parallel to get 110W?
Do you plan to offer housing systems for E-Cats 100W and 10W?
Kind regards
Horst Dieter Preschel
Pekka Janhunen:
Already converted into 100 W
Warm Regards,
A.R.
Italo R.:
Good buy; you can measure EMF / Radiations also in V/m, as we did. The result is the same, although using different measuring units.
Just google ” how to measure EMF and radiations “.
You can also check the characteristics of our instrumentation of which I gave recently in this blog the models denominations. Find also them in Amazon.
Warm Regards,
A.R.
Dear Dr. Rossi, I have bought on Amazon the following Geiger Counter that measures rays X, β, γ:
https://www.amazon.it/gp/product/B0B56NF1PW
the display is in microSievert/h
Kind Regards,
Italo R.
Dear Andrea,
In your answer to B.G. (“60000 and 12 units”), does a “unit” refer to 10 watts or 100 watts?
r:/pekka
Wilma:
Thank you for your attention to the work of our Team,
Warm Regards,
A.R.
B.G.:
1. about 60000
2. 1, for a total of 12 units
Warm Regards,
A.R.
Frank Acland:
Thank you for the link,
Warm Regards,
A.R.
Dear Andrea,
For your reader’s interest, here is a link which has photos of EMF readings near the livestream setup, and background readings.
https://e-catworld.com/2023/03/21/emf-and-geiger-readings-in-proximity-to-the-e-cat-and-background/
Best wishes,
Frank Acland
Hi Dr Rossi,
Can you update us:
how many units have been pre-ordered after the live streaming of the Ecat SSM ?
how many units pre-orders have been cancelled in the same period ?
Thank you if you can answer
Dr Rossi,
Thank you for the impressive live streaming of the Ecat SKLep SSM.
All the best,
Wilma
Steven Nicholes Karels:
Thank you for the suggestions,
Warm Regards,
A.R.
Dear Andrea Rossi,
Yet another application
Tsunami Detection Buoys
The Tsunami Detection Buoys have a tethered surface unit and an ocean floor unit. Both have energy storage of around 2,000 Watt-hours over their anticipated four-year design lifetime.
Each Tsunami Detection Buoy reports via the surface unit to a Satellite about once every 15 minutes, unless a seismic event occurs and then it goes into a faster reporting rate for about 4 hours.
Some powering techniques are used tapping wave motion and/or solar cells to power the surface and the ocean floor units, but there hare high failure rates and maintenance is very expensive.
Powering the buoys with SKLep SSM modules would solve a lot of problems. This is not a large number of sales but it is a perfect application for SKLep SSM where long duration operation is required and maintenance/replacement costs are very high.
Paul:
You can see it in the top view: it is the back part of the drum behind the lamp,
Warm Regards,
A.R.
Prof:
Thank you for the update,
Warm Regards,
A.R.
Dr Rossi,
Here are the last stats of the paper
http://www.researchgate.net/publication/330601653_E-Cat_SK_and_long_range_particle interactions
Total readings: 117000
most than the 99% of 15 millions publications on Researchgate,
and counting…
Best
Prof
Dr Rossi,
Congratulations for the live streaming of the Ecat SSM.
Can you explain where is exactly the Ecat in the picture ?
Sorry if you already said that, I lost the information.
All the best
Paul
Has the live streaming of the SSM moved substantially the amount of the pre-ordered units ?
Roberto:
You bet,
Warm Regards,
A.R.
Romina:
Correct,
Warm Regards,
A.R.
I saw yesterday the measurements of the radiations: as expected, there are no radiations and no EMF fro and/ot to the Ecat
Best,
Romina
Dr Rossi,
The radiations measurements of yesterday confirmed that the Ecat SKLep SSM in the live streaming does not emit any radiations beyond the normal backstage and that there are not EMF around it.
This is a fact,
Best
Roberto
albo70:
It is the same,
Warm Regards,
A.R.
GEORGE PRZAK:
About 8 A
Warm Regards,
A.R.
ANDREA:
What is maximum amps that can continuously be drawn from
a 1000 watt-120 volt installation without shutdown?
Is it time related?
Dear Andrea in order to this answer
2023-03-21 08:47 Andrea Rossi
Jon Darrell:
Please see the data sheet here:
http://www.ecat.com
Warm Regards,
A.R.
I can’t found in data sheet the maximum continuos power but only di MAX operational power.
Is possible to mantain the max operational power continuosly ?
Steven Nicholes Karels:
Thank you for your suggestions,
Warm Regards,
A.R.
Jon Darrell:
Please see the data sheet here:
http://www.ecat.com
Warm Regards,
A.R.
Dear Dr. Rossi,
I have such an important question:
What is the maximum CONTINUOUS output power of mini E-Cat SKLep SSM?
Have A Nice Day
J. Darrell
Dear Andrea Rossi,
Yet another application for SKLep technology – Traffic Control power units
Traffic Control lights, so called stop lights, number about 330,000 in the USA. Generally, a typical Traffic Control light has 12 lights (4 Green; 4 Yellow; and 4 Red). One of the three is always on. There are also pedestrian signs for people crossing intersections.
There are two ways that SKLep technology could be envisioned to have application: Independent power for existing, incandescent traffic control lights; OR replace the existing traffic control lights but incorporate SKLep technology within the new LED traffic lights so they consume no or very little electrical power. The same concept applies for the pedestrian signs.
One incandescent bulb uses in traffic lights consumes about 135 Watts. Replacement 12″ LED lights require between 10 and 22 Watts each.
Incandescent pedestrian signs require about 60 Watts of electrical power. LED pedestrian signs require about 6 Watts.
Since 4 bulbs are always powered on, the electrical power for a traffic light would be 540 Watts for an incandescent. For an LED traffic control light, the average consumption would be about 44 – 50 Watts.
If SKLep SSM units were employed, then the traffic control lights would continue to work even if the entire city was without power.
For existing Traffic Control lights, a inline serial unit could be used by inserting the unit at the traffic control unit where the city electrical power enters. Suitable conversion electronics (an inverter) would be required.
For replacement LED traffic control units, the SKLep technology could be integrated into the LED Traffic control unit.
The same procedure could be used for the pedestrian design.
If only the LED replacement unit approach was done on all 330,000 traffic control lights, the annual power savings would be about $25 Million USD per year (ignoring the savings over incandescent usage savings).
Assuming 5 SKLep SSM 10W units produced the 50W of electrical power, then the 330,000 units would require 1,650,000 units. At $25USD per 10W units, the savings in electrical power would be paid for in about 2 years of operation.
If SKLep SSM technology was used with existing incandescent traffic control lights, assuming there were 300,000 of them, then 54 SKLep SSM 10 Watt units would be required for each incandescent traffic light. This would require about 15 million SKLep SSM 10 Watt units.
Thoughts?
Dear Readers:
Today at 1 PM Miami time, as promised, we have shown during the live streaming of the Ecat SKLep SSM the measurements with the FEM detector and the Radiations detector, and, as could be seen by the Readers who watched, the results of the measurements have been the same of a safe background.
We will repeat these measurements now and again and we are 100% sure that the results will be always the same, based on our past experience under the experimental point of view, and on our theoretical models under the theoretical point of view.
Warm Regards,
A.R.
Iggy Dalrymple:
Thank you for the link,
Warm Regards,
A.R.
My comment on The Electric Viking’s youtube on Tesla’s massive grid-based battery instalations.
Iggie Dalrymple
E-Cat SKLep SSM Livestream
https://www.youtube.com/watch?v=1NfWiowf8SoAutomotive
LED headlight powered by device that generates power from zero point
energy. Livestream has been running for past 8 days. The device is expected to run
at full power for 100,000 hours. The E-Cat can be stacked for whatever amount of
power you need. The E-Cat will make most windmills, batteries, and solar panels
obsolete. I am a Tesla investor. This new technology should soon power homes,
cars, trains, and aircraft.
Dear Readers:
Today at 1 PM Miami Time we will show in the live streaming of the Ecat SKLep SSM both the measurements of the FEM and the radiations: the Geiger has just arrived.
Warm Regards,
A.R.
Jan Srajer:
We usually connect in parallel the series, wherein the series must have the same voltage,
Warm Regards,
A.R.
Mr. Rossi
With a serio-parallel connection, do you connect the Ecat SKLep configuration to the matrix or are the individual branches only connected vertically and then connected in parallel?
Warm Regards J.Š.