sen-no-sen wrote:Capturing energy from the atmosphere, does it remind Haarp or Sura?
You can explain to us synthetically in a few lines what is the basic process?
Please raise the level by asking interesting questions.
So I'm currently writing the DIY part, following the work of Dr. Hermann Plauson. The circuit that I propose is a modern version of the antecedent circuit, it is mainly composed of spark gaps, capacitors, and a thyristor.
Here is a brief overview (I haven't reread it yet):
DIY: Construction of an atmospheric generator module, following the work of Dr. Hermann Plauson.
Summary: Dr. Harmann Plauson has carried out research and experimentation on devices for the capture of electricity contained in the atmosphere, the device is the subject of a patent. The system is made up of two major elements: a collection device (antenna, balloon or kite, etc.) and an electronic circuit, for end use (direct current). The purpose of this article is to communicate to you the maximum of elements so that you are able to reproduce.
I advise you to read this entire article carefully. The maximum of information will be communicated to you, and the electronic circuit is very simple to realize.
Here is the electronic diagram
Nomenclature
- Antenna: Hermann Plauson used a balloon covered with different sheets of different metals, in our case, the antenna can be a simple bare copper wire, it is possible to light an LED, with an antenna of about 5 meters . The ball described in the previous article, is sent to a height of about 300 meters, the contact surface was larger and the powers obtained could go up to 700 watts.
- E1; E2; E3: Sparklers.
- C1; C2; C3; C4; C5; C6: capacitors [3 to 10µF - 600V].
- B1: NE-2 type neon lamp.
- Bat.1: 12V battery (which will absorb atmospheric electricity).
- T1: SCR (silicon controlled rectifier), silicon controlled rectifier, thyristor.
Ref: 511-BTW69-800 [TO-3P box, 800 volt, 50A].
Here is the list of components
- E1; E2; E3
Sparklers: It is a basic component, composed of two electrodes (two metals of the same kind: copper for example) bet face to face, generally used for protection against overvoltages. The spark gap can be in the ambient air or in a tube filled with neutral gas (to have a well-defined bursting voltage, and to avoid the deposition of scale: carbon deposition, which modifies the characteristics of the spark gap) . Beyond a certain potential difference, an electric arc is formed between the two electrodes, the potential difference being large enough to let the electric current pass.
In our application, I suggest you create your own spark gap with two rigid copper wires separated by 1,143 mm (0,045 inch) from the ambient air. It is nevertheless possible to buy these components from specialized suppliers.
- C1; C2; C3; C4; C5; C6
The capacitors can have a capacity of 3 to 10 µF, with a maximum voltage of 600 volts, all the capacitors in this circuit are identical.
- B1
A neon type NE-2 lamp, the flicker of this lamp will indicate at first if electricity is picked up, and the intensity of the light will indicate the amount of energy absorbed from the atmosphere.
- Bat.1
A 12V battery is recharged using the capture device.
- T1
The thyristor, is a semiconductor, which let the current pass when its trigger (mark G) is activated, the trigger is activated by the NE-2 lamp, as indicated by the electronic diagram.