Controlled compression and rupture of the cord – the way of energy.

on 13 May 2017.


 

At the dawn of the development of fusion energy was proposed to carry out a reaction in a powerful bit cord plasma.

 

However, it soon became clear the following facts. 

1.In the course of the discharge was independent cord compression current.

2.There is instability of various types, which tore the cord. 

3.In the process, were observed neutron yield.

4.Energy yield of the reaction was small. 

Introduction to the design of different magnetic coils to stabilize the plasma did not lead to breakthrough solutions.

Analysis of the reaction showed that the resulting neutrons were not thermonuclear. In the course of a spontaneous rupture of the cord due to instabilities arise a powerful self-induced EMF. Ions of the plasma accelerated by this field and engage in nuclear reactions with atoms and ions of the plasma. Rupture of the cord is too fast, energy stood out a little. 

There could be a reaction to several other principles. 

1. To produce controlled compression and rupture of the cord the external magnetic field.

2. To abandon the use of large currents. 3. To increase the density of the plasma.

Diagram of the proposed device.

 

 

1 - discharge tube; 2 - solenoid " + " the direction of the current from the observer, "-" - direction of the current at the observer; 3 - electrodes; 4 - ballast the active resistance of the inductive type; 5 - high-voltage transformer.

The unit between the two electrodes (3) located at opposite ends of the discharge tube (1), burning arc discharge. The arc discharge is maintained by the thermionic emission of charged particles (electrons) from the electrode surface. Discharge current limited by the ballast (4). Voltage igniting the arc the medium flows from the transformer (5) 

Source materials to create electrodes (3) are used primarily refractory metals: tungsten, molybdenum, rhenium, platinum, and metals of transition groups: chromium, niobium, hafnium.

The tube is filled with a gas mixture containing deuterium, tritium and lithium. 

The mechanism of action is.

With the help of a transformer (5) is the ignition of the arc. A prolonged pre-heating of the electrodes (3) and plasma (minutes). It facilitates the emission of electrons from the electrodes and stable burning. 

Then at the solenoid (2) is fed a current pulse. In the coil-solenoid plasma is compressed, and the discharge is broken. There is a powerful self-induced EMF that accelerates the ions. Nuclear reactions occur in the gas-discharge tube. Then (without any external assistance!) going on a self-sustained recovery of the arc. Again, is supplied a current pulse to the solenoid, again, shrinks and breaks the cord, again there is a EMF, accelerate ions, there is a reaction. Again self-ignited discharge.

Cord is torn at the time of the order of microseconds. Recovery is similar. If feeding the coil of the solenoid tearing pulse with a frequency of about 1000 (why not 10000?) for a second, it is possible to provide the energy yield of the reaction is greater than cost. The low energy for a single impulse is added per second to every conceivable. 

Advantages of the proposed method.

1. The exceptional simplicity of design.

2. The ability to increase the density of the plasma. 

3. The entire plasma volume is not involved in the compression process.

4. The ability to create a large magnetic field in a small volume. 

5. The continuity of the process.

6. The ease of controlling the frequency (thus energy release), the plasma density and power. 

7. Low currents.

8. No loss on heating of the plasma. 

9. Increase the self-induction EMF with inductive ballast active resistance to the specified value.

Intuitively it is assumed that it is still necessary to limit the volume of the compression chamber and break the cord. It is therefore proposed to make in the discharge chamber narrowing.

 

 

1 - discharge tube; 2 - solenoid " + " the direction of the current from the observer, "-" - direction of the current at the observer; 3 - electrodes; 4 - ballast the active resistance of the inductive type; 5 - high-voltage transformer; 6 - technological contraction . 

Checking of the proposed design can be implemented on any glass fluorescent lamp. For the rapid recovery of the arc discharge, it is recommended to raise the voltage on the electrodes. The neutron yield in a lamp will not be exact, but the process will go! 

The cost of such expertise shall not exceed festive pastime.