Alexander A.Shpilman ( alexandrshpilman78@gmail.com )

Russian

The Imitator of a "Place Power" IPP-2 and IPP-3

Probably, any design can be improved indefinitely. So on Fig.1 design IPP-2 which is described in "The Imitator of a "Place Power" IPP-2". is shown. On Fig.2 the advanced design - IPP-2K is shown. More compact and effective.


Fig.1

The design consists of two dielectric disks 2 with apertures in the center, the electrodes 1 and 2 are settled down between these disks. The electrode 1 is an aluminium ring, 2 is a ring from a thin tungstic wire. The electrodes 3 (the aluminium cones with the cut off top) and the aluminium rings 4 are placed in two dielectric cones 6.

The pulsing voltage 15kV + 130V is fed on the electrodes 1.

The pulsing voltage 15kV is fed on the electrodes 2.

The pulsing voltage -15kV is fed on the electrodes 3.

The electrodes 4 have zero potential.

The vector potential of spiral structure is created with two toroidal electric coils 10 and cylindrical 9, reeled up on the iron rings 8.

The vector potential of spiral structure is created with two toroidal electric coils 10 and cylindrical 9, reeled up on the iron rings 8.



Fig.2

The design differs:

3 - aluminium cones with the cut off top with the pointed edge of a foil at top. On cones the pulsing negative voltage -45 kV is fed.

The zero electrode 4 is made in a dielectric tube 7 which increases a spark interval between electrodes 3 and 4 due to that the design turns out more compact at higher working voltage.

Dielectric cylinders 11 isolate toroidal electric coils 10 from high-voltage electric breakdown from cones 3.

 

One of primary factors of generation DSS of elements is electric recharging ions. Is tempting to try to make the device with repeated electric recharging ions and DSS elements. For example, as it is shown on Fig. 3.

 


Fig
.3

 

The design will consist of two identical ionizers I and II, each of which will consist from dielectric tubes 11 and 12, established on one axes and with a backlash between them of 3-5 mm inside which electrodes settle down, tubes of an aluminium foil 1 and 3. In a dielectric tube 7 the electrode 4 is placed.

On an electrode 1 the pulsing voltage +30 kV is fed .

On an electrode 3 the pulsing voltage -45 kV is fed pulsing.

The electrode 4 has zero potential.

The vector potential of spiral structure is created with two toroidal electric coils 10 and cylindrical 9, reeled up on the iron rings 8 (as it is described in "The Imitator of a "Place Power" IPP-2"), which put on dielectric tubes 11 and 12.

The corona discharge on the pointed edge of a tube from an aluminium foil 1 (top on figure) ionizes air, inducing ions c a positive electric charge. Ions (and DSS elements) with a positive charge, carrying away air, drift to an electrode 3 where occurs them electric recharging (change of a sign on an electric charge on opposite). Then ions with a negative charge together with a stream of air leave upwards on an axis of the device (ionizer I). The electrode 4 stabilizes the corona discharge on an electrode 3 and focuses a stream of ions along an axis.

Ionizers I and II are directed in the opposite sides, so ions (and DSS elements) having deviated from movement along an axis of one ionizer, can get on an input of another, thus, having repeated electric recharging.

In the given design it is much easier to adjust distance between electrodes, achieving intensive the corona discharge.

 

Due to innovations efficiency of a design considerably raises.

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