Category Archives: ViktorSchauberger

Kelvin Generator Upgrade

KelvinGenerator

 

 

This is my Lord Kelvin Generator design with an rotary vaporizer power upgrade. This device will produce High Voltage.  Probably with enough ampere to kill you, so be careful.

Basically you have two options.

1. * Build it like in the picture. The rotation disc should be of insulating material. The inner fat ring and the outer ring should be out of conductive material. Use simple tap water.

2. * Remove the the inner fat ring and make the rotating disc out of conducting material. Connect this disc not with the opposite outer ring.

 

(Additional option:  Just use the rotating disc vaporizer to create snow when it is very cold outside.)

Schauberger Egg

Schauberger_egg_3_0

Schauberger_egg_4_0 Schauberger_egg_4_1 Schauberger_egg_4_2 Schauberger_egg_4_3

 from pylab import *

# The Egg is created by cutting with a straight line through a parabola vortex container

def showParab(k,const):
  #A cutting line params
  #k
  #const
  x=arange(0.1,4,0.001)
  #line formula
  y_line=k*x+const

  #the parabola formula
  y_parab=1.0/x

  ##see how the cutting looks
  plot(x,y_line,x,y_parab,x,-y_parab)
  axis([0,4,-4,4])
  grid()
  show()

showParab(-0.8,1.8)

#A cutting line params are k and d

def showEgg(k,const):
    #showParab(k,const)

##calculating boundaries
xstart=sqrt((1/k)+(const/(k*2))**2)-const/(k*2)
xend=sqrt((-1/k)+(const/(k*2))**2)-const/(k*2)
xx=arange(xstart,xend,0.0001)

##the egg formula
Egg=sqrt((1/xx)**2-(k*xx+const)**2)

###ploting the Egg
plot(xx,Egg,xx,-Egg)
axis([xstart0.2,xend+0.2,-max(Egg)-0.3,max(Egg)+0.3])
grid()
show()

#rounder egg
showEgg(-1.0,2.2)

#more typical egg
showEgg(-1.0,2.02)

#more typical egg
showEgg(-0.8,1.8)

#egg on the edge
showEgg(-1,2.0)