Christopher Strevens
2013-04-21 14:05:20 UTC
I think that the power generated by the fuel and the power capacity of
the output winding must match and that the tank circuit should have ten
times the energy stored at is being drawn. So if 50 KW is being drawn
then 100 KJ must be stored in the tank circuit and the ion pressure must
be correct that the power generated by the plasma must equal the power
drawn by the load.
I did some sums.
diameter of wire in mm 4
diameter of former in mm 100
length of former in mm 80
number of turns 1000
Turns per layer 20
Number of Layers 50
Diameter of coil 0.5
Length of Wire 955.04415 Meters
resistance of winding 1.2768
Inductance of winding by simple formula 0.12337005
new turns 1=y 2=n 2
Inductance by measurement 0.12
Resonant Frequency Hz 50
capacitance by resonance formula 84.4343226 uF
Capacitance 84.4343226 uF
correct ? 1=n 2=y 2
Dynamic impedance 1113.11324
Resonant frequency is 50.0
1 for exit 2 for loop for another capacitance 1
Q 29.5262462
Winding Mass 107.292861 Kg
Rms Potential 500
Half Wavelength 0.04
Velocity 4.0
Peak Potential 700.0
Peak Current 18.5574369
Rms Current 13.2553121
Peak Ampere Turns 18557.4369
Plasma Current 18557.4369
Plasma Current Density 1.39180777e9 Amp per meter^2, near centre
Ion Pressure of Plasma 2.58964667e10 Pa
Power lost through resistance 314.073159 Watt
Power Generated if Deuterium 5.05640829e14 Watt
Power Generated by natural hydrogen 12135379.9 Watt
1 exit 2 loop 1
1 exit 2 again 2
diameter of wire in mm 4
diameter of former in mm 100
length of former in mm 80
number of turns 2000
Turns per layer 20
Number of Layers 100
Diameter of coil 0.9
Length of Wire 3166.72534 Meters
resistance of winding 4.2336
Inductance of winding by simple formula 0.4934802
new turns 1=y 2=n 2
Inductance by measurement 0.5
Resonant Frequency Hz 50
capacitance by resonance formula 20.2642374 uF
Capacitance 20.2642374 uF
correct ? 1=n 2=y 2
Dynamic impedance 5828.13921
Resonant frequency is 50.0
1 for exit 2 for loop for another capacitance 1
Q 37.1030872
Winding Mass 355.760538 Kg
Rms Potential 400
Half Wavelength 0.04
Velocity 4.0
Peak Potential 560.0
Peak Current 3.56377665
Rms Current 2.54555475
Peak Ampere Turns 7127.55329
Plasma Current 7127.55329
Plasma Current Density 5.34566497e8 Amp per meter^2, near centre
Ion Pressure of Plasma 3.82019451e9 Pa
Power lost through resistance 38.406324 Watt
Power Generated if Deuterium 1.10035307e13 Watt
Power Generated by natural hydrogen 264084.736 Watt
1 exit 2 loop 1
1 exit 2 again 2
diameter of wire in mm 4
diameter of former in mm 100
length of former in mm 80
number of turns 4000
Turns per layer 20
Number of Layers 200
Diameter of coil 1.7
Length of Wire 11359.9988 Meters
resistance of winding 15.1872
Inductance of winding by simple formula 1.97392081
new turns 1=y 2=n 2
Inductance by measurement 2
Resonant Frequency Hz 50
capacitance by resonance formula 5.06605935 uF
Capacitance 5.06605935 uF
correct ? 1=n 2=y 2
Dynamic impedance 25994.5324
Resonant frequency is 50.0
1 for exit 2 for loop for another capacitance 1
Q 41.371584
Winding Mass 1276.22034 Kg
Rms Potential 4000
Half Wavelength 0.04
Velocity 4.0
Peak Potential 5600.0
Peak Current 8.91007451
Rms Current 6.36433893
Peak Ampere Turns 35640.298
Plasma Current 35640.298
Plasma Current Density 2.67302235e9 Amp per meter^2, near centre
Ion Pressure of Plasma 9.55184318e10 Pa
Power lost through resistance 861.216512 Watt
Power Generated if Deuterium 6.87916101e15 Watt
Power Generated by natural hydrogen 1.65099864e8 Watt
1 exit 2 loop 2
Rms Potential 200
Half Wavelength 0.04
Velocity 4.0
Peak Potential 280.0
Peak Current 0.44550373
Rms Current 0.31821695
Peak Ampere Turns 1782.0149
Plasma Current 1782.0149
Plasma Current Density 1.33651118e8 Amp per meter^2, near centre
Ion Pressure of Plasma 2.3879608e8 Pa
Power lost through resistance 2.15304128 Watt
Power Generated if Deuterium 4.29947563e10 Watt
Power Generated by natural hydrogen 1031.87415 Watt
1 exit 2 loop 1
1 exit 2 again 2
diameter of wire in mm 4
diameter of former in mm 100
length of former in mm 80
number of turns 2000
Turns per layer 20
Number of Layers 100
Diameter of coil 0.9
Length of Wire 3166.72534 Meters
resistance of winding 4.2336
Inductance of winding by simple formula 0.4934802
new turns 1=y 2=n 2
Inductance by measurement 0.5
Resonant Frequency Hz 50
capacitance by resonance formula 20.2642374 uF
Capacitance 20.2642374 uF
correct ? 1=n 2=y 2
Dynamic impedance 5828.13921
Resonant frequency is 50.0
1 for exit 2 for loop for another capacitance 1
Q 37.1030872
Winding Mass 355.760538 Kg
Rms Potential 2000
Half Wavelength 0.04
Velocity 4.0
Peak Potential 2800.0
Peak Current 17.8188832
Rms Current 12.7277737
Peak Ampere Turns 35637.7665
Plasma Current 35637.7665
Plasma Current Density 2.67283248e9 Amp per meter^2, near centre
Ion Pressure of Plasma 9.55048627e10 Pa
Power lost through resistance 960.158101 Watt
Power Generated if Deuterium 6.87720668e15 Watt
Power Generated by natural hydrogen 1.6505296e8 Watt
1 exit 2 loop 1
1 exit 2 again 1
Since the power generated by natural hydrogen is too high I suppose
using low pressure would reduce this power.
The regulator should keep it in check though.
The inductance is an estimate.
The tank circuit here stores 25000 Joules.
Dr Chris
http://www.cs003o327.webspace.virginmedia.com/
Dr Chris
http://www.cs003o327.webspace.virginmedia.com/
the output winding must match and that the tank circuit should have ten
times the energy stored at is being drawn. So if 50 KW is being drawn
then 100 KJ must be stored in the tank circuit and the ion pressure must
be correct that the power generated by the plasma must equal the power
drawn by the load.
I did some sums.
diameter of wire in mm 4
diameter of former in mm 100
length of former in mm 80
number of turns 1000
Turns per layer 20
Number of Layers 50
Diameter of coil 0.5
Length of Wire 955.04415 Meters
resistance of winding 1.2768
Inductance of winding by simple formula 0.12337005
new turns 1=y 2=n 2
Inductance by measurement 0.12
Resonant Frequency Hz 50
capacitance by resonance formula 84.4343226 uF
Capacitance 84.4343226 uF
correct ? 1=n 2=y 2
Dynamic impedance 1113.11324
Resonant frequency is 50.0
1 for exit 2 for loop for another capacitance 1
Q 29.5262462
Winding Mass 107.292861 Kg
Rms Potential 500
Half Wavelength 0.04
Velocity 4.0
Peak Potential 700.0
Peak Current 18.5574369
Rms Current 13.2553121
Peak Ampere Turns 18557.4369
Plasma Current 18557.4369
Plasma Current Density 1.39180777e9 Amp per meter^2, near centre
Ion Pressure of Plasma 2.58964667e10 Pa
Power lost through resistance 314.073159 Watt
Power Generated if Deuterium 5.05640829e14 Watt
Power Generated by natural hydrogen 12135379.9 Watt
1 exit 2 loop 1
1 exit 2 again 2
diameter of wire in mm 4
diameter of former in mm 100
length of former in mm 80
number of turns 2000
Turns per layer 20
Number of Layers 100
Diameter of coil 0.9
Length of Wire 3166.72534 Meters
resistance of winding 4.2336
Inductance of winding by simple formula 0.4934802
new turns 1=y 2=n 2
Inductance by measurement 0.5
Resonant Frequency Hz 50
capacitance by resonance formula 20.2642374 uF
Capacitance 20.2642374 uF
correct ? 1=n 2=y 2
Dynamic impedance 5828.13921
Resonant frequency is 50.0
1 for exit 2 for loop for another capacitance 1
Q 37.1030872
Winding Mass 355.760538 Kg
Rms Potential 400
Half Wavelength 0.04
Velocity 4.0
Peak Potential 560.0
Peak Current 3.56377665
Rms Current 2.54555475
Peak Ampere Turns 7127.55329
Plasma Current 7127.55329
Plasma Current Density 5.34566497e8 Amp per meter^2, near centre
Ion Pressure of Plasma 3.82019451e9 Pa
Power lost through resistance 38.406324 Watt
Power Generated if Deuterium 1.10035307e13 Watt
Power Generated by natural hydrogen 264084.736 Watt
1 exit 2 loop 1
1 exit 2 again 2
diameter of wire in mm 4
diameter of former in mm 100
length of former in mm 80
number of turns 4000
Turns per layer 20
Number of Layers 200
Diameter of coil 1.7
Length of Wire 11359.9988 Meters
resistance of winding 15.1872
Inductance of winding by simple formula 1.97392081
new turns 1=y 2=n 2
Inductance by measurement 2
Resonant Frequency Hz 50
capacitance by resonance formula 5.06605935 uF
Capacitance 5.06605935 uF
correct ? 1=n 2=y 2
Dynamic impedance 25994.5324
Resonant frequency is 50.0
1 for exit 2 for loop for another capacitance 1
Q 41.371584
Winding Mass 1276.22034 Kg
Rms Potential 4000
Half Wavelength 0.04
Velocity 4.0
Peak Potential 5600.0
Peak Current 8.91007451
Rms Current 6.36433893
Peak Ampere Turns 35640.298
Plasma Current 35640.298
Plasma Current Density 2.67302235e9 Amp per meter^2, near centre
Ion Pressure of Plasma 9.55184318e10 Pa
Power lost through resistance 861.216512 Watt
Power Generated if Deuterium 6.87916101e15 Watt
Power Generated by natural hydrogen 1.65099864e8 Watt
1 exit 2 loop 2
Rms Potential 200
Half Wavelength 0.04
Velocity 4.0
Peak Potential 280.0
Peak Current 0.44550373
Rms Current 0.31821695
Peak Ampere Turns 1782.0149
Plasma Current 1782.0149
Plasma Current Density 1.33651118e8 Amp per meter^2, near centre
Ion Pressure of Plasma 2.3879608e8 Pa
Power lost through resistance 2.15304128 Watt
Power Generated if Deuterium 4.29947563e10 Watt
Power Generated by natural hydrogen 1031.87415 Watt
1 exit 2 loop 1
1 exit 2 again 2
diameter of wire in mm 4
diameter of former in mm 100
length of former in mm 80
number of turns 2000
Turns per layer 20
Number of Layers 100
Diameter of coil 0.9
Length of Wire 3166.72534 Meters
resistance of winding 4.2336
Inductance of winding by simple formula 0.4934802
new turns 1=y 2=n 2
Inductance by measurement 0.5
Resonant Frequency Hz 50
capacitance by resonance formula 20.2642374 uF
Capacitance 20.2642374 uF
correct ? 1=n 2=y 2
Dynamic impedance 5828.13921
Resonant frequency is 50.0
1 for exit 2 for loop for another capacitance 1
Q 37.1030872
Winding Mass 355.760538 Kg
Rms Potential 2000
Half Wavelength 0.04
Velocity 4.0
Peak Potential 2800.0
Peak Current 17.8188832
Rms Current 12.7277737
Peak Ampere Turns 35637.7665
Plasma Current 35637.7665
Plasma Current Density 2.67283248e9 Amp per meter^2, near centre
Ion Pressure of Plasma 9.55048627e10 Pa
Power lost through resistance 960.158101 Watt
Power Generated if Deuterium 6.87720668e15 Watt
Power Generated by natural hydrogen 1.6505296e8 Watt
1 exit 2 loop 1
1 exit 2 again 1
Since the power generated by natural hydrogen is too high I suppose
using low pressure would reduce this power.
The regulator should keep it in check though.
The inductance is an estimate.
The tank circuit here stores 25000 Joules.
Dr Chris
http://www.cs003o327.webspace.virginmedia.com/
Dr Chris
http://www.cs003o327.webspace.virginmedia.com/