ANALOGICALLY WE WILL APPLY THE FORMULA TO OBTAIN
enter, in the lower part, in the blank spaces, in A the area of the capacitor in square
meters, in d the thickness of the dielectric in meters, in k the dielectric coefficient, click
on Capacity and we will obtain in the lower spaces the results .
The capacity of a capacitor is measured in Coulombs per second / 1,000 or Micro
Farad, according to the “Capacitor Calculator”
by the formula: (click on capacitor calculator)
C = K Surface / thickness of the dielectric
Surface in square meters
Thickness in meters
Capacity in microfarads
C = K S / E
For the 3D Capacitor ALUCEl
the capacity of a square meter with a K of 3 and 25 nanos of thickness
dielectric, it would be according to the capacitor capacity calculator, such as
figure above, from
= 1.062 microfarads =
= 1,062 Farads / square meter.
To move a submarine 5,000 square meters will be needed. of conductive surface (*)
with a dielectric of thickness 25 nanos and a K of 3.
(*) These huge surface areas can be easily reached with open pore microcellular materials.
CALCULATION OF THE NUMBER OF CELLS OF ONE MILLIMETER OF DIAMETER BY
CUBIC CENTIMETER TO BE ABLE TO MOVE A SUBMARINE.
SURFACE AREA NEEDS 5,000 SQUARE METERS.
AREA IN SQUARE METERS OF A CELL
ONE MILLIMETER OF DIAMETER
A = 4 X 3.14 X 0.005 X 0.005 = 0.000314 SQUARE METERS
NUMBER OF CELLS REQUIRED 5,000 / 0.000314
= 16 ELEVATED AT LEAST SIX
THAT IN CUBIC CENTIMETERS IS
5 FARADIES BY LITER
DENSITY 30 KG / M3
16 FARADIES PER KILO
IN AN OPTIMIZATION PROCESS THESE VALUES CAN BE SURPASSED
IN VARIOUS ORDERS OF MAGNITUDE.
WE BELIEVE THAT AN OBJECTIVE EASILY REACHED MAY BE
20,000 FARADIES / LITER OR 100,000 FARADIES / KILO,
TO THE DESIRED VOLTAGE.
CELLULAR MATERIALS ARE REPORTED WITH A DENSITY OF
CELLS PER SQUARE CUMBUM LARGER OF 10 RAIOSED TO 18.