Gas Destabilization Process

Placement of a pulse-voltage potential across the Excitor-Array (ER) of Gas Resonant Cavity (t) while inhibiting or preventing electron flow within the Voltage Intensifier Circuit (AA) causes the Gas Atom of Argon (Ar) to become an positive charged ion by pulling away orbital electrons from the gas molecule or gas atom, as illustrated in Figure 1-5.

The stationary "positive" electrical voltage-field (E3) attracts the negative charged electrons from the Gas Atom.

At the same time, the stationary "Negative" electrical voltage field (E4) attracts the positive charged nucleus of the gas atom (s).

Once the negative electrically charged electrons are dislodged from the gas atom, the gas atom becomes destabilized…having missing electrons.

Dislodging electrons from the gas atom by way of voltage stimulation is hereinafter called "The Gas Destabilization Process."

Attenuating and adjusting the "pulse-voltage-amplitude" with respect to the "pulse voltage frequency," now, regulates "The Electron Extraction Process."

Cover Page

Cover Page

Electrical Particle Generator

RE: Electrical Particle Generator

CIRCUIT COMPONENT INTERACTION

Figure 9B & 9BB - Applied Voltage To Plates

LC VOLTAGE

RLC CIRCUIT

VOLTAGE DYNAMIC

Voltage Performs Work

ATOMIC INTERACTION TO VOLTAGE STIMULATION

Gas Destabilization Process

LASER INTERACTION

Electron Extraction Process

Magnetic Gas Lattice

Electromagnetic Enhancement

Magnetic Field Enhancement

Hydrogen Fracturing Process

Pulsing Transformer

Blocking Diode

LC Circuit

LC Voltage

RLC Circuit

Dual-inline RLC Network

VIC Resistance

Potential Energy

Voltage Performs Work

Atomic Interaction to Voltage Stimulation

Voltage Dissociation of The Water Molecule

Laser Interaction

Electron Extraction Process

Thermal Explosive Energy

Rocket Propulsion

In Summation

WFC 420 - Illustrations

Rendering Hydrogen Safer Than Natural Gas

Spark-Ignition Tube

Gas Injection Process

Gas Mixing Regulator

Flame Temperature Adjustment

Quenching Circuit

Quenching Nozzle

Quenching Tube

Catalytic Block Assembly

Internal Combustion Engine

Gas Grid System

Operational Parameters

WFC 421 - Illustrations

Laser Accelerator Assembly

Acceleration Control Circuit (30)

Analog Voltage generator (40)

Voltage Amplitude Control Circuit (50)

Variable Pulse Frequency Generator (70)

Gated Pulse Frequency generator (80)

Cell Driver Circuit (90)

Voltage Intensifier Circuit (60)

Voltage Dynamics

Electrically Charged Water Molecule

Electrical Polarization process

Resonant Action

Gas Modulator Process

Gas Processor

Hydrogen Fracturing Process

Laser Distributor

Impurity Extraction Process

Steam Resonator

Diesel Application

Aviation Application

Operational Parameters

WFC 422DA - Illustrations

Water Fuel Injection System ®

Duge Buggy: Read Side View

Dune Buggy: Rear View

Dune Buggy: I.C. Engine Side View

Water Fuel Injection System - Page 1

Water Fuel Injection System - Page 2

Water Fuel Injection System - Page 3

Water Fuel Injection System - Page 4

Water Fuel Injection System

Voltage Intensifier Coil Assembly