Basic Workings of the AEFRA Reactor Core
(Antimatter-Enhanced Fusion Reaction Assembly)
This system generates power by matter fusion and antimatter annihilation in a controlled manner. Matter is injected form the reactant injectors into the magnetic constriction segments as the matter streams are released from their injector nozzles, the constriction segments compress each stream and add 447,040 m/sec of velocity, this velocity and compression insures proper alignment and collision energy for them each to land on target within the reaction chamber at the exact center. At every 47th unit time antimatter (antiprotons) is injected from the micro antimatter reactant injectors (MARIs).
Power transfer conduits carry the energy plasma from the reaction chamber to the power converter. The energetic plasma created by the antimatter-enhanced fusion reaction chamber (AEFRC), and is passed along the power transfer conduits than though “plasma filters” that extract helium gases “ash” from the plasma to fuel the next unit time, quickly arrives at the termination point, the power converter. The power converter consists of a number of major assemblies, including the external/internal directing field coils (DFCs), plasma injection system (PIS), plasma venting system (PVS), and internal power conversion electrode coils (IPC-ECs). The main plasma injector injects plasma into the power converter tube, field coils create a field which directs, and processes the plasma within the power converter to the power conversion electrode coils.
The electromagnetic energy field necessary to direct and process the plasma within the power converter is created by the DFCs. The coils generate an intense, multilayered field that directs, and processes the plasma stream. When energized, the coils cause pockets of sub-electromagnetic field energy to form at The field energy exits the outer surface of the coil where then it radiates within the power converter directing, and processing the plasma stream the plasma from the plasma injector into the power conversion electrode coils. The power conversion electrode coils themselves are split toroids. They absorb the energized plasma particles and convert them into electrical power; than the electric power leaves the converter and is transferred to a transmission substation.
Power transfer conduits carry the energy plasma from the reaction chamber to the power converter. The energetic plasma created by the antimatter-enhanced fusion reaction chamber (AEFRC), and is passed along the power transfer conduits than though “plasma filters” that extract helium gases “ash” from the plasma to fuel the next unit time, quickly arrives at the termination point, the power converter. The power converter consists of a number of major assemblies, including the external/internal directing field coils (DFCs), plasma injection system (PIS), plasma venting system (PVS), and internal power conversion electrode coils (IPC-ECs). The main plasma injector injects plasma into the power converter tube, field coils create a field which directs, and processes the plasma within the power converter to the power conversion electrode coils.
The electromagnetic energy field necessary to direct and process the plasma within the power converter is created by the DFCs. The coils generate an intense, multilayered field that directs, and processes the plasma stream. When energized, the coils cause pockets of sub-electromagnetic field energy to form at The field energy exits the outer surface of the coil where then it radiates within the power converter directing, and processing the plasma stream the plasma from the plasma injector into the power conversion electrode coils. The power conversion electrode coils themselves are split toroids. They absorb the energized plasma particles and convert them into electrical power; than the electric power leaves the converter and is transferred to a transmission substation.
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Pearadyne Labs AEFRA Power Plant and related marks are registered trademarks of Pearadyne Labs AEFRA Power Plant and TPG.
Please also note:
Pearadyne Labs Power is not endorsed, sponsored or affiliated with CBS Studios Inc. or the Star Trek franchise.
STAR TREK is a registered trademark of Paramount Pictures. STAR TREK and related marks are trademarks of CBS Studios Inc.
Pearadyne Labs AEFRA Power Plant and related marks are registered trademarks of Pearadyne Labs AEFRA Power Plant and TPG.
Please also note:
Pearadyne Labs Power is not endorsed, sponsored or affiliated with CBS Studios Inc. or the Star Trek franchise.
STAR TREK is a registered trademark of Paramount Pictures. STAR TREK and related marks are trademarks of CBS Studios Inc.