Used TOSHIBA / NUFLARE EGV-28F #9407591 for sale
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TOSHIBA / NUFLARE EGV-28F Reactor is a high-performance, low-voltage device designed for integration into nuclear fusion systems. It uses a novel design of low-temperature, high-efficiency, and high-power density superconducting coils to create and contain a plasma field. This design allows for efficient operation and superior performance. The reactor body consists of two thermally and electrically insulated sections, one containing the plasma field and the other filled with insulating gases. The primary components of the plasma field are two tungsten toroidal coils, which generate the necessary magnetic fields to confine and control the plasma temperature and density. These coils are powered by an array of secondary superconducting coils, which provide the necessary magnetic fields at a lower voltage. The secondary coils, in turn, are powered by a low-voltage, high-power DC source. This source is driven by a high-power IGBT-based switching system, which enables efficient and reliable operations. The coil assembly, along with the IGBT-based switching system, are mounted on a separate structure within the reactor body. TOSHIBA EGV-28F Reactor is designed to create extremely high temperatures, up to 50 million Kelvin, and pressures high enough to sustain the confined plasma for extended periods of time. This high temperature and pressure increase the chances of achieving sustained and stable nuclear fusion. To further ensure the system's efficiency and reliability, the reactor also features advanced computer modeling, diagnostics, and control systems. The torque between the two tungsten toroidal coils is controlled by a superconducting shim coil, which is the third of three environment monitoring and control systems. The superconducting shim coil ensures stability by closely controlling the interactions between the tungsten toroidal coils, enabling them to stay in balance throughout operation. Overall, NUFLARE EGV-28F Reactor is an exceptionally advanced and reliable device, designed for efficient operation in fusion systems. The device's low-voltage, high-efficiency, and high-power density capabilities allow for superior performance, while its advanced computer modeling, diagnostics, and control systems ensure stable and reliable operation. In addition, the reactor's temperature and pressure capabilities provide an ideal environment for achieving sustained and stable nuclear fusion.
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