Displaying 1051 - 1054 of 1054

Status: CANCELLED
State: TN
Project Term: -
Program: MEITNER

Yellowstone Energy

Reactivity Control Device for Advanced Reactors

Yellowstone Energy will develop a new passive control technology to enhance safety and reduce nuclear power plant costs. The team's Reactivity Control Device (RCD) will integrate with the Yellowstone Energy Molten Nitrate Salt Reactor and other advanced reactor designs. The RCD will use fluid embedded in the reactor’s control rods to control reaction rates at elevated temperatures, even in the absence of external controls. As the heating from fission increases or decreases, the fluid density will automatically and passively respond to control the system. The RCD’s passive control is…


Status: ACTIVE
State: MI
Project Term: -
Program: OPEN 2015


Status: ACTIVE
State: WA
Project Term: -
Program: BETHE

Zap Energy

Sheared Flow Stabilized Z-Pinch Performance Improvement

A Z-pinch fusion device has an electrical current driven through the fusion fuel, creating self-generated magnetic fields that compress and heat the fuel toward fusion conditions. While a Z-pinch with no equilibrium flows has rapidly growing instabilities that disrupt the plasma within nanoseconds, the Z-pinch can be stabilized if an axial plasma flow varying strongly enough with radius is introduced. This sheared-flow stabilized (SFS) Z-pinch may be the simplest and most compact of all known controlled-fusion approaches, as it does not require magnetic coils nor any external heating systems…


Status: ACTIVE
State: WA
Project Term: -
Program: OPEN 2018

Zap Energy

Electrode Technology Development for the Sheared-Flow Z-Pinch Fusion Reactor

Zap Energy will advance the fusion performance of the sheared-flow stabilized (SFS) Z-pinch fusion concept. While the simplicity of the Z-pinch is attractive, it has been plagued by plasma instabilities. Like traditional Z-pinch approaches, the SFS Z-pinch drives electrical current through a plasma to create magnetic fields that compress and heat the plasma toward fusion conditions. The innovation of the SFS Z-pinch is the velocity gradient across the radius of the Z-pinch—in other words, the outer edge of the plasma column is moving at a different velocity than the center—which stabilizes…