Hybrid Micromodal Reactor

Fusion–fission hybrids revisited

With the increasingly urgent need to find solutions to the impending energy crisis, there is growing interest within the fusion community in revisiting the concept of the fusion–fission hybrid reactor.

the-hybrid-fusionfission-reactor-as-the-solution-to-the-energy-crisis

Advances in fusion energy research now allow the construction of Q = 1 Tokamaks and make possible a new type of nuclear energy reactor: the Fusion-Fission Hybrid.

Fusion-fission hybrid reactor facility: power profiling

The hybrid reactor facility under study consists of an axisymmetric assembly of fuel blocks of a high-temperature gas-cooled reactor and a linear plasma source of additional neutrons.

A Preliminary Study of Autonomous and Ultra-long Life Hybrid

H-MMR is loaded the inverted FA based on the U15N fuel with graphite moderator cooled by heat pipes. The concept of the ultra-long life H-MMR can be achievable mainly due to the features of the unique

Nuclear fusion–fission hybrid

In contrast to current commercial fission reactors, hybrid reactors potentially demonstrate what is considered inherently safe behavior because they remain deeply subcritical under all conditions and

Microfluidic reactors for the synthesis of inorganic and hybrid

The practical implementation of these strategies, including specific reactor configurations and their demonstrated ability to address engineering and regulatory constraints in inorganic and hybrid NP

Multi-step microfludic reactor for the synthesis of hybrid

This paper focuses on synthesizing hybrid nanoparticles composed of chitosan and iron oxide by a multi-step process carried in a novel microfluidic reactor.

A Preliminary Study of Autonomous and Ultra-Long Life Hybrid Micro

A concept of hybrid micro modular reactor (H-MMR) aimed for autonomous operation and ultra long core lifetime has been introduced. The H-MMR integrates an MMR developed by KAIST

Nuclear fusion–fission hybrid

OverviewSafetyHistoryDescriptionOverall economyRationaleUse to dispose of nuclear wasteFuel cycle

In contrast to current commercial fission reactors, hybrid reactors potentially demonstrate what is considered inherently safe behavior because they remain deeply subcritical under all conditions and decay heat removal is possible via passive mechanisms. The fission is driven by neutrons provided by fusion ignition events, and is consequently not self-sustaining. If the fusion process is deliberately shut off or the process is disrupted by a mechanical failure, the fission damps out and stops nearly instantly. This i

Carbon neutrality strategy with small modular reactor-based hybrid

In this study, we propose a hybrid energy system using nuclear (especially small modular reactors)-based hydrogen production, as an alternative solution for achieving carbon neutrality.

PPPL-5243

The FFHMSR combines a critical molten salt fission reactor with a fusion source of energetic neutrons in a single connected system, offering advantages that neither has independently.