2024 Annual Meeting

Presentation information

Oral presentation

III. Fission Energy Engineering » 304-1 Thermal Hydraulics, Energy Conversion, Energy Transfer, Energy Storage

[2K01-04] Critical Heat Flux 2

Wed. Mar 27, 2024 9:45 AM - 10:50 AM Room K (21Bildg.4F 21-422)

Chair:Eiji Hoashi(Osaka Univ.)

10:00 AM - 10:15 AM

[2K02] Development an IVR System with Honeycomb Cooling Technology that combines CHF Improvement and Rapid Cooling of High-Temperature Bodies

(1)Overall overview and the CHF improvement by the Honeycomb Porous Plate and nanofluid

*Shoji Mori1, Yutaro Umehara1, Huacheng Zhang1, Shinichiro Yasukochi1 (1. Kyushu Univ.)

Keywords:Quenching, Honeycomb porous plate, nanofluid, Film boiling

The development of IVR technology for severe accidents is critical for improved defense in depth. Our proposed honeycomb porous technique significantly improves critical heat flux. Equally important is the development of rapid cooling techniques for high-temperature bodies that ensure rapid transition from film boiling to nucleate boiling regime, even if the timing of water injection is missed. In addition, the combination of honeycomb porous plate and nanofluid is proving effective for rapid cooling of high temperature bodies. This project aims to integrate CHF enhancement and rapid cooling into a single honeycomb cooling technology, thereby advancing IVR capabilities. This presentation summarizes the overall overview of current project and results obtained in the previous project.

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