Enhancement of critical heat flux with additive-manufactured heat-transfer surface

Tatsuya Kano; Rintaro Ono; Masahiro Furuya

Nuclear Engineering and Technology (Jul 2024)

Enhancement of critical heat flux with additive-manufactured heat-transfer surface

Tatsuya Kano,
Rintaro Ono,
Masahiro Furuya

Affiliations

Tatsuya Kano: Corresponding author.; Cooperative Major in Nuclear Energy, Graduate School of Advanced Science and Engineering, Waseda University, Japan
Rintaro Ono: Cooperative Major in Nuclear Energy, Graduate School of Advanced Science and Engineering, Waseda University, Japan
Masahiro Furuya: Cooperative Major in Nuclear Energy, Graduate School of Advanced Science and Engineering, Waseda University, Japan

Journal volume & issue: Vol. 56, no. 7
pp. 2474 – 2479

Abstract

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In-Vessel Retention (IVR) is a key technology to retain the molten core in the reactor vessel during severe accidents of Pressurized-water reactors (PWRs). In order to gain the safety margin of IVR, it is crucial to enhance the critical heat flux (CHF) of the reactor vessel, which is submerged in a water pool. To enhance the CHF, we have designed and additive-manufactured porous grid plates with a 3-D printer for design flexibility. We measured the CHF for the porous grid plate on the boiling heat transfer surface and found that the CHF was enhanced by 50 % more than that of the bare surface. The CHF enhanced more with a narrower grid pitch and a lower grid height. The visual observation study revealed that the vapor film was formed at the bottom of the grid plate.

Published in Nuclear Engineering and Technology

ISSN: 1738-5733 (Print)
Publisher: Elsevier
Country of publisher: Korea, Republic of
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Nuclear engineering. Atomic power
Website: http://www.journals.elsevier.com/nuclear-engineering-and-technology

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