Title

Natural Convection inside Heated Channel of a Facility Representing Prismatic Modular Reactor Core

Abstract

The newly developed Plenum-to-Plenum facility (P2PF) at Missouri S&T has shown to be an innovative separate effects test facility representing the geometry of prismatic modular reactors. Thermal and velocity fields inside this dual channel facility have been investigated under different natural circulation intensities. It is found that temperature and velocity profiles are function of the measurements locations and the amount of heat supplied to the channel. Quantification of the overall Rayleigh number (Ra) versus overall Reynold number (Re) are found to be related by Re α Ra0:58. Upper plenum mixing was characterized by determining the modified Reynold number (Rem) and Froude number (1/Fr2) dimensionless groups. Analysis of these dimensionless groups along with observable turbulence amplifications emphasize relevance of adopting axial temperature inflection as a criterion for initiation of naturally driven flow destabilization inside vertical heated channels. Additionally, quantification of the distortion factors for characteristic dimensionless groups reveal a good similarity between the P2PF and the Modular High Temperature Gas-cooled Reactor.

Department(s)

Mining and Nuclear Engineering

Second Department

Chemical and Biochemical Engineering

Comments

The authors acknowledge the financial support provided by the U.S. Department of Energy-Nuclear Energy Research Initiative (DOE-NERI) project (NEUP 13-4953 (DENE0000744)) for the fourth generation nuclear energy, which made this work possible.

Keywords and Phrases

Gas Cooled Reactors; Velocity; Heated Channels; Hot Wire Anemometry; Modular Reactors; Thermal Hydraulics; Velocity Field; Natural Convection; Prismatic Modular Reactors; Temperature and Velocity Fields

International Standard Serial Number (ISSN)

0001-1541; 1547-5905

Document Type

Article - Journal

Document Version

Citation

File Type

text

Language(s)

English

Rights

© 2018 American Institute of Chemical Engineers (AIChE), All rights reserved.

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