Numerical modeling of thermal-fluid behavior of the S-CO2 cooled pebble bed reactor

Numerical modeling of thermal-fluid behavior of the S-CO2 cooled pebble bed reactor

The S-CO2 cooled pebble bed reactor (SCPBR) is a type of pebble bed reactors in which the supercritical carbon dioxide used as a coolant. In this study, the thermal-fluid phenomena in the SCPBR core, at different porosities (0.38, 0.4, and 0.42) and pebble diameters (3 cm, 8 cm and 12 cm) are numeri...

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Main Author: M.S. Latifi
Format: Article
Language:English
Published: Elsevier 2018-12-01
Series:Alexandria Engineering Journal
Online Access:http://www.sciencedirect.com/science/article/pii/S1110016818301947
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spelling doaj-3002100408a9464fb215b0e67dca9a392021-06-02T01:19:25ZengElsevierAlexandria Engineering Journal1110-01682018-12-0157439954001Numerical modeling of thermal-fluid behavior of the S-CO2 cooled pebble bed reactorM.S. Latifi0Department of Energy Engineering and Physics, Amirkabir University of Technology, Tehran, IranThe S-CO2 cooled pebble bed reactor (SCPBR) is a type of pebble bed reactors in which the supercritical carbon dioxide used as a coolant. In this study, the thermal-fluid phenomena in the SCPBR core, at different porosities (0.38, 0.4, and 0.42) and pebble diameters (3 cm, 8 cm and 12 cm) are numerically studied by developing a three-dimensional CFD model. ANSYS FLUENT 14.5, was used to carry out the numerical simulation. The results show that for a given pebble diameter, when the porosity is increased, the fluid and solid temperatures are almost the same, the pressure drop decreases, and the heat transfer coefficient increases. Also, it was found when the pebble diameter is increased, the fluid temperature is almost the same, the pressure drop and the heat transfer coefficient decrease, but the solid temperature increases. Keywords: CFD, Heat transfer coefficient, Porosity, Reactor, Pebble diameterhttp://www.sciencedirect.com/science/article/pii/S1110016818301947
collection DOAJ
language English
format Article
sources DOAJ
author M.S. Latifi
spellingShingle M.S. Latifi
Numerical modeling of thermal-fluid behavior of the S-CO2 cooled pebble bed reactor
Alexandria Engineering Journal
author_facet M.S. Latifi
author_sort M.S. Latifi
title Numerical modeling of thermal-fluid behavior of the S-CO2 cooled pebble bed reactor
title_short Numerical modeling of thermal-fluid behavior of the S-CO2 cooled pebble bed reactor
title_full Numerical modeling of thermal-fluid behavior of the S-CO2 cooled pebble bed reactor
title_fullStr Numerical modeling of thermal-fluid behavior of the S-CO2 cooled pebble bed reactor
title_full_unstemmed Numerical modeling of thermal-fluid behavior of the S-CO2 cooled pebble bed reactor
title_sort numerical modeling of thermal-fluid behavior of the s-co2 cooled pebble bed reactor
publisher Elsevier
series Alexandria Engineering Journal
issn 1110-0168
publishDate 2018-12-01
description The S-CO2 cooled pebble bed reactor (SCPBR) is a type of pebble bed reactors in which the supercritical carbon dioxide used as a coolant. In this study, the thermal-fluid phenomena in the SCPBR core, at different porosities (0.38, 0.4, and 0.42) and pebble diameters (3 cm, 8 cm and 12 cm) are numerically studied by developing a three-dimensional CFD model. ANSYS FLUENT 14.5, was used to carry out the numerical simulation. The results show that for a given pebble diameter, when the porosity is increased, the fluid and solid temperatures are almost the same, the pressure drop decreases, and the heat transfer coefficient increases. Also, it was found when the pebble diameter is increased, the fluid temperature is almost the same, the pressure drop and the heat transfer coefficient decrease, but the solid temperature increases. Keywords: CFD, Heat transfer coefficient, Porosity, Reactor, Pebble diameter
url http://www.sciencedirect.com/science/article/pii/S1110016818301947
work_keys_str_mv AT mslatifi numericalmodelingofthermalfluidbehaviorofthesco2cooledpebblebedreactor
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