A CFD Approach to Mimic the Molten Corium-Concrete Interaction Phenomena: Effects of the Thermal Boundary Conditions

Ilyas Khurshid; Imran Afgan; Yacine Addad

doi:10.1007/978-3-031-64362-0_35

A CFD Approach to Mimic the Molten Corium-Concrete Interaction Phenomena: Effects of the Thermal Boundary Conditions

Ilyas Khurshid, Imran Afgan, Yacine Addad

Mechanical & Nuclear Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In the event of a severe nuclear accident resulting in a core meltdown, the molten corium which is a mixture of the molten fuel, cladding, and structural elements, originating in the reactor core could penetrate through the reactor pressure vessel to interact with concrete structure underneath. This research paper presents the numerical modeling of molten corium concrete interaction (MCCI). The complex phenomena of molten corium concrete interaction and melting of concrete are simplified by considering multi-region with the change in phases taking place only within each predefined region with the assumption that corium is a homogenous mixture of molten nuclear fuel, cladding, thermo-hydraulic and structural element. This study presents the use of the OpenFoam a Computational Fluid Dynamics (CFD) simulator where a new solver is developed to model the molten corium concrete interaction, its melting, solidification, and concrete ablation for the first time. Two sets of experimental data are used to validate the developed solver and demonstrate the thermal modeling and heat transfer capabilities of the developed solver for concrete ablation under severe conditions. We analyzed the effect of various boundary conditions and examined their impact on concrete ablation. We observed significant low concrete ablation, controlled temperature and velocity field, for water-cooled boundary conditions. Accordingly, the ablation of concrete decreased by 17% just by imposing water-cooled boundary conditions.

Original language	British English
Title of host publication	Challenges and Recent Advancements in Nuclear Energy Systems - Proceedings of Saudi International Conference on Nuclear Power Engineering SCOPE
Editors	Afaque Shams, Khaled Al-Athel, Iztok Tiselj, Andreas Pautz, Tomasz Kwiatkowski
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	360-378
Number of pages	19
ISBN (Print)	9783031643613
DOIs	https://doi.org/10.1007/978-3-031-64362-0_35
State	Published - 2024
Event	Saudi International Conference on Nuclear Power Engineering, SCOPE 2023 - Dhahran, Saudi Arabia Duration: 13 Nov 2023 → 15 Nov 2023

Publication series

Name	Lecture Notes in Mechanical Engineering
ISSN (Print)	2195-4356
ISSN (Electronic)	2195-4364

Conference

Conference	Saudi International Conference on Nuclear Power Engineering, SCOPE 2023
Country/Territory	Saudi Arabia
City	Dhahran
Period	13/11/23 → 15/11/23

Keywords

Computational Fluid Dynamics
Concrete Ablation
Concrete Composition
Enthalpy-Porosity Model
Molten Corium
Water Injection

Access to Document

10.1007/978-3-031-64362-0_35

Cite this

Khurshid, I., Afgan, I., & Addad, Y. (2024). A CFD Approach to Mimic the Molten Corium-Concrete Interaction Phenomena: Effects of the Thermal Boundary Conditions. In A. Shams, K. Al-Athel, I. Tiselj, A. Pautz, & T. Kwiatkowski (Eds.), Challenges and Recent Advancements in Nuclear Energy Systems - Proceedings of Saudi International Conference on Nuclear Power Engineering SCOPE (pp. 360-378). (Lecture Notes in Mechanical Engineering). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-3-031-64362-0_35

Khurshid, Ilyas ; Afgan, Imran ; Addad, Yacine. / A CFD Approach to Mimic the Molten Corium-Concrete Interaction Phenomena : Effects of the Thermal Boundary Conditions. Challenges and Recent Advancements in Nuclear Energy Systems - Proceedings of Saudi International Conference on Nuclear Power Engineering SCOPE. editor / Afaque Shams ; Khaled Al-Athel ; Iztok Tiselj ; Andreas Pautz ; Tomasz Kwiatkowski. Springer Science and Business Media Deutschland GmbH, 2024. pp. 360-378 (Lecture Notes in Mechanical Engineering).

@inproceedings{2854c8269ff24d81bd68c7ae81d5e96d,

title = "A CFD Approach to Mimic the Molten Corium-Concrete Interaction Phenomena: Effects of the Thermal Boundary Conditions",

abstract = "In the event of a severe nuclear accident resulting in a core meltdown, the molten corium which is a mixture of the molten fuel, cladding, and structural elements, originating in the reactor core could penetrate through the reactor pressure vessel to interact with concrete structure underneath. This research paper presents the numerical modeling of molten corium concrete interaction (MCCI). The complex phenomena of molten corium concrete interaction and melting of concrete are simplified by considering multi-region with the change in phases taking place only within each predefined region with the assumption that corium is a homogenous mixture of molten nuclear fuel, cladding, thermo-hydraulic and structural element. This study presents the use of the OpenFoam a Computational Fluid Dynamics (CFD) simulator where a new solver is developed to model the molten corium concrete interaction, its melting, solidification, and concrete ablation for the first time. Two sets of experimental data are used to validate the developed solver and demonstrate the thermal modeling and heat transfer capabilities of the developed solver for concrete ablation under severe conditions. We analyzed the effect of various boundary conditions and examined their impact on concrete ablation. We observed significant low concrete ablation, controlled temperature and velocity field, for water-cooled boundary conditions. Accordingly, the ablation of concrete decreased by 17\% just by imposing water-cooled boundary conditions.",

keywords = "Computational Fluid Dynamics, Concrete Ablation, Concrete Composition, Enthalpy-Porosity Model, Molten Corium, Water Injection",

author = "Ilyas Khurshid and Imran Afgan and Yacine Addad",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive license to Springer Nature Switzerland AG 2024.; Saudi International Conference on Nuclear Power Engineering, SCOPE 2023 ; Conference date: 13-11-2023 Through 15-11-2023",

year = "2024",

doi = "10.1007/978-3-031-64362-0\_35",

language = "British English",

isbn = "9783031643613",

series = "Lecture Notes in Mechanical Engineering",

publisher = "Springer Science and Business Media Deutschland GmbH",

pages = "360--378",

editor = "Afaque Shams and Khaled Al-Athel and Iztok Tiselj and Andreas Pautz and Tomasz Kwiatkowski",

booktitle = "Challenges and Recent Advancements in Nuclear Energy Systems - Proceedings of Saudi International Conference on Nuclear Power Engineering SCOPE",

address = "Germany",

}

Khurshid, I , Afgan, I & Addad, Y 2024, A CFD Approach to Mimic the Molten Corium-Concrete Interaction Phenomena: Effects of the Thermal Boundary Conditions. in A Shams, K Al-Athel, I Tiselj, A Pautz & T Kwiatkowski (eds), Challenges and Recent Advancements in Nuclear Energy Systems - Proceedings of Saudi International Conference on Nuclear Power Engineering SCOPE. Lecture Notes in Mechanical Engineering, Springer Science and Business Media Deutschland GmbH, pp. 360-378, Saudi International Conference on Nuclear Power Engineering, SCOPE 2023, Dhahran, Saudi Arabia, 13/11/23. https://doi.org/10.1007/978-3-031-64362-0_35

A CFD Approach to Mimic the Molten Corium-Concrete Interaction Phenomena: Effects of the Thermal Boundary Conditions. / Khurshid, Ilyas ; Afgan, Imran ; Addad, Yacine.
Challenges and Recent Advancements in Nuclear Energy Systems - Proceedings of Saudi International Conference on Nuclear Power Engineering SCOPE. ed. / Afaque Shams; Khaled Al-Athel; Iztok Tiselj; Andreas Pautz; Tomasz Kwiatkowski. Springer Science and Business Media Deutschland GmbH, 2024. p. 360-378 (Lecture Notes in Mechanical Engineering).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - A CFD Approach to Mimic the Molten Corium-Concrete Interaction Phenomena

T2 - Saudi International Conference on Nuclear Power Engineering, SCOPE 2023

AU - Khurshid, Ilyas

AU - Afgan, Imran

AU - Addad, Yacine

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Nature Switzerland AG 2024.

PY - 2024

Y1 - 2024

N2 - In the event of a severe nuclear accident resulting in a core meltdown, the molten corium which is a mixture of the molten fuel, cladding, and structural elements, originating in the reactor core could penetrate through the reactor pressure vessel to interact with concrete structure underneath. This research paper presents the numerical modeling of molten corium concrete interaction (MCCI). The complex phenomena of molten corium concrete interaction and melting of concrete are simplified by considering multi-region with the change in phases taking place only within each predefined region with the assumption that corium is a homogenous mixture of molten nuclear fuel, cladding, thermo-hydraulic and structural element. This study presents the use of the OpenFoam a Computational Fluid Dynamics (CFD) simulator where a new solver is developed to model the molten corium concrete interaction, its melting, solidification, and concrete ablation for the first time. Two sets of experimental data are used to validate the developed solver and demonstrate the thermal modeling and heat transfer capabilities of the developed solver for concrete ablation under severe conditions. We analyzed the effect of various boundary conditions and examined their impact on concrete ablation. We observed significant low concrete ablation, controlled temperature and velocity field, for water-cooled boundary conditions. Accordingly, the ablation of concrete decreased by 17% just by imposing water-cooled boundary conditions.

AB - In the event of a severe nuclear accident resulting in a core meltdown, the molten corium which is a mixture of the molten fuel, cladding, and structural elements, originating in the reactor core could penetrate through the reactor pressure vessel to interact with concrete structure underneath. This research paper presents the numerical modeling of molten corium concrete interaction (MCCI). The complex phenomena of molten corium concrete interaction and melting of concrete are simplified by considering multi-region with the change in phases taking place only within each predefined region with the assumption that corium is a homogenous mixture of molten nuclear fuel, cladding, thermo-hydraulic and structural element. This study presents the use of the OpenFoam a Computational Fluid Dynamics (CFD) simulator where a new solver is developed to model the molten corium concrete interaction, its melting, solidification, and concrete ablation for the first time. Two sets of experimental data are used to validate the developed solver and demonstrate the thermal modeling and heat transfer capabilities of the developed solver for concrete ablation under severe conditions. We analyzed the effect of various boundary conditions and examined their impact on concrete ablation. We observed significant low concrete ablation, controlled temperature and velocity field, for water-cooled boundary conditions. Accordingly, the ablation of concrete decreased by 17% just by imposing water-cooled boundary conditions.

KW - Computational Fluid Dynamics

KW - Concrete Ablation

KW - Concrete Composition

KW - Enthalpy-Porosity Model

KW - Molten Corium

KW - Water Injection

UR - http://www.scopus.com/inward/record.url?scp=85200758100&partnerID=8YFLogxK

U2 - 10.1007/978-3-031-64362-0_35

DO - 10.1007/978-3-031-64362-0_35

M3 - Conference contribution

AN - SCOPUS:85200758100

SN - 9783031643613

T3 - Lecture Notes in Mechanical Engineering

SP - 360

EP - 378

BT - Challenges and Recent Advancements in Nuclear Energy Systems - Proceedings of Saudi International Conference on Nuclear Power Engineering SCOPE

A2 - Shams, Afaque

A2 - Al-Athel, Khaled

A2 - Tiselj, Iztok

A2 - Pautz, Andreas

A2 - Kwiatkowski, Tomasz

PB - Springer Science and Business Media Deutschland GmbH

Y2 - 13 November 2023 through 15 November 2023

ER -

Khurshid I , Afgan I , Addad Y. A CFD Approach to Mimic the Molten Corium-Concrete Interaction Phenomena: Effects of the Thermal Boundary Conditions. In Shams A, Al-Athel K, Tiselj I, Pautz A, Kwiatkowski T, editors, Challenges and Recent Advancements in Nuclear Energy Systems - Proceedings of Saudi International Conference on Nuclear Power Engineering SCOPE. Springer Science and Business Media Deutschland GmbH. 2024. p. 360-378. (Lecture Notes in Mechanical Engineering). doi: 10.1007/978-3-031-64362-0_35

A CFD Approach to Mimic the Molten Corium-Concrete Interaction Phenomena: Effects of the Thermal Boundary Conditions

Abstract

Publication series

Conference

Keywords

Access to Document

Other files and links

Fingerprint

Cite this