Numerical simulation of the fluid-solid mixture flow based on the MPS method

Kailun Guo; Ronghua Chen; Yonglin Li; Suizheng Qiu; G. H. Su

Numerical simulation of the fluid-solid mixture flow based on the MPS method

Kailun Guo
, Ronghua Chen
, Yonglin Li
, Suizheng Qiu
, G. H. Su

School of Energy and Power Engineering

Xi'an Jiaotong University

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

Abstract

The fluid-solid mixture flow is the key phenomenon in the reactor core when severe accident happens, there are both fluid phase and solid phase in the migration of the molten corium. In this study, the discrete element method (DEM) is applied to model the interaction between solid bodies, the MPS method is adopted to simulate the fluid flows, and these two methods are coupled by the model of the solid and fluid phase interaction. The passively moving solid (PMS) model is adopted to modify the movement of moving particles so that several particles can form one solid body. The time step in the DEM model is different from that in the MPS method, thus a multiple time-step using inner iteration is carried out to solve this problem. The FOCUS (Fluid flow CoUpling with Solid's movement) code is developed by the models and methods above using C++ language. The simulations and experiments about collapse of solid cylinder layers and he breaking of a water dam involving solid cylinder layers in two-dimension are carried out to validate FOCUS, and a simple three-dimensional case is also tested before the future work about severe accidents in reactor cores. The comparisons between calculation results and experimental data are in good agreements with the average relative error less than 4%, meaning the FOCUS is capable of simulating the fluid-solid mixture flow. It provides the foundation for the further work on simulations of the severe accidents in nuclear reactor cores.

Original language	English
Title of host publication	Proceedings of the 2nd Thermal and Fluid Engineering Summer Conference, TFESC 2017 and 4th International Workshop on Heat Transfer, IWHT 2017
Publisher	Begell House Inc.
Pages	297-311
Number of pages	15
ISBN (Electronic)	9781567004700
State	Published - 2017
Event	2nd Thermal and Fluid Engineering Summer Conference, TFESC 2017 and 4th International Workshop on Heat Transfer, IWHT 2017 - Las Vegas, United States Duration: 2 Apr 2017 → 5 Apr 2017

Publication series

Name	Proceedings of the Thermal and Fluids Engineering Summer Conference
Volume	2017-April
ISSN (Electronic)	2379-1748

Conference

Conference	2nd Thermal and Fluid Engineering Summer Conference, TFESC 2017 and 4th International Workshop on Heat Transfer, IWHT 2017
Country/Territory	United States
City	Las Vegas
Period	2/04/17 → 5/04/17

Keywords

DEM model
FOCUS code
Fluid-solid mixture flow
MPS method
Severe accident
Validations

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

Guo, K., Chen, R., Li, Y., Qiu, S., & Su, G. H. (2017). Numerical simulation of the fluid-solid mixture flow based on the MPS method. In Proceedings of the 2nd Thermal and Fluid Engineering Summer Conference, TFESC 2017 and 4th International Workshop on Heat Transfer, IWHT 2017 (pp. 297-311). (Proceedings of the Thermal and Fluids Engineering Summer Conference; Vol. 2017-April). Begell House Inc..

Guo, Kailun ; Chen, Ronghua ; Li, Yonglin et al. / Numerical simulation of the fluid-solid mixture flow based on the MPS method. Proceedings of the 2nd Thermal and Fluid Engineering Summer Conference, TFESC 2017 and 4th International Workshop on Heat Transfer, IWHT 2017. Begell House Inc., 2017. pp. 297-311 (Proceedings of the Thermal and Fluids Engineering Summer Conference).

@inproceedings{b7a13078cdc6408189e7d5b262123ad3,

title = "Numerical simulation of the fluid-solid mixture flow based on the MPS method",

abstract = "The fluid-solid mixture flow is the key phenomenon in the reactor core when severe accident happens, there are both fluid phase and solid phase in the migration of the molten corium. In this study, the discrete element method (DEM) is applied to model the interaction between solid bodies, the MPS method is adopted to simulate the fluid flows, and these two methods are coupled by the model of the solid and fluid phase interaction. The passively moving solid (PMS) model is adopted to modify the movement of moving particles so that several particles can form one solid body. The time step in the DEM model is different from that in the MPS method, thus a multiple time-step using inner iteration is carried out to solve this problem. The FOCUS (Fluid flow CoUpling with Solid's movement) code is developed by the models and methods above using C++ language. The simulations and experiments about collapse of solid cylinder layers and he breaking of a water dam involving solid cylinder layers in two-dimension are carried out to validate FOCUS, and a simple three-dimensional case is also tested before the future work about severe accidents in reactor cores. The comparisons between calculation results and experimental data are in good agreements with the average relative error less than 4\%, meaning the FOCUS is capable of simulating the fluid-solid mixture flow. It provides the foundation for the further work on simulations of the severe accidents in nuclear reactor cores.",

keywords = "DEM model, FOCUS code, Fluid-solid mixture flow, MPS method, Severe accident, Validations",

author = "Kailun Guo and Ronghua Chen and Yonglin Li and Suizheng Qiu and Su, \{G. H.\}",

note = "Publisher Copyright: {\textcopyright} 2017 Begell House Inc.. All rights reserved.; 2nd Thermal and Fluid Engineering Summer Conference, TFESC 2017 and 4th International Workshop on Heat Transfer, IWHT 2017 ; Conference date: 02-04-2017 Through 05-04-2017",

year = "2017",

language = "英语",

series = "Proceedings of the Thermal and Fluids Engineering Summer Conference",

publisher = "Begell House Inc.",

pages = "297--311",

booktitle = "Proceedings of the 2nd Thermal and Fluid Engineering Summer Conference, TFESC 2017 and 4th International Workshop on Heat Transfer, IWHT 2017",

}

Guo, K, Chen, R, Li, Y, Qiu, S & Su, GH 2017, Numerical simulation of the fluid-solid mixture flow based on the MPS method. in Proceedings of the 2nd Thermal and Fluid Engineering Summer Conference, TFESC 2017 and 4th International Workshop on Heat Transfer, IWHT 2017. Proceedings of the Thermal and Fluids Engineering Summer Conference, vol. 2017-April, Begell House Inc., pp. 297-311, 2nd Thermal and Fluid Engineering Summer Conference, TFESC 2017 and 4th International Workshop on Heat Transfer, IWHT 2017, Las Vegas, United States, 2/04/17.

Numerical simulation of the fluid-solid mixture flow based on the MPS method. / Guo, Kailun; Chen, Ronghua; Li, Yonglin et al.
Proceedings of the 2nd Thermal and Fluid Engineering Summer Conference, TFESC 2017 and 4th International Workshop on Heat Transfer, IWHT 2017. Begell House Inc., 2017. p. 297-311 (Proceedings of the Thermal and Fluids Engineering Summer Conference; Vol. 2017-April).

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

TY - GEN

T1 - Numerical simulation of the fluid-solid mixture flow based on the MPS method

AU - Guo, Kailun

AU - Chen, Ronghua

AU - Li, Yonglin

AU - Qiu, Suizheng

AU - Su, G. H.

PY - 2017

Y1 - 2017

N2 - The fluid-solid mixture flow is the key phenomenon in the reactor core when severe accident happens, there are both fluid phase and solid phase in the migration of the molten corium. In this study, the discrete element method (DEM) is applied to model the interaction between solid bodies, the MPS method is adopted to simulate the fluid flows, and these two methods are coupled by the model of the solid and fluid phase interaction. The passively moving solid (PMS) model is adopted to modify the movement of moving particles so that several particles can form one solid body. The time step in the DEM model is different from that in the MPS method, thus a multiple time-step using inner iteration is carried out to solve this problem. The FOCUS (Fluid flow CoUpling with Solid's movement) code is developed by the models and methods above using C++ language. The simulations and experiments about collapse of solid cylinder layers and he breaking of a water dam involving solid cylinder layers in two-dimension are carried out to validate FOCUS, and a simple three-dimensional case is also tested before the future work about severe accidents in reactor cores. The comparisons between calculation results and experimental data are in good agreements with the average relative error less than 4%, meaning the FOCUS is capable of simulating the fluid-solid mixture flow. It provides the foundation for the further work on simulations of the severe accidents in nuclear reactor cores.

AB - The fluid-solid mixture flow is the key phenomenon in the reactor core when severe accident happens, there are both fluid phase and solid phase in the migration of the molten corium. In this study, the discrete element method (DEM) is applied to model the interaction between solid bodies, the MPS method is adopted to simulate the fluid flows, and these two methods are coupled by the model of the solid and fluid phase interaction. The passively moving solid (PMS) model is adopted to modify the movement of moving particles so that several particles can form one solid body. The time step in the DEM model is different from that in the MPS method, thus a multiple time-step using inner iteration is carried out to solve this problem. The FOCUS (Fluid flow CoUpling with Solid's movement) code is developed by the models and methods above using C++ language. The simulations and experiments about collapse of solid cylinder layers and he breaking of a water dam involving solid cylinder layers in two-dimension are carried out to validate FOCUS, and a simple three-dimensional case is also tested before the future work about severe accidents in reactor cores. The comparisons between calculation results and experimental data are in good agreements with the average relative error less than 4%, meaning the FOCUS is capable of simulating the fluid-solid mixture flow. It provides the foundation for the further work on simulations of the severe accidents in nuclear reactor cores.

KW - DEM model

KW - FOCUS code

KW - Fluid-solid mixture flow

KW - MPS method

KW - Severe accident

KW - Validations

UR - https://www.scopus.com/pages/publications/85181548461

M3 - 会议稿件

AN - SCOPUS:85181548461

T3 - Proceedings of the Thermal and Fluids Engineering Summer Conference

SP - 297

EP - 311

BT - Proceedings of the 2nd Thermal and Fluid Engineering Summer Conference, TFESC 2017 and 4th International Workshop on Heat Transfer, IWHT 2017

PB - Begell House Inc.

T2 - 2nd Thermal and Fluid Engineering Summer Conference, TFESC 2017 and 4th International Workshop on Heat Transfer, IWHT 2017

Y2 - 2 April 2017 through 5 April 2017

ER -

Numerical simulation of the fluid-solid mixture flow based on the MPS method

Abstract

Publication series

Conference

Keywords

UN SDGs

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