基于MOOSE框架的五方程两相流分析程序开发

Yuhang Niu; Wei Lu; Yanan He; Chaoqun Deng; Fengrui Xiang; Yingwei Wu; Guanghui Su; Suizheng Qiu; Wenxi Tian; Yang Yu; Tianyu Lu

doi:10.7538/yzk.2020.youxian.0607

基于MOOSE框架的五方程两相流分析程序开发

Translated title of the contribution: Application of High-order Analysis Code Solving Five-equation Two-phase Flow Problem Based on MOOSE

Yuhang Niu
, Wei Lu
, Yanan He
, Chaoqun Deng
, Fengrui Xiang
, Yingwei Wu
, Guanghui Su
, Suizheng Qiu
, Wenxi Tian
, Yang Yu
, Tianyu Lu

School of Energy and Power Engineering

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Based on the multi-physics coupling framework MOOSE, the modular analysis code ZEBRA was developed using the five-equation two-phase flow model. The high-order time and space discrete formats were implemented in two-phase flow and heat transfer problems. The vertical tube subcooled boiling experiment data carried out by Bartolomei were used to validate ZEBRA. The predicted results by ZEBRA were compared with experimental values in different wall heat flux, mass flux and pressure conditions. The results show that the predicted results of the five-equation model in ZEBRA are in well agreement with the experimental values. The prediction results of the onset of boiling and void fraction are reasonable, indicating that the two-phase flow problems can be preliminarily solved by ZEBRA.

Translated title of the contribution	Application of High-order Analysis Code Solving Five-equation Two-phase Flow Problem Based on MOOSE
Original language	Chinese (Traditional)
Pages (from-to)	1420-1428
Number of pages	9
Journal	Yuanzineng Kexue Jishu/Atomic Energy Science and Technology
Volume	55
Issue number	8
DOIs	https://doi.org/10.7538/yzk.2020.youxian.0607
State	Published - 20 Aug 2021

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title = "基于MOOSE框架的五方程两相流分析程序开发",

abstract = "Based on the multi-physics coupling framework MOOSE, the modular analysis code ZEBRA was developed using the five-equation two-phase flow model. The high-order time and space discrete formats were implemented in two-phase flow and heat transfer problems. The vertical tube subcooled boiling experiment data carried out by Bartolomei were used to validate ZEBRA. The predicted results by ZEBRA were compared with experimental values in different wall heat flux, mass flux and pressure conditions. The results show that the predicted results of the five-equation model in ZEBRA are in well agreement with the experimental values. The prediction results of the onset of boiling and void fraction are reasonable, indicating that the two-phase flow problems can be preliminarily solved by ZEBRA.",

keywords = "Five-equation two-phase flow, Flow and heat transfer, MOOSE",

author = "Yuhang Niu and Wei Lu and Yanan He and Chaoqun Deng and Fengrui Xiang and Yingwei Wu and Guanghui Su and Suizheng Qiu and Wenxi Tian and Yang Yu and Tianyu Lu",

year = "2021",

month = aug,

day = "20",

doi = "10.7538/yzk.2020.youxian.0607",

language = "繁体中文",

volume = "55",

pages = "1420--1428",

journal = "Yuanzineng Kexue Jishu/Atomic Energy Science and Technology",

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number = "8",

}

TY - JOUR

T1 - 基于MOOSE框架的五方程两相流分析程序开发

AU - Niu, Yuhang

AU - Lu, Wei

AU - He, Yanan

AU - Deng, Chaoqun

AU - Xiang, Fengrui

AU - Wu, Yingwei

AU - Su, Guanghui

AU - Qiu, Suizheng

AU - Tian, Wenxi

AU - Yu, Yang

AU - Lu, Tianyu

PY - 2021/8/20

Y1 - 2021/8/20

N2 - Based on the multi-physics coupling framework MOOSE, the modular analysis code ZEBRA was developed using the five-equation two-phase flow model. The high-order time and space discrete formats were implemented in two-phase flow and heat transfer problems. The vertical tube subcooled boiling experiment data carried out by Bartolomei were used to validate ZEBRA. The predicted results by ZEBRA were compared with experimental values in different wall heat flux, mass flux and pressure conditions. The results show that the predicted results of the five-equation model in ZEBRA are in well agreement with the experimental values. The prediction results of the onset of boiling and void fraction are reasonable, indicating that the two-phase flow problems can be preliminarily solved by ZEBRA.

AB - Based on the multi-physics coupling framework MOOSE, the modular analysis code ZEBRA was developed using the five-equation two-phase flow model. The high-order time and space discrete formats were implemented in two-phase flow and heat transfer problems. The vertical tube subcooled boiling experiment data carried out by Bartolomei were used to validate ZEBRA. The predicted results by ZEBRA were compared with experimental values in different wall heat flux, mass flux and pressure conditions. The results show that the predicted results of the five-equation model in ZEBRA are in well agreement with the experimental values. The prediction results of the onset of boiling and void fraction are reasonable, indicating that the two-phase flow problems can be preliminarily solved by ZEBRA.

KW - Five-equation two-phase flow

KW - Flow and heat transfer

KW - MOOSE

UR - https://www.scopus.com/pages/publications/85111737972

U2 - 10.7538/yzk.2020.youxian.0607

DO - 10.7538/yzk.2020.youxian.0607

M3 - 文章

AN - SCOPUS:85111737972

SN - 1000-6931

VL - 55

SP - 1420

EP - 1428

JO - Yuanzineng Kexue Jishu/Atomic Energy Science and Technology

JF - Yuanzineng Kexue Jishu/Atomic Energy Science and Technology

IS - 8

ER -

基于MOOSE框架的五方程两相流分析程序开发

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