Analysis of Flows around a BWR Spacer by the Two-Fluid Particle Interaction Method
スポンサーリンク
概要
- 論文の詳細を見る
The Moving Particle Semi-implicit (MPS) method, a particle interaction method developed in recent years, is formulated by representing the differential operators in Navier-Stokes equations as the interaction between particles characterized with a kernel function and adopts a mesh-free algorithm. The MPS method is particularly suitable for treating liquid breakup. We extended the MPS method to a two-fluid system, introduced a potential-type surface tension, and developed a kernel function for the interface between liquid and gas to simulate two-phase flows. This extended MPS method, which we call Two-Fluid MPS (TF-MPS) method, has been verified through a number of analyses of two-phase flow experiments. The objectives of this study are to verify the applicability of TF-MPS method to a flow around a BWR spacer and to make up constitutive correlations for macroscopic methods. In this paper, we describe the formulation and the calculation algorithm of TF-MPS method, and present the results of the verification studies.
- 社団法人 日本原子力学会の論文
- 2002-05-25
著者
-
SHIRAKAWA Noriyuki
Power & Industrial Systems R&D Center, Toshiba Corporation
-
YAMAMOTO Yuichi
Toshiba Advanced Systems Corporation
-
Shirakawa N
Power & Industrial Systems Reserch & Development Center Toshiba Corporation
-
Shirakawa Noriyuki
Toshiba Power & Industrial Systems R&d Center
-
Shirakawa Noriyuki
Institute Of Environmental Systems Faculty Of Engineering Kyushu University
-
Yamamoto Yuichi
Toshiba It-solutions Corporation
-
HORIE Hideki
Power & Industrial Systems Research & Development Center, Toshiba Corporation
-
TSUNOYAMA Shigeaki
University of Aizu, University-Business Innovation Center
-
TSUNOYAMA Shigeaki
AITEL Corporation
-
Horie H
Toshiba Power & Industrial Systems R&d Center
-
Tsunoyama Shigeaki
University Of Aizu University-business Innovation Center
関連論文
- Hydrogen Bond and Crystal Deformation of Cellulose in Sub/Super-critical Water
- The Effect of Bubble Size on the Radial Distribution of Void Fraction in Two-Phase Flow in a Circular Tube
- Analysis of the Void Distribution in a Circular Tube with the Two-Fluid Particle Interaction Method
- Simulation of the Rayleigh-Taylor Instability with the MPS Method
- Analysis of International Standard Problem No. 45, QUENCH06 Test as FZK by Detailed Severe Accidents Analysis Code, IMPACT/SAMPSON
- Analysis of Subcooled Boiling with the Two-Fluid Particle Interaction Method
- ICONE11-36423 Analysis of Fission Product Behaviors in the Phebus-FPT1 Test with IMPACT/SAMPSON Code
- ICONE11-36297 ANALYSIS OF THE THERMAL HYDRAULICS AND CORE DEGRADATION BEHAVIOR IN THE PHEBUS-FPT1 TEST TRAIN WITH IMPACT/SAMPSON CODE
- Analysis of Flows around a BWR Spacer by the Two-Fluid Particle Interaction Method
- Analysis of Jet Flows with the Two-Fluid Particle Interaction Method
- Development of Molten Core Relocation Analysis Module MCRA in the Severe Accident Analysis Code SAMPSON
- Development of Severe Accident Analysis Code SAMPSON in IMPACT Project
- Analysis of International Standard Problem No. 45, QUENCH06 Test as FZK by Detailed Severe Accidents Analysis Code, IMPACT/SAMPSON