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Experimental study on local interfacial parameters in upward air-water bubbly flow in a vertical 6$$times$$6 rod bundle

Han, X.*; Shen, X.*; 山本 俊弘*; 中島 健*; 孫 昊旻; 日引 俊*

International Journal of Heat and Mass Transfer, 144, p.118696_1 - 118696_19, 2019/12

 被引用回数:0 パーセンタイル:100(Thermodynamics)

This paper presents a database of local flow parameters for upward adiabatic air-water two-phase flows in a vertical 6$$times$$6 rod bundle flow channel. The local void fraction, interfacial area concentration (IAC), bubble diameter and bubble velocity vector were measured by using a four-sensor optical probe. Based on an existing state-of-the-art four-sensor probe methodology with the characteristic to count small bubbles, IAC in this study was derived more reliably than those in the existing studies. In addition, bubble velocity vector could be measured by the methodology. Based on this database, flow characteristics were investigated. The area-averaged void fraction and IAC were compared with the predictions from the drift-flux model and the IAC correlations, respectively. The applicability of those to the rod bundle flow channel was evaluated.


Development of numerical simulation method for small particles behavior in two-phase flow by combining interface and Lagrangian particle tracking methods

吉田 啓之; 上澤 伸一郎; 堀口 直樹; 宮原 直哉; 小瀬 裕男*

Proceedings of 11th Korea-Japan Symposium on Nuclear Thermal Hydraulics and Safety (NTHAS-11) (Internet), 6 Pages, 2018/11

The radioactive aerosol removal equipment is used as one of the safety systems of nuclear reactors. In this equipment, micro particles of aerosol remove through gas-liquid interfaces of two-phase flow. The mechanism related to the removal of micro particles through the gas-liquid interface is not clear, a numerical evaluation method of performance of aerosol removal equipment is not realized. Then, we have started to construct a numerical simulation method to simulate removal of micro particles through gas-liquid interfaces. In this simulation method, detailed two-phase flow simulation code TPFIT is used as the basis of this method. TPFIT adopts an advanced interface tracking method and can simulate interface movement and deformation directly. In addition, to simulate the movement of particles, the Lagrangian particle tracking method is incorporated. By combining the interface tracking method and the Lagrangian particle tracking method, the interaction between interfaces and micro particles can be simulated in detail. To solve the Lagrangian equations of particles, fluid properties and fluid velocity surrounding aerosol particles are evaluated by considering the relative position of particles and gas-liquid interface, to simulate particle movement near the interface. In this paper, outline and preliminary results of this simulation method are shown.


Local gas-liquid two-phase flow characteristics in rod bundle geometry

Xiao, Y.*; Shen, X.*; 三輪 修一郎*; 孫 昊旻; 日引 俊*

混相流シンポジウム2018講演論文集(インターネット), 2 Pages, 2018/08



Online coupling of two-phase flow solvent extraction microfluidics with inductively coupled plasma mass spectrometry

Do, V. K.; 山本 昌彦; 田口 茂郎; 久野 剛彦; 駿河谷 直樹

Current Analytical Chemistry, 14(2), p.111 - 119, 2018/00

 被引用回数:2 パーセンタイル:78.24(Chemistry, Analytical)



Axial flow characteristics of bubbly flow in a vertical large-diameter square duct

Shen, X.*; 孫 昊旻; Deng, B.*; 日引 俊*; 中村 秀夫

Proceedings of 17th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-17) (USB Flash Drive), 14 Pages, 2017/09



Multi-dimensional gas-liquid two-phase flow in vertical large-diameter channels

Shen, X.*; Schlegel, J. P.*; 日引 俊*; 中村 秀夫

Proceedings of 2017 Japan-US Seminar on Two-Phase Flow Dynamics (JUS 2017), 6 Pages, 2017/06

Large-diameter (D) channels are extensively used to increase the mass, momentum and heat transport capability of working fluid. Comparing with small-D pipes, two-phase flows in large-D channels show quite different and more complicated flow characteristics, since much larger cap bubbles can exist and interfacial instability prevents the cap bubbles from forming a large stable Taylor bubble. Flow regimes and radial void fraction profiles are also different from those in small-D pipes especially in cap/slug flow regime. The relative velocities between phases are greatly increased. This paper reviews recent progresses in the researches on two-phase flows in large-D channels. The state-of-the-art tool of four-sensor probe may enable classification of two-group bubbles by the measurement of bubble diameter instead of bubble chord length. Databases and most of the updated constitutive equations that cover flow regime transition criteria, drift-flux correlations, interfacial area concentration (IAC) correlations and one- and two-group interfacial area transport equation(s) are summarized and analyzed. Typical multi-dimensional characteristics of flows in large-D channels are presented and their one-dimensional numerical simulations are reviewed. Finally the future research directions are suggested.


Measurement of void fraction distribution in steam-water two-phase flow in a 4$$times$$4 bundle at 2 MPa

Liu, W.; 永武 拓; 柴田 光彦; 高瀬 和之; 吉田 啓之

Transactions of the American Nuclear Society, 114, p.875 - 878, 2016/06

原子力機構では、事故時炉心露出過程を明らかにするための炉内二相水位に深く関連する高温高圧低流量条件におけるボイド率特性の解明及び事故時炉心内二相流解析の予測精度の向上に関する研究を実施している。本報では、高温高圧低流量条件におけるバンドル内ボイド率分布データ及びコード検証するための気泡に関する詳細情報を取得することを目的として、ワイヤーメッシュセンサーを用い、高温高圧条件下でのバンドル内ボイド率データの取得を行っている。試験装置は、9$$times$$9三層式ワイヤーメッシュセンサーを4$$times$$4の模擬バンドル内に、軸方向2カ所に配置したものである。本報では、蒸気-水二相流に対して、1.6MPa(202$$^{circ}$$C), 2.1MPa(215$$^{circ}$$C)及び2.6MPa(226$$^{circ}$$C)条件で実施した試験により得た、炉心スクラム後を想定した低流量条件でのバンドル内ボイド率分布計測結果について報告する。


Gas-liquid bubbly flow structure in a vertical large-diameter square duct

Shen, X.*; 孫 昊旻; Deng, B.*; 日引 俊*; 中村 秀夫

Progress in Nuclear Energy, 89, p.140 - 158, 2016/05

 被引用回数:8 パーセンタイル:20.43(Nuclear Science & Technology)



Numerical simulation of two-phase flow behavior in venturi scrubber by interface tracking method

吉田 啓之; 堀口 直樹; 阿部 豊*

Proceedings of 2015 US-Japan Seminar on Two-Phase Flow Dynamics, 10 Pages, 2015/05

From the viewpoint of protecting a containment and suppressing the diffusion of radioactive materials in accident of nuclear power plants, it is important to develop the device which allows a filtered venting of contaminated high pressure gas. In the filtered venting system that used in European reactors, so called Multi Venturi Scrubbers System is used to realize filtered venting without any power supply. This system is able to define to be composed of Venturi Scrubbers (VS) and a bubble column. In the VS, scrubbing of contaminated gas is promoted by both gas releases through the submerged VS and gas-liquid contact with splay flow. However, the scrubbing mechanism of the VS is understood insufficiently. Therefore, we started numerical and experimental study to understand the two-phase flow behavior in the VS. In this paper, we performed numerical simulations of two-phase flow behavior in the VS by the TPFIT. In the first step, we perform numerical simulations of supersonic flow by the TPFIT to validate the applicability of the TPFIT for high velocity flow in the VS. In the second step, numerical simulation of two-phase flow behavior in the VS including self-priming phenomena. As the results, dispersed flow in the VS was reproduced in the numerical simulation, as same as the visualization experiments.


Numerical simulation of self-priming phenomena in venturi scrubber by two-phase flow simulation code TPFIT

堀口 直樹; 吉田 啓之; 金川 哲也*; 金子 暁子*; 阿部 豊*

Proceedings of 23rd International Conference on Nuclear Engineering (ICONE-23) (DVD-ROM), 6 Pages, 2015/05



Development of prediction technology of two-phase flow dynamics under earthquake acceleration, 16; Experimental and numerical study of pressure fluctuation effects on bubble motion

加藤 由幹; 吉田 啓之; 横山 諒太郎*; 金川 哲也*; 金子 暁子*; 文字 秀明*; 阿部 豊*

Proceedings of 23rd International Conference on Nuclear Engineering (ICONE-23) (DVD-ROM), 8 Pages, 2015/05

In this study, visualization experiment for the bubbly flow in a horizontal pipe excited by oscillation acceleration was performed to understand bubbly flow behavior under earthquake acceleration. Liquid pressure was also measured at upstream and downstream of the test section. In addition, to consider detailed effects of pressure gradient on bubble motion, numerical simulation of two-phase flow in horizontal pipe with vibration was performed by a detailed two-phase flow simulation code with an advanced interface tracking method: TPFIT. Based on observed images and calculated results, bubble velocity was evaluated. It was confirmed that the pressure gradient amplitude increased with the increase of the frequency of the table. In addition, it was observed that the bubble velocity amplitude also increases with the increase of the frequency of the table. It was concluded that the bubble motion was strongly affected by the pressure gradient in the test section.


Development of evaluation method of liquid flow rate by self-priming phenomena in venturi scrubber

堀口 直樹; 吉田 啓之; 金川 哲也*; 金子 暁子*; 阿部 豊*

Proceedings of 9th Korea-Japan Symposium on Nuclear Thermal Hydraulics and Safety (NTHAS-9) (CD-ROM), 5 Pages, 2014/11

A Multi Venturi Scrubber System (MVSS) is one of the filtered venting devices, and used for existing reactors in Europe. One of the main components of the MVSS is a self-priming Venturi Scrubber (VS). It is considered that a dispersed or dispersed annular flow is formed in the VS by a self-priming phenomena. In the self-priming phenomena, the liquid was suctioned from a surrounding region to the inside of the VS. And a part of the radioactive materials in the gas are eliminated to the liquid through the gas-liquid interface of the dispersed or annular dispersed flow. Therefore, to consider the MVSS operation characteristics, it is important to evaluate the liquid flow rate of the self-priming of the VS including the occurrence condition of the self-priming. In this paper, to understand the self-priming phenomena of the VS for the filtered venting, theoretical preliminary analysis for evaluating liquid flow rate of the self-priming of the VS and experiment to observe self-priming phenomena and measure the liquid flow rare of the self-priming were performed. By comparing these results, we discussed about the mechanism of the self-priming phenomena. As a result, the self-priming phenomena in the VS was observed. In addition, at a higher gas mass flux, the suspension of the self-priming phenomena was confirmed both experimentally and theoretically.


Development of prediction technology of two-phase flow dynamics under earthquake acceleration

吉田 啓之; 永武 拓; 高瀬 和之; 金子 暁子*; 文字 秀明*; 阿部 豊*

Mechanical Engineering Journal (Internet), 1(4), p.TEP0025_1 - TEP0025_11, 2014/08

In this study, to develop the predictive technology of two-phase flow dynamics under earthquake acceleration, a detailed two-phase flow simulation code with an advanced interface tracking method TPFIT was expanded. In addition, the bubbly flow in a horizontal pipe excited by oscillation acceleration and under the fluctuation of the liquid flow was simulated by using the modified TPFIT. In the results, it was confirmed that the modified TPFIT can predict time dependent velocity distribution around the bubbles and shapes of bubbles qualitatively. The main cause of bubble deformation observed is large shear stress at the lower part of the bubble, and this large shear stress is induced by the velocity difference between the liquid phase and bubble. Moreover, we discussed about the difference between both effects of flow rate fluctuation and structure vibration on two-phase flow. In the results, bubble acceleration of the structure vibration case was larger than that of the flow rate fluctuation case. Finally, it was concluded that unsteady shear stress induced by vibration of the pipe wall was one of the main driving forces of bubble motion in structure vibration case.


Current status of thermal/hydraulic feasibility project for reduced-moderation water reactor, 2; Development of two-phase flow simulation code with advanced interface tracking method

吉田 啓之; 玉井 秀定; 大貫 晃; 高瀬 和之; 秋本 肇

Nuclear Engineering and Technology, 38(2), p.119 - 128, 2006/04



Large-scale direct simulation of two-phase flow structure around a spacer in a tight-lattice nuclear fuel bundle

高瀬 和之; 吉田 啓之; 小瀬 裕男*; 秋本 肇

Computational Fluid Dynamics 2004, p.649 - 654, 2006/00



A Large-scale numerical simulation of bubbly and liquid film flows in narrow fuel channels

高瀬 和之; 吉田 啓之; 小瀬 裕男*; 秋本 肇

Proceedings of 2005 ASME International Mechanical Engineering Congress and Exposition (CD-ROM), 8 Pages, 2005/11




高瀬 和之; 吉田 啓之; 秋本 肇; 小瀬 裕男*; 青木 尊之*

日本機械学会2005年度年次大会講演論文集, Vol.7, p.17 - 18, 2005/09




海老原 健一

JAERI-Research 2005-004, 121 Pages, 2005/03




Numerical analysis of three-dimensional two-phase flow behavior in a fuel assembly

高瀬 和之; 吉田 啓之; 小瀬 裕男*; 秋本 肇

WIT Transactions on Engineering Sciences, Vol.50, p.183 - 192, 2005/00



Master plan and current status for feasibility study on thermal-hydraulic performance of reduced-moderation water reactors

大貫 晃; 高瀬 和之; 呉田 昌俊*; 吉田 啓之; 玉井 秀定; Liu, W.; 秋本 肇

Proceedings of Japan-US Seminar on Two-Phase Flow Dynamics, p.317 - 325, 2004/12


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