Xiuzhong Shen

Scopus Publications

A full-flow-range drift-flux model for adiabatic and boiling two-phase flows in vertical narrow rectangular flow channels
Xiuzhong Shen, Toshihiro Yamamoto, Ken Nakajima, and Takashi Hibiki
Elsevier BV

Evaluation of existing correlations and development of a new correlation for single-phase friction factor in rod bundle assembly
Vikrant Siddharudh Chalgeri, Xiuzhong Shen, and Toshihiro Yamamoto
Elsevier BV

Experimental investigation on local flow structures of upward cap-bubbly flows in a vertical large-size square channel
Haomin Sun, Tomoaki Kunugi, Takehiko Yokomine, Xiuzhong Shen, and Takashi Hibiki
Elsevier BV

Multi-dimensional characteristics of upward bubbly flows in a vertical large-size square channel
Haomin Sun, Tomoaki Kunugi, Takehiko Yokomine, Xiuzhong Shen, and Takashi Hibiki
Elsevier BV

Interfacial area concentration in gas-liquid metal two-phase flow
Xiuzhong Shen, Toshihiro Yamamoto, Xu Han, and Takashi Hibiki
Springer Science and Business Media LLC

Dynamic mode decomposition application to dominance ratio assessment in Monte Carlo k-eigenvalue calculation
Toshihiro Yamamoto, Xiuzhong Shen, and Hiroki Sakamoto
Elsevier BV

Two-phase interfacial structure development in vertical narrow rectangular channels
Xiuzhong Shen and Takashi Hibiki
Elsevier BV

Channel size effect on drift-flux parameters for adiabatic and boiling two-phase flows
Takashi Hibiki, Peng Ju, Somboon Rassame, Shuichiro Miwa, Xiuzhong Shen, and Tetsuhiro Ozaki
Elsevier BV

Thermal-hydraulic characteristics of upward two-phase flows in vertical large size square channels
Takashi Hibiki, Kenichi Katono, and Xiuzhong Shen
Elsevier BV

Flow regime and void fraction predictions in vertical rod bundle flow channels
Xu Han, Xiuzhong Shen, Toshihiro Yamamoto, Ken Nakajima, Haomin Sun, and Takashi Hibiki
Elsevier BV

Advances in time-dependent Monte Carlo simulations for void velocity determination using neutron noise techniques
Toshihiro Yamamoto, Xiuzhong Shen, and Hiroki Sakamoto
Elsevier BV

Distribution parameter and drift velocity for upward gas-liquid metal two-phase flow
Xiuzhong Shen and Takashi Hibiki
Elsevier BV

Drift-flux correlation for upward gas-liquid two-phase flow in vertical rod bundle flow channel
Xu Han, Xiuzhong Shen, Toshihiro Yamamoto, Ken Nakajima, and Takashi Hibiki
Elsevier BV

Flow characteristics of upward two-phase flows in a rod bundle geometry

Experimental study on local interfacial parameters in upward air-water bubbly flow in a vertical 6 × 6 rod bundle
Xu Han, Xiuzhong Shen, Toshihiro Yamamoto, Ken Nakajima, Haomin Sun, and Takashi Hibiki
Elsevier BV

Local measurements of upward air-water two-phase flows in a vertical 6×6 rod bundle
Xiuzhong Shen, Shuichiro Miwa, Yigeng Xiao, Xu Han, and Takashi Hibiki
Springer Science and Business Media LLC

Corrigendum to ‘Interfacial area concentration in gas-liquid bubbly to churn flow regimes in large diameter pipes’ (Interfacial area concentration in gas–liquid bubbly to churn flow regimes in large diameter pipes (2015) 54 (107–118), (S0142727X1500048X) (10.1016/j.ijheatfluidflow.2015.05.002))
Xiuzhong Shen and Takashi Hibiki
Elsevier BV

Constitutive equations for vertical upward two-phase flow in rod bundle
Takashi Hibiki, Tetsuhiro Ozaki, Xiuzhong Shen, Shuichiro Miwa, Ikuo Kinoshita, Tatsuya Hazuku, and Somboon Rassame
Elsevier BV

Bubble coalescence and breakup model evaluation and development for two-phase bubbly flows
Xiuzhong Shen and Takashi Hibiki
Elsevier BV

Corrigendum to “Development of interfacial area concentration correlations for small and large bubbles in gas-liquid two-phase flows” [Int. J. Multiph. Flow 87 (2016) 136–155] (International Journal of Multiphase Flow (2016) 87 (136–155), (S030193221630043X) (10.1016/j.ijmultiphaseflow.2016.07.017))
Xiuzhong Shen and Baoqing Deng
Elsevier BV

Some characteristics of gas–liquid two-phase flow in vertical large-diameter channels
Xiuzhong Shen, Joshua P. Schlegel, Takashi Hibiki, and Hideo Nakamura
Elsevier BV

Experimental study on interfacial area transport of two-phase bubbly flow in a vertical large-diameter square duct
Xiuzhong Shen, Haomin Sun, Baoqing Deng, Takashi Hibiki, and Hideo Nakamura
Elsevier BV

Prediction of interfacial area transport in a coupled two-fluid model computation
Joshua P. Schlegel, Takashi Hibiki, Xiuzhong Shen, Santosh Appathurai, and Hariprasad Subramani
Informa UK Limited
ABSTRACT A computer code has been written to predict interfacial area transport within the framework of the two-fluid model. The suitability of various constitutive models was evaluated from a scientific and numerical standpoint, and selected models were used to close the two-fluid model. The resulting system was then used to optimize the empirical constants in the interfacial area transport equation for large diameter pipes. The optimized model was evaluated based on comparison with the data of Shen et al. and Schlegel et al. The optimization shows agreement with previous research conducted by Dave et al. and Talley et al. using TRACE-T, and reduced the RMS error in the interfacial area concentration prediction for the large diameter pipe data from 52.3% to 34.9%. The results also highlight a need for additional high-resolution data at multiple axial locations to provide a more detailed picture of the axial development of the flow. The results also indicate a need for improved modeling of the interfacial drag, especially for Taylor cap bubbles under relatively low void fraction conditions.

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

Development of interfacial area concentration correlations for small and large bubbles in gas-liquid two-phase flows
Xiuzhong Shen and Baoqing Deng
Elsevier BV

Xiuzhong Shen

RESEARCH INTERESTS

Scopus Publications