Numerical simulation of three-dimensional supercritical water flows in hydrothermal synthesis reactors with Arbitrary geometry

Takashi Furusawa; Shibo Qi; Satoru Yamamoto

doi:10.1115/AJKFluids2015-03096

Numerical simulation of three-dimensional supercritical water flows in hydrothermal synthesis reactors with Arbitrary geometry

Takashi Furusawa, Shibo Qi, Satoru Yamamoto

INF - Computer and Mathematical Sciences

Research output: Contribution to conference › Paper › peer-review

1 Citation (Scopus)

Abstract

Numerical simulations of mixing flows of supercritical (SC) water and water liquid in a 3-D T-shaped circular pipe and a 3-D cross pipe are conducted using the numerical method developed by our group. The 3-D geometry is generated by Building-Cube Method (BCM) with the stepwise wall treatment. Numerical results of mixing flows in the two pipes are compared and the effect of the inlet temperature is evaluated. In the T-shaped circular reactor, the mixing is periodic and a vortex is observed at the mixing point. The mixing form certainly depends on the SC water temperature. In the counter flow reactor, the SC water flow becomes unsteady and is mixed with water liquid asymmetrically due to the rapid change of thermophysical properties and the buoyancy effect.

Original language	English
DOIs	https://doi.org/10.1115/AJKFluids2015-03096
Publication status	Published - 2015 Jan 1
Event	ASME/JSME/KSME 2015 Joint Fluids Engineering Conference, AJKFluids 2015 - Seoul, Korea, Republic of Duration: 2015 Jul 26 → 2015 Jul 31

Other

Other	ASME/JSME/KSME 2015 Joint Fluids Engineering Conference, AJKFluids 2015
Country/Territory	Korea, Republic of
City	Seoul
Period	15/7/26 → 15/7/31

ASJC Scopus subject areas

Fluid Flow and Transfer Processes

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10.1115/AJKFluids2015-03096

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Numerical simulation of three-dimensional supercritical water flows in hydrothermal synthesis reactors with Arbitrary geometry. / Furusawa, Takashi; Qi, Shibo; Yamamoto, Satoru.
2015. Paper presented at ASME/JSME/KSME 2015 Joint Fluids Engineering Conference, AJKFluids 2015, Seoul, Korea, Republic of.

Research output: Contribution to conference › Paper › peer-review

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abstract = "Numerical simulations of mixing flows of supercritical (SC) water and water liquid in a 3-D T-shaped circular pipe and a 3-D cross pipe are conducted using the numerical method developed by our group. The 3-D geometry is generated by Building-Cube Method (BCM) with the stepwise wall treatment. Numerical results of mixing flows in the two pipes are compared and the effect of the inlet temperature is evaluated. In the T-shaped circular reactor, the mixing is periodic and a vortex is observed at the mixing point. The mixing form certainly depends on the SC water temperature. In the counter flow reactor, the SC water flow becomes unsteady and is mixed with water liquid asymmetrically due to the rapid change of thermophysical properties and the buoyancy effect.",

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doi = "10.1115/AJKFluids2015-03096",

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N2 - Numerical simulations of mixing flows of supercritical (SC) water and water liquid in a 3-D T-shaped circular pipe and a 3-D cross pipe are conducted using the numerical method developed by our group. The 3-D geometry is generated by Building-Cube Method (BCM) with the stepwise wall treatment. Numerical results of mixing flows in the two pipes are compared and the effect of the inlet temperature is evaluated. In the T-shaped circular reactor, the mixing is periodic and a vortex is observed at the mixing point. The mixing form certainly depends on the SC water temperature. In the counter flow reactor, the SC water flow becomes unsteady and is mixed with water liquid asymmetrically due to the rapid change of thermophysical properties and the buoyancy effect.

AB - Numerical simulations of mixing flows of supercritical (SC) water and water liquid in a 3-D T-shaped circular pipe and a 3-D cross pipe are conducted using the numerical method developed by our group. The 3-D geometry is generated by Building-Cube Method (BCM) with the stepwise wall treatment. Numerical results of mixing flows in the two pipes are compared and the effect of the inlet temperature is evaluated. In the T-shaped circular reactor, the mixing is periodic and a vortex is observed at the mixing point. The mixing form certainly depends on the SC water temperature. In the counter flow reactor, the SC water flow becomes unsteady and is mixed with water liquid asymmetrically due to the rapid change of thermophysical properties and the buoyancy effect.

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Numerical simulation of three-dimensional supercritical water flows in hydrothermal synthesis reactors with Arbitrary geometry

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