Importance of air humidity and contaminations in the internal and external transonic flows

P. Wi&0015B;niewski; S. Dykas; S. Yamamoto

doi:10.3390/en13123153

Importance of air humidity and contaminations in the internal and external transonic flows

P. Wi&0015B;niewski, S. Dykas, S. Yamamoto

情報科学研究科・情報基礎科学専攻

研究成果: Article › 査読

13 被引用数 (Scopus)

抄録

The paper presents mathematical modelling of steam condensation in the atmospheric air transonic flows. A single-fluid model was employed. The model was validated against the in-house experimental studies of internal flow in nozzles and against benchmark tests available in literature i.e., RAE2822 transonic airfoil. The impact of air relative humidity on the condensation process under transonic flow conditions was examined. The paper shows that the impact of the condensation process in air transonic flow is non-negligible and has to be taken under consideration in flow simulations. The presence of air contaminants in form of small particles was considered too. Their crucial role in the change of the transonic flow structure was numerically confirmed.

本文言語	English
論文番号	3153
ジャーナル	Energies
巻	13
号	12
DOI	https://doi.org/10.3390/en13123153
出版ステータス	Published - 2020 6月

ASJC Scopus subject areas

再生可能エネルギー、持続可能性、環境
燃料技術
エネルギー工学および電力技術
エネルギー（その他）
制御と最適化
電子工学および電気工学

UN SDG

この成果は、次の持続可能な開発目標に貢献しています

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10.3390/en13123153

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引用スタイル

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title = "Importance of air humidity and contaminations in the internal and external transonic flows",

abstract = "The paper presents mathematical modelling of steam condensation in the atmospheric air transonic flows. A single-fluid model was employed. The model was validated against the in-house experimental studies of internal flow in nozzles and against benchmark tests available in literature i.e., RAE2822 transonic airfoil. The impact of air relative humidity on the condensation process under transonic flow conditions was examined. The paper shows that the impact of the condensation process in air transonic flow is non-negligible and has to be taken under consideration in flow simulations. The presence of air contaminants in form of small particles was considered too. Their crucial role in the change of the transonic flow structure was numerically confirmed.",

keywords = "Computational fluid dynamics, Condensation, Relative humidity, Transonic flow",

author = "P. Wi&0015B;niewski and S. Dykas and S. Yamamoto",

note = "Funding Information: Funding: This research was funded within the Statutory Research Funds of the Silesian University of Technology and co-financed by the European Union through the European Social Fund (grant POWR.03.05.00-00-Z305). Publisher Copyright: {\textcopyright} 2020 by the author.",

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AU - Wi&0015B;niewski, P.

AU - Dykas, S.

AU - Yamamoto, S.

N1 - Funding Information: Funding: This research was funded within the Statutory Research Funds of the Silesian University of Technology and co-financed by the European Union through the European Social Fund (grant POWR.03.05.00-00-Z305). Publisher Copyright: © 2020 by the author.

PY - 2020/6

Y1 - 2020/6

N2 - The paper presents mathematical modelling of steam condensation in the atmospheric air transonic flows. A single-fluid model was employed. The model was validated against the in-house experimental studies of internal flow in nozzles and against benchmark tests available in literature i.e., RAE2822 transonic airfoil. The impact of air relative humidity on the condensation process under transonic flow conditions was examined. The paper shows that the impact of the condensation process in air transonic flow is non-negligible and has to be taken under consideration in flow simulations. The presence of air contaminants in form of small particles was considered too. Their crucial role in the change of the transonic flow structure was numerically confirmed.

AB - The paper presents mathematical modelling of steam condensation in the atmospheric air transonic flows. A single-fluid model was employed. The model was validated against the in-house experimental studies of internal flow in nozzles and against benchmark tests available in literature i.e., RAE2822 transonic airfoil. The impact of air relative humidity on the condensation process under transonic flow conditions was examined. The paper shows that the impact of the condensation process in air transonic flow is non-negligible and has to be taken under consideration in flow simulations. The presence of air contaminants in form of small particles was considered too. Their crucial role in the change of the transonic flow structure was numerically confirmed.

KW - Computational fluid dynamics

KW - Condensation

KW - Relative humidity

KW - Transonic flow

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Importance of air humidity and contaminations in the internal and external transonic flows

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ASJC Scopus subject areas

UN SDG

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