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Closure to 'Air water flows'.

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Bibliographic Details
Title:	Closure to 'Air water flows'.
Authors:	Valero, Daniel¹ (AUTHOR) d.valero@imperial.ac.uk, Felder, Stefan² (AUTHOR), Kramer, Matthias³ (AUTHOR), Wang, Hang⁴ (AUTHOR), Carrillo, José M.⁵ (AUTHOR), Pfister, Michael⁶ (AUTHOR), Bung, Daniel B.⁷ (AUTHOR)
Source:	Journal of Hydraulic Research / Journal de Recherches Hydraulique. Jun2025, Vol. 63 Issue 3, p415-415. 1p.
Subject Terms:	Unsteady flow, Air flow, Conflict of interests, Disclosure, *Prototypes
Abstract:	The article focuses on the advancements in numerical modeling techniques for air-water flows, emphasizing their relevance and applicability. It discusses the importance of prototype measurements for validating new numerical models and highlights the complexities associated with unsteady air-water flows. The authors acknowledge the contributions of various discussers who provided insights into these topics, offering a comprehensive review for readers interested in the field. The article aims to enhance understanding of the state-of-the-art in air-water flow modeling. [Extracted from the article]
Database:	Energy & Power Source

Description
Abstract:	The article focuses on the advancements in numerical modeling techniques for air-water flows, emphasizing their relevance and applicability. It discusses the importance of prototype measurements for validating new numerical models and highlights the complexities associated with unsteady air-water flows. The authors acknowledge the contributions of various discussers who provided insights into these topics, offering a comprehensive review for readers interested in the field. The article aims to enhance understanding of the state-of-the-art in air-water flow modeling. [Extracted from the article]
ISSN:	00221686
DOI:	10.1080/00221686.2025.2490965