Protective water curtains as wave attenuators for blast-resistant tunnels

Mohammadi, Payam Keshavarz Mirza, Khalilpour, Seyed Hamed, Parsa, Hasan and Sareh, Pooya ORCID: 0000-0003-1836-2598 (2022) Protective water curtains as wave attenuators for blast-resistant tunnels. Scientific Reports, 12 (1). 20463-.

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Abstract

<jats:title>Abstract</jats:title><jats:p>Tunnels, as highly cost-demanding infrastructures which facilitate the transportation of people and goods, have been a target of terrorist attacks within the past few decades. The significance of the destructive impact of explosives on these structures has resulted in research on the development of blast-resistant design approaches. In this paper, water curtains are proposed as a blast-resistant system due to the established performance of water against explosives in free fields in previous studies as well as its capability to mitigate the potential incoming fire after an explosion. A parametric study was conducted for this purpose, considering the effects of curtain thickness, the distance of the curtain from the tunnel opening, and the amount of TNT charge. Accordingly, fifty-two finite element (FE) models were created in the FE package ABAQUS to investigate the performance of a water wall in a typical tunnel through the Eulerian approach to simulation. The water curtains had four different thicknesses and were located at three different distances from the reference point. TNT explosive charges were placed at the tunnel opening with four different masses. The thicker walls nearer to the tunnel opening were found to be more effective. However, the peak pressure reduction in all charges was in a desirable range of 53 to 80%. The parametric study also illustrated that the peak pressures were more sensitive to wall thickness rather than TNT charges mass and the wall distance from the explosives. We anticipate this preliminary study to be a starting point for the further development of the concept of water curtains for blast mitigation.</jats:p>

Item Type:	Article
Depositing User:	Symplectic Admin
Date Deposited:	02 Dec 2022 10:26
Last Modified:	18 Jan 2023 19:41
DOI:	10.1038/s41598-022-24943-7
Open Access URL:	https://doi.org/10.1038/s41598-022-24943-7
Related URLs:	Author Publisher
URI:	https://livrepository.liverpool.ac.uk/id/eprint/3166484