No. 37 (2022), Coastal Management, Environment, and Risk

BEHAVIOR OF VARIABLE DENSITY MUNITIONS UNDER DAM BREAK FORCING

Coastal Management, Environment, and Risk

Published 2023-09-01

Temitope Idowu
Manoj Gangadharan
Emily Chapman
Jack Puleo
Jacob Stolle
Damien Pham van Bang

Temitope Idowu

Manoj Gangadharan

Emily Chapman

Jack Puleo

Jacob Stolle

Damien Pham van Bang

ICCE 2022

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How to Cite

BEHAVIOR OF VARIABLE DENSITY MUNITIONS UNDER DAM BREAK FORCING. (2023). Coastal Engineering Proceedings, 37, management.123. https://doi.org/10.9753/icce.v37.management.123

Abstract

Munitions or Unexploded Ordnance (UXO) are ammunitions belonging to a larger family of explosives from past military activities. Sea disposal of munitions was a common practice from the late 1800s to 1970 when international conventions put an end to the practice. The exact quantity of munitions dumped into the Oceans globally is unknown due to sparse documentation but conservative estimates of known records stand at 1.6 million tons (Wilkinson, 2017). After decades underwater, some munitions have resurfaced in the nearshore, presumably washed onshore or exhumed by high-energy wave action. Extreme events could be major causes of migration and exposure of UXO in the nearshore. The quantification of variable density munitions behavior in the swash zone remains poorly understood. Biofouling, encrustation, and corrosion can alter the density of the underwater munitions, which consequently impacts the behavior of the munitions in the swash zone. Hence, this experimental study aimed to quantify the behavior of variable density munitions in the swash zone under dam-break scenarios. The findings of the study create more insights into the behavior of variable density munitions in the swash zone and can also serve as validation data for probabilistic models on munitions behavior in the swash zone under extreme events.

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References

Geib, (2018). Tracking Unexploded Munitions Long-buried ordnance lingers on U.S. coasts. Woods Hole Oceanographic Institution.

Rennie, (2017). Underwater Munitions Expert System to Predict Mobility and Burial (Issue (MR-2227)), SERDP Report, pp. 1 -38.

Wilkinson, (2017). Chemical Weapon Munitions Dumped at Sea: An Interactive Map. James Martin Center for Nonproliferation Studies, CA 93940 USA.

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Copyright (c) 2023 Temitope Idowu, Manoj Gangadharan, Emily Chapman, Jack Puleo, Jacob Stolle, Damien Pham van Bang

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