Free fall water entry of a two-dimensional asymmetric wedge in oblique slamming: a numerical study
Free fall water entry of a two-dimensional asymmetric wedge in oblique slamming: a numerical study
This paper examines the hydrodynamic problem of a twodimensional symmetric and asymmetric wedge water entry through freefall motion. The gravity effect on the flow is considered and because of precise simulation close to the real phenomenon, the oblique slamming is analyzed. The defined problem is numerically studied using SIMPLE and HRIC schemes and by implementing an overset mesh approach. In order to evaluate the accuracy of the numerical model, the present results are compared and validated with previous experimental studies and showed good agreement. The results are presented and compared for each symmetry and asymmetry in different deadrise angles, drop heights and heel angles. Based on a comparison of the measured vertical acceleration of the experimental wedge data, it is determined that the proposed numerical method has relatively good accuracy in predicting the slamming phenomenon and wedge response. The influence of viscous regime on water entry simulations is investigated, in according to results, effect of viscosity is negligible. Results show that the heel angle dramatically affects the wedge dynamics, pile-up evolution, and pressure distribution. These results suggest evidence for a complex interaction between geometric parameters on the water entry of rigid wedges, which could finally develop our understanding of planing vessels operating in real sea conditions.
2D Asymmetric Wedge, Freefall Water Entry, Hydrodynamic Forces, Oblique Slamming
The American Society of Mechanical Engineers
Hosseinzadeh, Saeed
47ee65b8-f6a8-4c4f-b99c-146eb389464b
Izadi, Mohammad
d9e53fe8-291a-48b8-a273-93a0d0b62dfb
Tabri, Kristjan
356c5b68-8f06-4c67-8b75-14216758c1c8
2020
Hosseinzadeh, Saeed
47ee65b8-f6a8-4c4f-b99c-146eb389464b
Izadi, Mohammad
d9e53fe8-291a-48b8-a273-93a0d0b62dfb
Tabri, Kristjan
356c5b68-8f06-4c67-8b75-14216758c1c8
Hosseinzadeh, Saeed, Izadi, Mohammad and Tabri, Kristjan
(2020)
Free fall water entry of a two-dimensional asymmetric wedge in oblique slamming: a numerical study.
In CFD and FSI.
vol. 8,
The American Society of Mechanical Engineers..
Record type:
Conference or Workshop Item
(Paper)
Abstract
This paper examines the hydrodynamic problem of a twodimensional symmetric and asymmetric wedge water entry through freefall motion. The gravity effect on the flow is considered and because of precise simulation close to the real phenomenon, the oblique slamming is analyzed. The defined problem is numerically studied using SIMPLE and HRIC schemes and by implementing an overset mesh approach. In order to evaluate the accuracy of the numerical model, the present results are compared and validated with previous experimental studies and showed good agreement. The results are presented and compared for each symmetry and asymmetry in different deadrise angles, drop heights and heel angles. Based on a comparison of the measured vertical acceleration of the experimental wedge data, it is determined that the proposed numerical method has relatively good accuracy in predicting the slamming phenomenon and wedge response. The influence of viscous regime on water entry simulations is investigated, in according to results, effect of viscosity is negligible. Results show that the heel angle dramatically affects the wedge dynamics, pile-up evolution, and pressure distribution. These results suggest evidence for a complex interaction between geometric parameters on the water entry of rigid wedges, which could finally develop our understanding of planing vessels operating in real sea conditions.
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Published date: 2020
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Publisher Copyright:
Copyright © 2020 ASME.
Venue - Dates:
ASME 2020 39th International Conference on Ocean, Offshore and Arctic Engineering, OMAE 2020, , Virtual, Online, 2020-08-03 - 2020-08-07
Keywords:
2D Asymmetric Wedge, Freefall Water Entry, Hydrodynamic Forces, Oblique Slamming
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Local EPrints ID: 486129
URI: http://eprints.soton.ac.uk/id/eprint/486129
PURE UUID: b67e430c-376f-449c-8dc5-330c46710c1f
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Date deposited: 10 Jan 2024 17:39
Last modified: 11 Jan 2024 03:09
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Contributors
Author:
Saeed Hosseinzadeh
Author:
Mohammad Izadi
Author:
Kristjan Tabri
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