SPH Based Approach toward the Simulation of Non-cohesive Sediment Removal by an Innovative Technique Using a Controlled Sequence of Underwater Micro-explosions-Reference-Cited by-同舟云学术

SPH Based Approach toward the Simulation of Non-cohesive Sediment Removal by an Innovative Technique Using a Controlled Sequence of Underwater Micro-explosions

Published:2015 Issue: Volume:18 Page:28-39
ISSN:2210-9838
Container-title:Procedia IUTAM
language:en
Short-container-title:Procedia IUTAM

Author:

Guandalini R.,Agate G.,Manenti S.,Sibilla S.,Gallati M.

Publisher

Elsevier BV

Subject

General Medicine

Reference15 articles.

1. SPH Modeling of solid boundaries through a semi-analytic approach;Di Monaco;J. of Eng. Appl. of Comp. Fluid Mech.,2011

2. S. Manenti, S. Sibilla, M. Gallati, G. Agate, R. Guandalini, “SPH Simulation of Gas Explosion Inside an Underwater non-Cohesive Sediment Deposit”. Proc. 6th Int. SPHERIC Workshop, TUHH University Hamburg, Germany, June 08-10 (2011) ISBN 978-3-89220-658-3.

3. S. Manenti, S. Sibilla, M. Gallati, G. Agate, R. Guandalini, “Experimental and Numerical Modeling of the Impulsive Dynamics of an Underwater non-Cohesive Sediment Deposit subjected to a Gaseous Jet” Proc. 7th Int. SPHERIC Workshop, Monash University Prato, Italy, May 29-31 (2012).

4. S. Manenti, S. Sibilla, M. Gallati, G. Agate, R. Guandalini. SPH Simulation of Sediment Flushing Induced by a Rapid Water Flow. Journal of Hydraulic Engineering. Vol. 138, No. 3, pp. 272-284 March (2012)) ISSN 0733-9429/2012/3-0-0 DOI:10.1061/(ASCE)HY. 1943-7900.0000516.

5. R. H. Cole. Underwater explosion. Princeton Univ. Press, New Jersey (1948).

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