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Diego Panici
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Cited by
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Formation, growth, and failure of debris jams at bridge piers
D Panici, GAM de Almeida
Water Resources Research 54 (9), 6226-6241, 2018
642018
A practical method to assess risks from large wood debris accumulations at bridge piers
D Panici, P Kripakaran, S Djordjević, K Dentith
Science of the Total Environment 728, 138575, 2020
342020
Influence of pier geometry and debris characteristics on wood debris accumulations at bridge piers
D Panici, GAM de Almeida
Journal of Hydraulic Engineering 146 (6), 04020041, 2020
292020
Trapping large wood debris in rivers: Experimental study of novel debris retention system
D Panici, P Kripakaran
Journal of Hydraulic Engineering 147 (3), 04020101, 2021
162021
A method for evaluating local scour depth at bridge piers due to debris accumulation
M Ebrahimi, S Djordjević, D Panici, G Tabor, P Kripakaran
Proceedings of the Institution of Civil Engineers-Bridge Engineering 173 (2 …, 2020
162020
A theoretical analysis of the fluid–solid interactions governing the removal of woody debris jams from cylindrical bridge piers
D Panici, GAM de Almeida
Journal of Fluid Mechanics 886, A19, 2020
152020
A theoretical analysis of the fluid–solid interactions governing the removal of woody debris jams from cylindrical bridge piers
D Panici, GAM de Almeida
Journal of Fluid Mechanics 886, A19, 2020
152020
A comparison of the UK and Italian national risk-based guidelines for assessing hydraulic actions on bridges
M Pregnolato, PF Giordano, D Panici, LJ Prendergast, M Pina Limongelli
Structure and Infrastructure Engineering 20 (1), 117-130, 2024
92024
An experimental and numerical approach to modeling large wood displacement in rivers
D Panici
Water Resources Research 57 (7), e2021WR029860, 2021
82021
Understanding the formation of woody debris jams at bridge piers
D Panici, GAM de Almeida
IAHR, 2017
82017
Assessing and mitigating risks to bridges from large wood using satellite imagery
D Panici, P Kripakaran
Proceedings of the Institution of Civil Engineers-Bridge Engineering 176 (2 …, 2021
42021
Assessing debris-induced scour at piers in real-world practice: a case study
D PANICI, P KRIPAKARAN, K DENTITH
E-Proceedings of the 38th IAHR World Congress September 1–6, 2019, Panama …, 2019
22019
The importance of debris shape in experiments on woody debris accumulations at bridge piers
D PANICI, GA de Almeida
IAHR 38th World Congress, 2019
12019
Modelling the impact of beaver dams on hydrological extremes following the re-introduction of beavers in England
B Jackson, A Puttock, D Panici, R Brazier
EGU24, 2024
2024
CFD modelling to investigate hydrodynamic forces on bridges in case of submergence and material deposition
N Petruccelli, D Panici, A Domeneghetti, A Brath
EGU24, 2024
2024
Landslide-channel feedbacks amplify channel widening during floods
GL Bennett, D Panici, F Rengers, J Kean, S Rathburn
2024
Characterizing the Importance of Porosity of Large Woody Debris Accumulations at Single Bridge Piers on Localized Scour
D Panici, P Kripakaran
Water Resources Research 59 (9), e2022WR033531, 2023
2023
Using Smart Sensors to Track Woody Debris in Flume Experiments
A Sgarabotto, E Majtan, I Manzella, A Raby, G Fourtakas, BD Rogers, ...
Proceedings of the 40th IAHR World Congress, 2023
2023
Characterising the importance of porosity of large woody debris accumulations at single bridge piers on localised scour (dataset)
D Panici, P Kripakaran
University of Exeter, 2023
2023
Smart sensors to detect movements of cobbles and large woody debris dams. Insights from lab experiments.
A Sgarabotto, I Manzella, A Raby, K Roskilly, M Egedusevic, D Panici, ...
EGU General Assembly Conference Abstracts, EGU-16276, 2023
2023
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Articles 1–20