The function of main port breakwaters is to protect harbour basins from incoming waves and currents. In the event that a maritime terminal is placed on the inner side of a main breakwater, it is extremely important to limit waves overtopping the structure, because the overtopping flows may be very dangerous for the safety of the operations taking place in the terminal. Very often during storms if the overtopping discharges are severe, the terminal is temporarily closed, reducing its average annual workability accordingly. Wave overtopping is normally limited by using high parapet walls (crownwalls) which are not well considered from an environmental point of view due to their visual impact. A good solution to reduce wave overtopping limiting the increasing of the crownwalls height, is to use recurved parapet walls. The paper presents a new formula for recurved walls which can be used to estimate the overtopping flow rates reduction compared to normal vertical parapets. The formula has been obtained for vertical breakwaters by using numerical computations. The recurved parapet has the shape of a circumference sector, characterized by a radius and an opening angle. The numerical computations were performed applying OpenFOAM® which solves the 3D RANS equations for multiphase flows (air and water). The results show the high hydraulic efficiency of recurved walls in reducing overtopping rates compared to traditional vertical parapets.

Improvement in workability of terminals placed along the inner side of port vertical breakwaters by means of recurved parapet walls / DE GIROLAMO, P.; Castellino, M.; Romano, A.. - 187:(2019), pp. 23-30. (Intervento presentato al convegno 1st International Conference on Maritime Transport, MT2019 tenutosi a Roma, Italia) [10.2495/MT190031].

Improvement in workability of terminals placed along the inner side of port vertical breakwaters by means of recurved parapet walls

DE GIROLAMO P.
Primo
Writing – Original Draft Preparation
;
Castellino M.
Secondo
Supervision
;
2019

Abstract

The function of main port breakwaters is to protect harbour basins from incoming waves and currents. In the event that a maritime terminal is placed on the inner side of a main breakwater, it is extremely important to limit waves overtopping the structure, because the overtopping flows may be very dangerous for the safety of the operations taking place in the terminal. Very often during storms if the overtopping discharges are severe, the terminal is temporarily closed, reducing its average annual workability accordingly. Wave overtopping is normally limited by using high parapet walls (crownwalls) which are not well considered from an environmental point of view due to their visual impact. A good solution to reduce wave overtopping limiting the increasing of the crownwalls height, is to use recurved parapet walls. The paper presents a new formula for recurved walls which can be used to estimate the overtopping flow rates reduction compared to normal vertical parapets. The formula has been obtained for vertical breakwaters by using numerical computations. The recurved parapet has the shape of a circumference sector, characterized by a radius and an opening angle. The numerical computations were performed applying OpenFOAM® which solves the 3D RANS equations for multiphase flows (air and water). The results show the high hydraulic efficiency of recurved walls in reducing overtopping rates compared to traditional vertical parapets.
2019
1st International Conference on Maritime Transport, MT2019
recurved parapet walls; terminals workability; vertical breakwaters; wave overtopping
04 Pubblicazione in atti di convegno::04b Atto di convegno in volume
Improvement in workability of terminals placed along the inner side of port vertical breakwaters by means of recurved parapet walls / DE GIROLAMO, P.; Castellino, M.; Romano, A.. - 187:(2019), pp. 23-30. (Intervento presentato al convegno 1st International Conference on Maritime Transport, MT2019 tenutosi a Roma, Italia) [10.2495/MT190031].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1432205
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