The character of ships' wakes and the consequent sediment resuspension induced by the passage of commercial vessels in Venice Lagoon, Italy was investigated during July, 2009. Suspended sediment concentration (SSC), water depth, and water velocity were measured on the shoals alongside the shipping channel after the passage of forty vessels. The ships' passage produced large waves of depression with troughs oriented at an average angle of 44° to the channel. High water velocities are recorded opposite the direction of wave propagation and may exceed 2 m s-1 at the rear edge of the trough. Ten vessel-induced wakes led to SSC concentrations above 400 mg L-1, ~30 times higher than the average background concentration. When large wakes passed over the shoals, maximum concentrations persisted for several minutes and elevated concentrations persisted for nearly an hour. The height of a ship's wake can be related to the product of the depth-based Froude number, Fr, and a blocking coefficient, S, according to Fr3.5S1.6. Because of the sensitivity of the height of the wake to the ship's speed, we suggest a method for calculation of a ship-by-ship velocity threshold below which shear stress does not exceed the critical erosive stress level for sediments.
Characteristics of ships' depression waves and associated sediment resuspension in Venice Lagoon, Italy
Luca Zaggia;
2011
Abstract
The character of ships' wakes and the consequent sediment resuspension induced by the passage of commercial vessels in Venice Lagoon, Italy was investigated during July, 2009. Suspended sediment concentration (SSC), water depth, and water velocity were measured on the shoals alongside the shipping channel after the passage of forty vessels. The ships' passage produced large waves of depression with troughs oriented at an average angle of 44° to the channel. High water velocities are recorded opposite the direction of wave propagation and may exceed 2 m s-1 at the rear edge of the trough. Ten vessel-induced wakes led to SSC concentrations above 400 mg L-1, ~30 times higher than the average background concentration. When large wakes passed over the shoals, maximum concentrations persisted for several minutes and elevated concentrations persisted for nearly an hour. The height of a ship's wake can be related to the product of the depth-based Froude number, Fr, and a blocking coefficient, S, according to Fr3.5S1.6. Because of the sensitivity of the height of the wake to the ship's speed, we suggest a method for calculation of a ship-by-ship velocity threshold below which shear stress does not exceed the critical erosive stress level for sediments.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.