Evidence of a significant wind‐driven circulation in Akaroa Harbour. Part 2: Results from the application of a width averaged hydrodynamic numerical model (CE‐QUAL‐W2)

Abstract

Results from the application of the two‐dimensional, laterally‐averaged hydrodynamic model, CE‐QUAL‐W2 to Akaroa Harbour, New Zealand were compared with 3 months of temperature and current data to investigate the connection between significant wind‐driven circulation and vertical mixing. Results indicate that in general, CE‐QUAL‐W2 reproduced realistic values for width‐averaged along‐Harbour current speeds and water column temperature structure. However, during periods of strong winds, the mixed layer depth was predicted to be shallower than observed; c. one‐third as compared to c. one‐half. Simulations of tidally‐driven flow highlighted the restrictions of the two‐dimensionality imposed by the model, though this type of flow was not found to result in appreciable mixing of the water column. Data from an independent field survey supported the validity of the use of CE‐QUAL‐W2 under (at least) light‐to‐moderate sea‐breeze conditions.

Key words:

• Akaroa
• Harbour
• Banks Peninsula
• CE‐QUAL‐W2
• hydrodynamics
• numerical modelling
• vertical mixing