Return to search

Numerical Study of Three-dimensional Circulation and Hydrography in Halifax Harbour Using a Nested-grid Ocean Circulation Model

Halifax Harbour is
one of the world's largest natural harbours
and has significant environmental
and economic value.
A good understanding of oceanographic processes is
required for pollution control and sustainable development of the Harbour.
A five-level nested-grid coastal ocean circulation model
known as the Nested-grid Coastal Ocean Prediction System for Halifax Harbour (NCOPS-HFX)
is
used to reconstruct the three-dimensional circulation and hydrography and associated temporal and
spatial variability of the Harbour. The NCOPS-HFX is driven by tides,
meteorological forcing, and buoyancy forcing associated with river and sewage
discharges.
Model performances are assessed by comparing model results with available observations including
sea level from tide gauges, CTD observations, current meter records and monthly mean climatology of temperature and salinity.
Model results are also used to examine the main physical processes affecting circulation and hydrography in the Harbour.
It is found that the near-surface currents in the Harbour are significantly affected
by tides and wind forcing with an intense tidal jet in the Narrows and a salinity front
in the upper layer of Bedford Basin. The time-mean circulation produced by the model is characterized by
a typical two-layer estuarine circulation with seaward flow in the upper layer and landward flow in the lower layer.
The model also reproduces reasonably well the
seasonal changes of temperature and salinity in the Harbour.
Dispersion and retention in the Harbour are studied based on numerical passive tracer and particle tracking experiments.
The e-folding flushing time is about 40 and 90 days in the upper and entire Bedford Basin respectively, 2-5 days over the Inner and Outer Harbour,
and about 1 day in the Narrows.

Identiferoai:union.ndltd.org:LACETR/oai:collectionscanada.gc.ca:NSHD.ca#10222/13173
Date14 December 2010
CreatorsShan, Shiliang
Source SetsLibrary and Archives Canada ETDs Repository / Centre d'archives des thèses électroniques de Bibliothèque et Archives Canada
LanguageEnglish
Detected LanguageEnglish

Page generated in 0.0017 seconds