Hans Burchard 1,3 , Frank Janssen 2 , Karsten Bolding 3 , Lars Umlauf 1 , and Hannes Rennau 1
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Hans Burchard 1,3 , Frank Janssen 2 , Karsten Bolding 3 , Lars Umlauf 1 , and Hannes Rennau 1 1. Baltic Sea Research Institute Warnemünde 2. Bundesamt für Seeschifffahrt und Hydrographie 3. Bolding & Burchard Hydrodynamics [email protected] Estimates of vertical mixing due to dense bottom currents in the Western Baltic Sea
description
Estimates of vertical mixing due to dense bottom currents in the Western Baltic Sea. Hans Burchard 1,3 , Frank Janssen 2 , Karsten Bolding 3 , Lars Umlauf 1 , and Hannes Rennau 1 1. Baltic Sea Research Institute Warnemünde 2. Bundesamt für Seeschifffahrt und Hydrographie - PowerPoint PPT Presentation
Transcript of Hans Burchard 1,3 , Frank Janssen 2 , Karsten Bolding 3 , Lars Umlauf 1 , and Hannes Rennau 1
Hans Burchard1,3, Frank Janssen2, Karsten Bolding3, Lars Umlauf1, and Hannes
Rennau1
1. Baltic Sea Research Institute Warnemünde2. Bundesamt für Seeschifffahrt und Hydrographie
3. Bolding & Burchard Hydrodynamics
Estimates of vertical mixing due to dense bottom currents
in the Western Baltic Sea
Motivation: wind farms in the Western Baltic Sea
Kriegers Flak
Goal: Quantify natural mixing for evaluating additional mixing effects due to offshore constructions. Method: Three-dimensional numerical modelling.
GETM is a 3D numerical model for estuarine,
coastal and shelf sea hydrodynamics with • Coupling to GOTM Turbulence Module• Generalised vertical coordinates• High-resolution advection schemes• Parallel execution•…
GETM Western Baltic Sea hindcast
Model setup:
Meteo: 7 km (DWD)
BC/IC: 3 nm Baltic Seamodel based on MOM-3
Period: Sep 2003-May 2004
Resolution: 0.5 nm
# of layers: 50 GVC
GETM Western Baltic Sea hindcast
GETM Western Baltic Sea hindcast
Western Baltic Sea monitoring stations
Darss Sill: 19 m
+
Drogden Sill: 8 m
+MARNET (IOW/BSH)
Farvandsvæsenet
+
Arkona Buoy: 48 m
Model validation: Darss Sill
Model validation: Drogden Sill
Model validation: Arkona Buoy
Model validation:
Section across
Kriegers Flak
Quantification of vertical mixing
Non-averaged salinity equation:
Reynolds decomposition:
Mean salinity equation
Micro-structure salinity variance equation:
Vertically integrated mean salinity variance:
Vertically integrated salinity variance equation:
Model derived annual mean vertically integrated salinity variance decay in Western Baltic Sea
Vertically integrated turbulent salt flux
Alternative measure for vertical mixing:
Model derived annual mean vertically integrated vertical turbulent salt flux in Western Baltic Sea
Conclusions:
Density currents in Western Baltic Sea are highly variable,
show a complex transverse structure (see Umlauf et al.)
and induce substantial natural transports and mixing.
A suitable model-based quantification of vertical mixing
is given by the
decay of the vertically integrated mean salinity variance.
Next question:
How big is the additional numerically-induced mixing ?
RV Gauss leaving Warnemünde for its last research cruise
