Innsjøsirkulasjon og global oppvarming · 2019-05-30 · Omstedt(2015): Guide to Process Based...
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Innsjøsirkulasjon og global oppvarming
Sverre Anmarkrud, Alemayehu Adugna Arara, Anne Kværnø, and Nils-Otto Kitterød
Norwegian University of Life SciencesLake temperature 2
Norsk hydrologiråds konferanse på NMBU, 6.mai 2019, om:Klimaendringer og vannkvalitet- hva kan vi forvente oss?
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Lake temperature
Norwegian University of Life SciencesLake temperature 4
Omstedt (2015): Guide to Process Based Modeling of Lakes and Coastal SeasColor
??
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Wind velocities and global warming?
S.C. Pryor, R.J. Barthelmie / Renewable and Sustainable Energy Reviews 14 (2010) 430–43 5
Ensemble average difference in percent of (a) energy density and (b) 50-yearreturn period wind speed computed using a probabilistic empirical downscalingApproach for 43 stations across northern Europe based on output from 8-GCMs(BCCR-BCM2.0, CGCM3.1, CNRM-CM3, ECHAM5/MPI-OM, GFDL-CM2.0, GISS-ModelE20/Russell, IPSL-CM4, and MRI-CGCM2.3.2.). The future time period is2081–2100, while the historical period in 1961–1990. A positive value indicateshigher energy density or extreme wind in the later time period
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Norwegian University of Life SciencesLake temperature 6
No data
Temperature observations from lake Årungen
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Probability density function of wind velocities from Søråsjordet in the period from 2007 to 2015, 10 min average.
Norwegian University of Life SciencesLake temperature 7
3%
1%
0.1%
0.3%
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The Simstrat Modelhttps://www.eawag.ch/en/department/surf/projects/simstrat/
Norwegian University of Life SciencesLake temperature 8
• 1D physical lake model. • For simulation of stratification and mixing in deep lakes.• Originally developed by Goudsmit et al. (2002). • Applied to lakes with different physical properties. • Open source: The Simstrat code is freely available on
Github: – https://github.com/Eawag-AppliedSystemAnalysis/Simstrat/
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The Main properties of the Simstrat Modelhttps://www.eawag.ch/en/department/surf/projects/simstrat/
Norwegian University of Life SciencesLake temperature 9
• Simulates temperature, salinity, stratification and ice cover.
• k-ε model for turbulent mixing and buoyancy oscillations.• Includes energy transfer to mixing via internal seiches• Hydrology: inflows can be added at specified depths or
with density-dependent intrusions.• Variable lake surface levels.• Programmed in object-oriented Fortran 2003.• Parameter estimation using PEST is implemented
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Norwegian University of Life SciencesLake temperature 10
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Norwegian University of Life SciencesLake temperature 11
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The stochastic wind model
Norwegian University of Life SciencesLake temperature 12
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Norwegian University of Life SciencesLake temperature 13
East-West
North-South
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Norwegian University of Life SciencesLake temperature 14
Observed wind
Synthetic wind
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Temperature simulations
Norwegian University of Life SciencesLake temperature 15
b
a
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Norwegian University of Life SciencesLake temperature 16
June 1st 2011 (12:00)Blue is the observedtemperature
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Norwegian University of Life SciencesLake temperature 17
Probability density function of temperature (T) given depth (z): f(T|z)
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Norwegian University of Life SciencesLake temperature 18
Questions for further work:1) What’s the impact of wind to temperature stratification in lakes? 2) Do we expect more circulation because of more wind or vice versa?3) Do we need wind observations to mimic temperature in lakes, or can a
stochastic wind model do the job?4) Is a simple stochastic model sufficient (mean and covariance), or do
we need to include more physics (e.g. coupling of temperature)?5) What time resolution is necessary? Challenge: Mixing parameters
depends on variance in wind velocities.