Listing 1 - 4 of 4 |
Sort by
|
Choose an application
Physical processes are keys for the status of a lake. In this Special Issue, the emphasis is on dissolved oxygen and on exchange of gases, energy and momentum between atmosphere and further mixing and consumption within the water. The studies presented relate to ice-free as well as ice-covered lakes. Field measurements are combined with theoretical approaches.
Technology: general issues --- History of engineering & technology --- Environmental science, engineering & technology --- hydrodynamic model --- bubble plume --- artificial mixing --- GLM --- Si3D --- dissolved gas --- Henry law --- total gas pressure --- ebullition --- greenhouse gases --- lacustrine waters --- diurnal variation --- hourly model --- water temperature --- dissolved oxygen --- shallow lakes --- and sediment heat flux --- water quality --- chlorophyll-a --- phosphorus --- phosphorus release --- full set of turbulent stresses --- Acoustic Doppler current profilers --- interbeam velocity correlations --- ice-covered lakes --- convectively-mixed layer --- anisotropic turbulence --- shallow lake --- ice-covered period --- ice phenology --- snow-ice cover thickness --- under-ice irradiance --- radiatively driven convection --- climate change --- 3D modelling --- stratification --- bubble plumes --- fractal --- lakes --- mixing --- multi-scale --- turbulence --- energy fluxes --- energy content --- reservoirs --- internal waves --- surface waves --- biogenic turbulence
Choose an application
Physical processes are keys for the status of a lake. In this Special Issue, the emphasis is on dissolved oxygen and on exchange of gases, energy and momentum between atmosphere and further mixing and consumption within the water. The studies presented relate to ice-free as well as ice-covered lakes. Field measurements are combined with theoretical approaches.
hydrodynamic model --- bubble plume --- artificial mixing --- GLM --- Si3D --- dissolved gas --- Henry law --- total gas pressure --- ebullition --- greenhouse gases --- lacustrine waters --- diurnal variation --- hourly model --- water temperature --- dissolved oxygen --- shallow lakes --- and sediment heat flux --- water quality --- chlorophyll-a --- phosphorus --- phosphorus release --- full set of turbulent stresses --- Acoustic Doppler current profilers --- interbeam velocity correlations --- ice-covered lakes --- convectively-mixed layer --- anisotropic turbulence --- shallow lake --- ice-covered period --- ice phenology --- snow-ice cover thickness --- under-ice irradiance --- radiatively driven convection --- climate change --- 3D modelling --- stratification --- bubble plumes --- fractal --- lakes --- mixing --- multi-scale --- turbulence --- energy fluxes --- energy content --- reservoirs --- internal waves --- surface waves --- biogenic turbulence
Choose an application
Physical processes are keys for the status of a lake. In this Special Issue, the emphasis is on dissolved oxygen and on exchange of gases, energy and momentum between atmosphere and further mixing and consumption within the water. The studies presented relate to ice-free as well as ice-covered lakes. Field measurements are combined with theoretical approaches.
Technology: general issues --- History of engineering & technology --- Environmental science, engineering & technology --- hydrodynamic model --- bubble plume --- artificial mixing --- GLM --- Si3D --- dissolved gas --- Henry law --- total gas pressure --- ebullition --- greenhouse gases --- lacustrine waters --- diurnal variation --- hourly model --- water temperature --- dissolved oxygen --- shallow lakes --- and sediment heat flux --- water quality --- chlorophyll-a --- phosphorus --- phosphorus release --- full set of turbulent stresses --- Acoustic Doppler current profilers --- interbeam velocity correlations --- ice-covered lakes --- convectively-mixed layer --- anisotropic turbulence --- shallow lake --- ice-covered period --- ice phenology --- snow-ice cover thickness --- under-ice irradiance --- radiatively driven convection --- climate change --- 3D modelling --- stratification --- bubble plumes --- fractal --- lakes --- mixing --- multi-scale --- turbulence --- energy fluxes --- energy content --- reservoirs --- internal waves --- surface waves --- biogenic turbulence --- hydrodynamic model --- bubble plume --- artificial mixing --- GLM --- Si3D --- dissolved gas --- Henry law --- total gas pressure --- ebullition --- greenhouse gases --- lacustrine waters --- diurnal variation --- hourly model --- water temperature --- dissolved oxygen --- shallow lakes --- and sediment heat flux --- water quality --- chlorophyll-a --- phosphorus --- phosphorus release --- full set of turbulent stresses --- Acoustic Doppler current profilers --- interbeam velocity correlations --- ice-covered lakes --- convectively-mixed layer --- anisotropic turbulence --- shallow lake --- ice-covered period --- ice phenology --- snow-ice cover thickness --- under-ice irradiance --- radiatively driven convection --- climate change --- 3D modelling --- stratification --- bubble plumes --- fractal --- lakes --- mixing --- multi-scale --- turbulence --- energy fluxes --- energy content --- reservoirs --- internal waves --- surface waves --- biogenic turbulence
Choose an application
The reprint identifies key concerns and significant challenges of the future as currently perceived by researchers, industry, policymakers, and other flood management stakeholders. The main themes addressed include: science and technology for flood risk management; handling data and information for flood risk management; flood disaster prevention, mitigation, and adaptation; flood preparedness, response, and recovery; flood decision-making, policy, and governance; and flood resilience.
Technology: general issues --- History of engineering & technology --- Conservation of buildings & building materials --- flooding --- storm surge --- numerical modelling --- high-water marks --- debris --- distributed hydrological model --- flood forecasting --- TOPKAPI --- Zhenjiang River --- small- and medium-sized river --- OSS-SR --- facilitator --- flood resilience --- disaster literacy --- community-based --- e-learning --- extreme floods --- disaster chain --- impact assessment --- flood damage --- environmental impacts --- unsteady flows --- flood wave propagation --- Acoustic Doppler Current Profilers --- index-velocity method --- stage-discharge method --- rating curves --- flood risk management --- innovations --- dikes --- flood decision-making --- knowledge uptake --- historical data source --- flood mapping --- poorly gauged catchments --- citizen science --- low impact development --- sea-level rise --- adaptation --- flood risk --- water resources --- low-lying coasts --- extreme rain --- pluvial flood --- basement flood --- wastewater --- inflow and infiltration --- Canada --- flood management issues --- natural disasters --- climate change --- government policies --- flood hazard --- CaMa-Flood --- flood map viewer --- floodplain mapping
Listing 1 - 4 of 4 |
Sort by
|