Environmental ModellingPiero Melli, Paolo Zannetti |
Contents
Developments in Computer Technology | 23 |
Some Recent Advances in Computer Modeling | 55 |
Applications of Photochemical Models | 89 |
Acid Deposition Modeling | 119 |
Photochemical Oxidants in Central Japan | 135 |
Some Considerations of the Role of the | 151 |
Environmental Modeling for Emergency | 173 |
Particle Modeling and Its Application for | 211 |
Numerical Simulation of the Global Warming | 243 |
The CO2 Cycle and the Impact of its | 273 |
Numerical Simulation of the Ocean Circulation | 287 |
A Multilevel Model for the Study of the | 307 |
The Prediction and Control of Water Quality | 345 |
How to Design or Choose an Environmental | 373 |
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Common terms and phrases
advection Air Pollution air quality Airshed analysis application approximation aquifer atmospheric CO2 average basin Bering Sea boundary conditions boundary layer calculations carbon changes chemical chemistry climate CO₂ complex components contaminant transport CVBEM developed diffusion dispersion domain dynamics ECHAM ECMWF ecosystem effect EKMA emissions environment Equation estimate Eulerian evaluation exergy FDDA field Figure fluxes function global grid groundwater modeling groundwater system horizontal impact input integrated interactions isopleth Jørgensen Lagrangian lake breeze Lake Michigan Langevin Equation levels mathematical measurements Mediterranean Sea mesoscale method numerical model observed ocean model ozone parameters particle models photochemical photochemical models physical phytoplankton plume pphm precipitation predicted problem processes RADM reduction region Research scale scenarios sea ice simulation solution spatial species STEM-II surface techniques temperature temporal three-dimensional tion tracer trajectory turbulent variables vector velocity vertical wet deposition wind