The STEM-2K3 is a regional chemical transport model, with the SAPRC99 mechanism (218 reactions), and all of the 30 photolysis rates are explicitly computed through its on-line TUV. Aerosol Ions are calculated by the on-line four-bin SCAPE II module, developed by CalTech and UC-Irvine.

This forecast result also shows CFORS/ RAMS meteorological prediction. RAMS meteorology is used to drive the full-chemistry STEM-2K3 model. The STEM-tracer model has the same dynamic framework as STEM-2K3, but employs simple decaying rates for most primary species, plus wet scavanging and dry depostions et al. We can roughly derive the AVERAGE aging time for certain species based on their decaying rates if rain and cloud are not heavy, or have few impacts on those species. The presented ages can be used ONLY as a reference, due to realistic complexity. Please note that the tracer concentrations DO NOT represent the realistic concentration, but only the conributions from various sources.

The model layer is defined in a terrain-following coordinate with the domain top about 23km, and it can be approximately treated as the altitude above surface level where the topograph does not exceed 1km above sea level.

In this page, we include 4-layer horizontal plots of STEM-2K3, STEM-tracer and CFORS Forecasts. You can also view time-series or cross-section plots over any model grid.

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