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| title: UpdraftForcing | |
| emoji: 🌪️ | |
| colorFrom: blue | |
| colorTo: gray | |
| sdk: docker | |
| pinned: false | |
| # Updraft Forcing | |
| A kinematic-diagnostic model for examining how environmental wind shear and mesocyclone intensity drive perturbation pressure and vertical accelerations in convective storms. | |
| Configure a Weisman-Klemp analytic sounding and drag the hodograph to set the wind profile, then explore: | |
| - **Skew-T log-P diagram** with parcel trace, CAPE/CIN shading, and meteorological wind barbs | |
| - **Perturbation pressure** decomposed into linear (shear interaction), nonlinear spin, nonlinear splat, and buoyancy terms (Trapp 2013) | |
| - **Vertical velocity** diagnosed from a 1-D pseudoadiabatic parcel model with overshooting top | |
| - **CAPE, CIN, LCL, LFC, EL** from the analytic sounding | |
| - **SRH** (0–2 km, 2–5 km) and **Updraft Helicity** relative to the Bunkers right-mover storm motion | |
| - **Prescribed mesocyclone ζ(z)** driving the nonlinear spin pressure term and updraft helicity | |
| Plan views and vertical cross-sections are available for all 3-D fields. Pressure perturbations are solved via a 2-D FFT + tridiagonal Poisson solver on a 100 × 100 × 161 grid (Δ = 100 m). | |