May 10, 2024 Central Texas Hail

Hail Vulnerability Model — v1.7 Physics

Damage probability is computed using a physically grounded stone-population model. Rather than mapping peak MESH directly to a damage ratio, the model distributes stone impacts across the realistic hail size spectrum — where the largest stones are rare outliers, not the norm.

Algorithm

Peak MRMS MESH is corrected for radar calibration bias (Ortega 2018: 0.75×) and storm type (supercell 1.15×) to estimate the effective largest stone diameter D_l.
Grieser & Hill (2019) power-law fits give average stone diameter D_a, storm duration T, and hit rate Hr from D_l, calibrated on 37,726 CoCoRaHS observations.
Stone size distribution: Gamma distribution (α = 1.75; Li et al. 2024) between 5 mm and D_l.
Each 1 mm bin is assigned a damage probability via a lognormal fragility curve for unrated asphalt shingle (θ = 46 mm, γ = 0.25).
Aggregate P_fail = 1 − ∏(1 − p_i)^N_i. Duration multiplier applied (cap 1.4×).
Ackermann et al. (2024) HDE: surface-occurrence sigmoid P_surface = 1/(1 + e^{−0.18(MESH−27)}). Corrects for hail melting aloft at swath edges.

Calibration — EWX Radar (this event)

Austin permit re-roof surge (Jun–Dec 2024 vs. 2017–2023 baseline) provides an indirect calibration signal. MRMS–LSR bias analysis on 25 EWX spotter reports identified a systematic radar underestimate at WFO EWX relative to Ortega global baseline.

Key Parameters

MRMS radar correction0.75× (Ortega 2018 global baseline)

EWX calibrated ortega0.95× (this event; +27% vs. baseline)

Gamma shape α1.75 (Li et al. 2024)

Fragility median θ46 mm (~1.8″) — unrated asphalt shingle

Fragility dispersion γ0.25 (lognormal)

HDE sigmoid inflection27 mm MESH (~1.06″)

Storm type multiplierSupercell 1.15× D_l

Roof RCVFootprint × 1.15 slope × $9/sqft

Calibration Signal — Austin Permits

City of Austin re-roof permit filings (Socrata dataset 3syk-w9eu) show a pronounced post-event surge. Re-roof permits in Jun 2024 alone (80) were 3.8× the 2017–2023 baseline of ~21/month. Excess permits Jun–Dec 2024: ~238 above baseline.

Permit rate proxy ≈ 238 / (Austin structures in swath) — provides a weak but independent lower bound on the fraction of buildings with roof damage. Permits undercount actual damage by 3–10× (not all damaged roofs file permits immediately).

References

Grieser, J. & Hill, M. (2019). How to Express Hail Intensity. J. Appl. Meteor. Climatol. 58, 2329–2344. DOI:10.1175/JAMC-D-18-0334.1

Li, Y., Porter, K. & Goda, K. (2024). Hail hazard modeling with uncertainty analysis. Int. J. Disaster Risk Reduction 113, 104853.

Ackermann, L. et al. (2024). HDE surface-occurrence probability. Atmos. Meas. Tech. 17, 407–422.

Ortega, K.L. (2018). Evaluating Multi-Radar Multi-Sensor Products for Surface Hailfall Diagnosis. Electronic J. Operational Meteor. 19(1), 1–21.

Hail Damage Ratio (click to toggle)

Critical DR ≥ 30%

High DR 18–30%

Moderate DR 10–18%

Minor DR 5–10%

Trace DR <5%

Event Impact

65.7K

Structures with hail damage (DR > 0)

3.6% of 1.8M in swath • Hill Country + Austin metro

$5.14B

Estimated roof loss

v1.7 physics • Ortega 0.75× • supercell 1.15× • HDE sigmoid

0.92%

Mean damage ratio (all structures in swath)

Footprint mean DR: 4.2% at calibrated ortega 0.95×

Permit Calibration Signal

Austin Re-Roof Permits — Jun 2024 Surge

80

Jun 2024 permits

~21

Baseline (2017–2023 avg)

238

Excess permits (Jun–Dec)

3.8×

Jun 2024 surge ratio

Re-roof permits filed with City of Austin following the May 10 event. Jun 2024 (80 permits) is the highest single month in 7+ years of data. Permits undercount true damage (only properties that file with the city).

Spotter Reports (EWX)

Max hail: 6.25″ at Johnson City
San Marcos: 2.5″ • Taylor: 1.75″
Total EWX reports in event bbox: 25
EWX MESH bias: −22.9 mm vs. spotter-observed

Layers

Hail buildings MRMS MESH swath LSR spotter reports Re-roof permits (Jun–Dec 2024)

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