ASCE 7-22 · SECTION 26.7.3 · EXPOSURE

Where terrain roughness changes, exposure changes with direction

Upwind of every site, the ground gets rougher or smoother. ASCE 7-22 makes you read that fetch for each wind direction — so one building can be Exposure D, C, and B at the same time.

3EXPOSURES PER SITE POSSIBLE
2,600 ftB FETCH (OR 20h)
+66%Kz AT 30 FT, D VS B
8DIRECTIONS EVALUATED

PLAN + SECTION · UPWIND FETCH

A site that reads water to suburban upwind

Looking down on the site (plan) and across it (section): the exposure for a direction is set by the surface roughness over the required upwind fetch in that direction.

PLAN VIEW OPEN WATER Exposure D upwind SUBURBAN ROUGHNESS Exposure B upwind (if fetch sufficient) ROUGHNESS TRANSITION SITE UPWIND FETCH SECTOR (assessed for THIS wind direction) SECTION (WIND L → R) D profile new boundary layer grows downwind B profile (needs fetch)

Until the new boundary layer fully develops over the required fetch, the site behaves like the smoother upwind terrain — which is why a short stretch of suburb does not yet earn Exposure B.

METHOD · PER WIND DIRECTION

How to read exposure direction by direction

ASCE 7-22 26.7.3: for a given direction, exposure follows the ground roughness that prevails over the upwind fetch. Walk all 8 principal directions.

1 · Map each direction

Look upwind along all 8 principal directions and identify the surface roughness from aerial and survey data.

8 SECTORS

2 · Measure the fetch

How far does that uniform roughness extend upwind? Compare it against the category's required fetch.

DISTANCE CHECK

3 · Apply the criteria

Suburban with 2,600 ft (or 20h) upwind → B. Open coast meeting the shore criteria → D. Otherwise → C.

B / C / D

4 · Set the governing case

Each direction can carry its own exposure. The wind analysis then uses the controlling exposure per direction.

DIRECTIONAL

TABLE 26.11-1 · zmin

The height where each profile starts to count

Below zmin the velocity pressure coefficient is held at its zmin value — rougher terrain has a taller floor.

30 ftzmin · EXPOSURE B
15 ftzmin · EXPOSURE C
7 ftzmin · EXPOSURE D

TABLE 26.10-1 · Kz AT 30 FT

Choosing the more-open exposure raises the pressure

Velocity pressure scales with Kz. At 30 ft, stepping from B toward D is a large jump — so a transition direction that earns D, not B, drives the design.

ExposureKz at 30 ftRelative to B at 30 ftCharacter
B (suburban)0.70baselineRougher, slowest profile low to the ground
C (open)0.98+40%Open terrain, scattered obstructions
D (open water / coastal)1.16+66%Smoothest, fastest profile low to the ground

When a transition leaves a direction borderline, defaulting to the more-open exposure is conservative: at 30 ft, D's Kz of 1.16 is 66% higher than B's 0.70, and C's 0.98 is 40% higher. The governing direction sets the load.

RUN IT PER DIRECTION

Let the software resolve every directional exposure

Directional analysis across B, C, and D — the governing case found for you, fully ASCE 7-22 compliant.