wind provisions

Wind Loads:

The ASCE 7 Provisions

CE 694R – Fall 2007

T. Bart Quimby, P.E., Ph.D.

Quimby & Associates

A Beginner's Guide to ASCE 7-05

Permitted Design Methods

Method 1—Simplified Procedure

(ASCE 7-05 Section 6.4)

Low rise buildings. This is an outgrowth of work done

for/by the metal building industry.

Method 2—Analytical Procedure

(ASCE 7-05 Section 6.5)

The typically used procedure. This is the main focus of

this presentation.

Method 3—Wind Tunnel Procedure

(ASCE 7-05 6.6)

See ASCE 7-05 6.1.2

A Beginner's Guide to ASCE 7-05

Important Definitions

Basic Wind Speed

Building open, enclosed, partially enclosed

Low-Rise Building

See ASCE 7-05 6.2

A Beginner's Guide to ASCE 7-05

Exposure Categories

Exposure A – Deleted in ASCE 7-02 and later

Extremely sheltered. Large city centers with tall buildings.

Exposure B

Urban and suburban areas, wooded areas, areas with many closely spaced obstructions.

Exposure C

Open terrain with scatter obstructions. Airports, areas that are generally flat open country.

Exposure D

Flat, unobstructed areas and water surfaces outside hurricane prone regions. This category includes smooth mud flats, salt flats, and unbroken ice that extend 5,000 ft or 20 times the building height in the upwind direction.

See ASCE 7-05 6.5.6 & C6.5.6 (See images!)

A Beginner's Guide to ASCE 7-05

Determining Exposure

Wind Direction & Sectors (ASCE 7-05

6.5.6.1)

the exposure of the building or structure shall

be determined for the two upwind sectors

extending 45o either side of the selected wind

direction.

the exposure resulting in the highest wind

loads shall be used to represent the winds

from that direction.

A Beginner's Guide to ASCE 7-05

ASCE 7-05 Wind Pressures

The basic form of the pressure equation:

p = qGC

Where

p = a wind pressure on a surface

q = velocity pressure. This is the pressure due to a moving fluid on a flat plate

G = gust factor. The gust factor accounts for dynamic interaction between the flowing air and the structure

C = pressure coefficient. The pressure coefficient accounts for varying pressure across a surface.

A Beginner's Guide to ASCE 7-05

Velocity Pressure, q

qz =Velocity Pressure = 0.00256KzKzt KdV2 I (lb/ft2)

Constant 0.00256

V = Basic wind speed in mph

I = Importance Factor (i.e. different MRI)

Kz = Exposure Coefficient

Kzt = Topographical Factor

Kd = Wind Directionality Factor

Evaluated at an elevation z: qz = 0.00256V2IKzKztKd

Evaluated at the building mean roof elevation, h: qh = 0.00256V2I KhKhtKd

See ASCE 7-05 6.5.10

A Beginner's Guide to ASCE 7-05

The Velocity Coefficient

Based on the average density of air at sea level.

P1

2V

2

1

2[

0.0765

32.2][

5280

3600]

2V

2 0.00256V

2

See ASCE 7-05 C6.5.10

A Beginner's Guide to ASCE 7-05

Basic Wind Speed, V

Obtained from Wind Speed maps in ASCE 7-

05 Figure 6-1.

Determined by localized research using

approved probabilistic methods.

“The basic wind speed shall be increased

where records or experience indicate that the

wind speeds are higher than those reflected

in Fig. 6-1.” (ASCE 7-05 6.5.4.1)

See ASCE 7-05 6.5.4

A Beginner's Guide to ASCE 7-05

The Importance Factor, I

Category I: I = .87

MRI is 25 years

Category II: I = 1.00

MRI is 50 years

Category III & IV: I = 1.15

MRI is 100 years

Building Categories are listed in ASCE 7-05

Table 1-1.

See ASCE 7-05 6.5.5, Table 6-1 and Commentary 6.5.5

A Beginner's Guide to ASCE 7-05

Velocity Pressure Exposure

Coefficients, Kz and Kh

Modifies basic wind pressure for heights other than 33 ft and exposures other than exposure C.

Can compute K directly from equations in the commentary for any height and/or exposure.

Good for spreadsheet or computer programming.

For elevations less than 15 ft, use K15.

For elevations above gradient height use Kg.

See ASCE 7-05 6.5.6.6, Tables 6-2 and 6-3, and C6.5.6.6

A Beginner's Guide to ASCE 7-05

Kz & Kh Computation

Kz = 2.01(z/zg)2/a

K Computation

0.00

0.50

1.00

1.50

2.00

2.50

0 500 1000 1500 2000

Elevation, z (ft)

KExposure B

Exposure C

Exposure D

When z > zg use z = zg

When z < 15 use z = 15 ft

A Beginner's Guide to ASCE 7-05

Topographical Factor, Kzt

Kzt = 1.0 when:

H/Lh < 0.2, or

H < 15' for Exposures C & D,

or

H < 60' for Exposure B.

Kzt = (1+K1K2K3)2

See ASCE 7-05 6.5.7 & Commentary 6.5.7

A Beginner's Guide to ASCE 7-05

Kzt

Constants

A Beginner's Guide to ASCE 7-05

Kzt Multipliers by Equation

See ASCE 7-05 Figure 6.4

A Beginner's Guide to ASCE 7-05

Directionality Factor, Kd

This factor shall only be

applied when used in

conjunction with load

combinations specified

in Sections 2.3 and 2.4.

The wind load factors

changed when the

directionality factor was

extracted.

See ASCE 7-05 6.5.4.4 and

Table 6-4

A Beginner's Guide to ASCE 7-05

The Gust Factor, G

Factor accounting for:

Gustiness and turbulence

Gust frequency

Gust size

Integral scale longitudinal and lateral

Frequency of structure

Structural damping

Aerodynamic admittance

Gust correlation

A Beginner's Guide to ASCE 7-05

Gust Factor, G

For stiff buildings and stiff structures

G = 0.85

For flexible buildings and other structures

Calculate “by a rational analysis that

incorporates the dynamic properties of the

main wind-force resisting system.”

A Beginner's Guide to ASCE 7-05

See ASCE 7-05 6.5.8

Pressure Coefficients, C

The pressure coefficients are based on

The enclosure category of the structure

The location on a structure for which a pressure is to

be computed.

The pressure coefficients have been determined

experimentally from wind tunnel studies done on

regular shaped structures

The coefficient represents the ratio between measured

pressure and the computed basic velocity pressure.

CP

measured

1

2V 2

A Beginner's Guide to ASCE 7-05

Enclosure Classifications

A building is to be classified as one of the following:

Open

Ao > 0.8Ag for each wall

Partially Enclosed

Ao > 1.10 Aoi, and

Ao > min[4 sqft , 0.01Ag], and

Aoi/Agi < 0.20

Enclosed

A building that is neither open nor partially enclosed.

A Beginner's Guide to ASCE 7-05

See ASCE 7-05 6.2 & 6.5.9

Location of Pressure

ASCE 7 provides means for computing forces on

various surfaces.

The building envelope surfaces experience pressure

on both sides (i.e. external and internal).

A Beginner's Guide to ASCE 7-05

Internal Pressure Coefficients, GCpi

Internal pressure is fairly easy because the air is relatively stagnant and the shape of the structure does not affect it’s magnitude.

As gusting is not a concern internally, the gust factor and the pressure coefficient are combined. GCpi

The magnitude of the internal pressure coefficient is strictly dependent on the enclosure classification.

The pressure can be both positive or negative (i.e. suction) depending on the direction of the wind relative to opening for partially enclosed or enclosed buildings. Both internal pressures must be considered.

See ASCE 7-05 6.5.11.1 & Figure 6-5

A Beginner's Guide to ASCE 7-05

Internal Pressure

A Beginner's Guide to ASCE 7-05

External Pressure Coefficients, Cp

As external surfaces are subject to “flowing” air, the pressure varies considerably on the building surface depending on structural configuration and direction of the wind.

Coefficients also depend on whether the resulting forces are to be used to design/analyze:

Main Wind-Force Resisting Systems

Structural elements that support large areas exposed to the wind

Components & Cladding

Structural elements that support small areas exposed to the wind

See ASCE 7-05 6.5.11.2 & Figures 6-6, 6-7, and 6-8

A Beginner's Guide to ASCE 7-05

Buildings with Roofs Consisting of

Flat Surfaces

ASCE 7-05 Figure 6-6 gives the external

coefficients of wall and roof surfaces.

See ASCE 7-05 Figure 6-6

A Beginner's Guide to ASCE 7-05

Buildings with Roofs Consisting of

Flat Surfaces – Wall Cp

Wall pressure depends on whether the wall is

Windward

Same regardless of building plan dimensions

Leeward

Dependant on building plan dimensions

Side

Same regardless of building plan dimensions

See ASCE 7-05 Figure 6-6

A Beginner's Guide to ASCE 7-05

Buildings with Roofs Consisting of

Flat Surfaces – Roof Cp

Dependent on direction of wind relative to

ridge

Coefficients are given for various conditions.

Interpolation is used to find values of

conditions between those given.

See ASCE 7-05 Figure 6-6

A Beginner's Guide to ASCE 7-05

Wind Normal to Ridge

Wind NORMAL to ridge

Values given for different

building height to length

ratios and roof slope

angles.

Windward roof surfaces

Can be both positive

and negative on some

slopes. Both need

consideration as

separate load cases.

Leeward roof surfaces

All negative.

See ASCE 7-05 Figure 6-6

A Beginner's Guide to ASCE 7-05

Wind Parallel to Ridge

Parallel to ridge,

flat or nearly flat

Two different

h/L ranges,

both with

stepped

pressures.

Interpolate

between

ranges

See ASCE 7-05 Figure 6-6

A Beginner's Guide to ASCE 7-05

Domed Roofs

Pressure distributions are fairly complex.

Two load cases to be considered.

See ASCE 7-05 Figure 6-7

A Beginner's Guide to ASCE 7-05

Arched Roofs

Pressure coefficient depends on rate of rise

of the arch.

Pressure varies by along the arch.

See ASCE 7-05 Figure 6-8

A Beginner's Guide to ASCE 7-05

Components & Cladding

Elements of the structure that support local

peak loads need to be designed for these

pressures.

The magnitude of the force is dependent on

the wind area tributary to the component

The smaller the tributary area of a component

the more likely to see relatively high pressures

on their tributary areas.

A Beginner's Guide to ASCE 7-05

Some Local Effects

Wind

around a

corner

A Beginner's Guide to ASCE 7-05

Image from FEMA Multi

Hazard Seminar

Wind at a Corner

A Beginner's Guide to ASCE 7-05 Image from FEMA Multi

Hazard Seminar

Uplift on Roof

A Beginner's Guide to ASCE 7-05

Images from FEMA Multi

Hazard Seminar

Wall Components

For buildings

under 60 ft

See ASCE

7-05 Figure

6-17 for

building

greater than

60 ft tall.

A Beginner's Guide to ASCE 7-05

See ASCE 7-05 Figure 6-11A

Roof Components

Lots of different roof types with different

requirements.

Gable Roofs of various angles

Gable/Hip Roofs

Stepped Roofs

Multispan Gable Roofs

Monoslope Roofs

Sawtooth Roofs

A Beginner's Guide to ASCE 7-05

Typical

Roof

Chart

A Beginner's Guide to ASCE 7-05

Finding Net Pressure

The net pressure is the vector sum of the

internal and external pressures.

Typical form:

p = qGCp – qi(GCpi)

Note the sign… positive pressure externally

opposes positive pressure internally (i.e. they

act in opposite directions).

A Beginner's Guide to ASCE 7-05

See ASCE 7-05 6.5.12

Sample Problem

V = 120 mph

Exposure C

Enclosed

A Beginner's Guide to ASCE 7-05