EN 1991-1-4:2005 Wind actions
Transcript of EN 1991-1-4:2005 Wind actions
Brussels, 18-20 February 2008 – Dissemination of information workshop 1
EUROCODESBackground and Applications EN 1991 – Eurocode 1: Actions on structures
EN 1991-1-4:2005
Wind actions
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EUROCODESBackground and Applications EN 1991-1-4:2005 Contents
1. General
2. Design situations
3. Modelling of wind actions
4. Wind velocity and velocity pressure
5. Wind actions
6. Structural factor
7. Pressure and force coefficients
8. Wind actions on bridges
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EUROCODESBackground and Applications EN 1991-1-4:2005 Contents
Annex
A. Terrain effects
B. Procedure 1 for determining the structural factor
C. Procedure 2 for determining the structural factor
D. Structural factors for different types of structures
E. Vortex shedding and aeroelastic instabilities
F. Dynamic characteristics of structures
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EUROCODESBackground and Applications Section 1 General – 1.1 Scope
(2) This Part is applicable to:
- Buildings and civil engineering works with heights up to 200 m
- Bridges having no span greater than 200 m, provided that they satisfy the criteria for dynamic response
(3) This part is intended to predict characteristic wind actions onland-based structures, their components and appendages
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EUROCODESBackground and Applications Section 1 General – 1.1 Scope
Draft corrigendum to EN 1991-1-4:200522 January 2008
(11) Guyed masts and lattice towers are treated in EN 1993-3-1 and lighting columns in EN 40
(12) This part does not give guidance on the following aspects:
- torsional vibrations, e.g. tall buildings with a central core
- bridge deck vibrations from transverse wind turbulence
- wind actions on cable supported bridges
- vibrations where more than the fundamental mode needs to beconsidered
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EUROCODESBackground and Applications Section 2 Design situations
(1)P The relevant wind actions shall be determined for each design situation identified in accordance with EN 1990, 3.2.
(2) Traffic, snow and ice
(3) Execution
(4) Where in design windows and doors are assumed to be shutunder storm conditions, the effect of these being open should betreated as an accidental design situation
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EUROCODESBackground and Applications Section 3 Modelling of wind actions
3.1 Nature
3.2 Representations of wind actions
3.3 Classification of wind actions
(1) Unless otherwise specified, wind actions should be classified as variable fixed actions
3.4 Characteristic values
(1)
Note: All coefficients or models, to derive wind actions from basicvalues, are chosen so that the probability of the calculated windactions does not exceed the probability of these basic values
3.5 Models
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EUROCODESBackground and Applications Section 4 Wind vel. and vel. pres. - 4.2 Basic values
0,bseasondirb vccv ⋅⋅=
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EUROCODESBackground and Applications Section 4 Wind vel. and vel. pres. - 4.2 Basic values
ENV 1991-2-4:1995
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EUROCODESBackground and Applications Norway: Basic wind velocity. NS 3491-4:2002
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EUROCODESBackground and Applications UK: Basic wind velocity. BS 6399-2:1997
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EUROCODESBackground and Applications Faroe Islands – extreme winds
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EUROCODESBackground and Applications Faroe Islands – extreme winds
Vindklima i Danmark og i udlandet 29
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EUROCODESBackground and Applications Faroe Islands – measuring stations
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EUROCODESBackground and Applications Faroe Islands - Glyvursnes
Vindklima i Danmark og i udlandet 37
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EUROCODESBackground and Applications Faroe Islands – basic wind velocities
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EUROCODESBackground and Applications Italy - Messina
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EUROCODESBackground and Applications Southerly winds at Messina – bridge deck height
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EUROCODESBackground and Applications Basis for updated European wind map?
ENV 1991-2-4:1995
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EUROCODESBackground and Applications Climatological changes?
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EUROCODESBackground and Applications Influence of terrain - measured wind velocities
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EUROCODESBackground and Applications Section 4.3 Mean wind
borm vzczczv ⋅⋅= )()()(
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EUROCODESBackground and Applications Section 4.3.2 Terrain roughness
mzzzk
zzkzc
IIII
r
rr
05,019,0
)/ln()(
,0
07,0
,0
0
0
=⎟⎟⎠
⎞⎜⎜⎝
⎛⋅=
⋅=
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EUROCODESBackground and Applications Terrain categories and terrain parameters
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EUROCODESBackground and Applications Annex A: Terrain category I and II
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EUROCODESBackground and Applications Annex A: Terrain category III and IV
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EUROCODESBackground and Applications Annex A: Terrain category 0 – coastal area
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EUROCODESBackground and Applications Coastal area exposed to the open sea
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EUROCODESBackground and Applications Figure 4.1 - Assessment of terrain roughness
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EUROCODESBackground and Applications A.2 Transition between roughness categories
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EUROCODESBackground and Applications A.2 Transition between roughness categories
Procedure 1
If the structure is situated near a change of terrain roughnessat a distance:
- less than 2 km from the smoother category 0- less than 1 km from the smoother categories I to III
the smoother terrain category in the upwind direction shouldbe used.
Small areas (less than 10% of the area under consideration) with deviating roughness may be ignored.
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EUROCODESBackground and Applications A.3 Terrain orography. Figure A.1
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EUROCODESBackground and Applications Section 4.4 Wind turbulence. Turbulence intensity
)/ln(1)(
0zzk
czI I
ov =
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EUROCODESBackground and Applications Section 4.5 Peak velocity pressure, peak velocity
)()(71)(
)(21))(71()( 2
zvzIzv
zvzIzq
mvp
mvp
⋅⋅+=
⋅⋅⋅⋅+= ρ
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EUROCODESBackground and Applications Measured wind velocities
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EUROCODESBackground and Applications Section 5 Wind actions – 5.1 General
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EUROCODESBackground and Applications Section 5.2 Wind pressure on surfaces
peepe czqw ⋅= )(
piipi czqw ⋅= )(
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EUROCODESBackground and Applications Figure 5.1 – Pressure on surfaces
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EUROCODESBackground and Applications Section 7.2 Pressure coeff. for buildings. Figure 7.2
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EUROCODESBackground and Applications Section 7.2.2 Vertical walls. Figure 7.5
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EUROCODESBackground and Applications Section 7.2.2 Vertical walls. Table 7.1
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EUROCODESBackground and Applications Section 7.2.5 Duopitch roofs. Figure 7.8
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EUROCODESBackground and Applications Section 7.2.5 Duopitch roofs. Table 7.4a
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EUROCODESBackground and Applications Section 5.3 Wind forces
refepfdsw AzqcccF ⋅⋅⋅= )(
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EUROCODESBackground and Applications Section 6 Structural factor
6.2 Determination of structural factor
The structural factor may be taken as 1 for
a) buildings with a height less than 15 m
b) facade and roof elements having a natural frequencygreater than 5 Hz
c) framed buildings which have structural walls and which areless than 100 m high and whose height is less than 4 times thein-wind depth
d) chimneys with circular cross-sections whose height is lessthan 60 m and 6,5 times the diameter
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EUROCODESBackground and Applications Annex D Structural factor
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EUROCODESBackground and Applications Annex D Structural factor
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EUROCODESBackground and Applications Annex D Structural factor
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EUROCODESBackground and Applications Annex D Structural factor
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EUROCODESBackground and Applications Annex D Structural factor
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EUROCODESBackground and Applications Section 6 Structural factor. Figure 6.1
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EUROCODESBackground and Applications Section 6.3 Detailed procedure
2
22
2
22
)(71
)(21
)(71)(71
)(71)(21
BzI
RBzIkc
zIBzIc
zIRBzIk
cc
sv
svpd
sv
svs
sv
svpds
⋅⋅+
+⋅⋅⋅+=
⋅+⋅⋅+
=
⋅+
+⋅⋅⋅+=
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EUROCODESBackground and Applications Backgrund turbulence and resonance turbulence
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EUROCODESBackground and Applications Wind vortices versus structural size
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EUROCODESBackground and Applications Procedure 1 (dotted line) versus theory (solid line)
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EUROCODESBackground and Applications Procedure 2 (dotted line) versus theory (solid line)
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EUROCODESBackground and Applications Structural factor. Procedure 1 or 2?
Procedure 2 has a more accurate representation of the theoreticalbackground compared to procedure 1
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EUROCODESBackground and Applications Annex E Vortex shedding
Chimneys
Bridges
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EUROCODESBackground and Applications Annex E Vortex shedding. Bending vibrations
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EUROCODESBackground and Applications Annex E Vortex sheding. Ovalling vibrations
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EUROCODESBackground and Applications Annex E Vortex shedding. Critical wind velocity
Stnb
v
Stnb
v
oiicrit
yiicrit
⋅⋅
=
⋅=
2,
,
,,
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EUROCODESBackground and Applications Vortex shedding. Chimneys
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EUROCODESBackground and Applications Vortex shdding. Chimneys
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EUROCODESBackground and Applications Approach 1 versus approach 2
Approach 1: Vortex-resonance model
Approach 2: Spectral model
Turbulence is an active parameter only in approach 2
E1.5.1 General(3)
Approach 2 allows for the consideration of different turbulenceintensities, which may differ due to meteorological conditions.
For regions where it is likely that it may become very cold and stratified flow condition may occur (e.g. in coastal areas in NorthernEurope), approach 2 may be used.
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EUROCODESBackground and Applications Vortex shedding. Bridge cross section
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EUROCODESBackground and Applications Vortex shedding. Bridge cross section. Approach 1
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EUROCODESBackground and Applications Vortex shedding. Bridge cross section. Approach 2
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EUROCODESBackground and Applications Vortex shedding. Approach 1 or 2?
Approach 2 has a more accurate representation of the physicalphenomenon compared to approach 1