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Calcs.com
EN 1991-1-4:2005

Site Wind Pressure

Enter a project address and peak velocity pressure qp is calculated automatically to EN 1991-1-4:2005 - no wind atlas or manual lookup required. Supports UK, Sweden, Denmark, Norway, and Ireland National Annexes, with Significant Orography effects included. Wind pressure outputs link to EU structural calculations in the same project.

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What it calculates

Calculates site peak velocity pressure qp to EN 1991-1-4:2005 from the project address or coordinates. Supports National Annexes for UK, Sweden, Denmark, Norway, and Ireland, with Significant Orography effects calculated automatically.

Code standards

  • EN 1991-1-4:2005

How it calculates

The Site Wind Pressure calculator follows the EN 1991-1-4:2005 procedure to derive the peak velocity pressure qp at a given reference height, using the project address or coordinates to source wind speed and altitude data automatically.

Inputs and configuration

Site location - Project latitude, longitude, and altitude are read from Project Defaults when you enter an address or coordinates. For supported National Annexes, the fundamental basic wind velocity vb,0 and altitude correction parameters are sourced from the corresponding wind maps without manual lookup.

National Annex - Select from UK (BS EN 1991-1-4), Sweden (EKS/BFS 2024), Denmark, Norway, or Ireland. For any other NA, use "Other / Manual" mode and enter the peak velocity pressure directly.

Height and terrain - Reference height above ground z (m) and displacement height h_dis (m) define the effective height z - h_dis used in roughness calculations. Terrain category (0 to IV for UK; I to IV for other NAs) sets the roughness length z0 and minimum height zmin from Table 4.1. Both can be auto-detected from GIS data or set manually.

Season and directional factors - Season factor c_season (default 1.0) and directional factor cdir (from the NA or default 1.0) scale the fundamental wind velocity. Orography tables per wind direction sector are available for sites in Significant Orography regions.

Calculation chain (EN 1991-1-4:2005)

Step 1 - Basic wind velocity (Cl 4.2)

vb = cdir x cseason x vb,0

where vb,0 is the fundamental basic wind velocity from the NA wind map for the project location.

Step 2 - Terrain roughness (Cl 4.3.2, Table 4.1)

The terrain factor kr, roughness length z0, and minimum height zmin are taken from Table 4.1 for the selected terrain category. The roughness factor at height z is:

cr(z) = kr x ln(z / z0) for z ≥ zmin

where kr = 0.19 x (z0 / z0,II)^0.07 and z0,II = 0.05 m (Terrain Category II reference).

Step 3 - Turbulence intensity (Cl 4.4)

Iv(z) = kI / (co(z) x ln(z / z0))

where kI is the turbulence factor from the National Annex (default 1.0) and co(z) is the orography factor.

Step 4 - Mean wind velocity (Cl 4.3.1)

vm(z) = cr(z) x co(z) x vb

Step 5 - Peak velocity pressure (Cl 4.5)

qp(z) = (1 + 7 x Iv(z)) x 0.5 x rho x vm(z)^2

where rho is the density of air (1.25 kg/m3 default). This is equivalent to:

qp(z) = ce(z) x qb

where qb = 0.5 x rho x vb^2 is the basic velocity pressure and ce(z) is the exposure factor combining roughness and turbulence.

Orography factor (Annex A.3)

When the site lies within a Significant Orography region (upwind slope greater than 0.05 per Cl 4.3.3), the orography factor co is computed per Annex A.3 for each wind direction sector. The calculator evaluates the shape factor s and the effective upwind slope phi, then applies:

co(z) = 1 + 2 x s x phi for hills and ridges (co ≥ 1.0)

A per-direction table of peak velocity pressures is produced and the governing maximum qp is reported as the design value.

Output and assumptions

The primary output is Maximum Peak Velocity Pressure qp (kN/m2), tabulated by wind direction and used directly as the characteristic wind action in EN 1991-1-4 external and internal pressure calculations.

Key assumptions:

  • No allowances for local wind accelerations (edge effects or funnelling) - see EN 1991-1-4 Cl 4.3.4 and relevant NA clauses
  • Torsional effects from asymmetric wind forces are not considered (Cl 7.1.2)
  • Only listed National Annexes are fully supported; for any other NA, use "Other / Manual" mode

What engineers say

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Previously, with other softwares I would use, I'd have to analyze the beam, go look at the beam, write down the reactions: dead load, roof line load, floor load, wind, etcetera. Take all those, apply those to the column... Now with load...

Matt Ward

Principal Engineer, Ward Engineering

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Structural Engineer

Frequently asked questions

What standard does this calculator use?
The calculator follows EN 1991-1-4:2005 (Eurocode 1 Wind Actions), including the relevant National Annex for the selected country. Supported National Annexes are: UK (BS EN 1991-1-4), Sweden (EKS/BFS 2024), Denmark, Norway, and Ireland. For any other National Annex, set the mode to 'Other / Manual' and enter the peak velocity pressure directly.
What are the key inputs?
The site location (latitude, longitude, and altitude) is read automatically from Project Defaults when you enter a project address or coordinates. Other inputs include: National Annex selection, height above ground z (m), displacement height h_dis (m), terrain category (auto-detected from GIS data or set manually), and season factor c_season. Orography parameters for each wind direction sector are available for advanced users when Significant Orography applies.
What does the calculator output?
The primary output is the Maximum Peak Velocity Pressure qp (kN/m2), tabulated by wind direction sector. Supporting values shown include base wind velocity vb, terrain roughness factor cr(z), turbulence intensity Iv(z), exposure factor ce(z), and orography factor co(z). These values feed directly into external and internal pressure calculations per EN 1991-1-4 for building design.
Which National Annexes are fully supported, and what happens for others?
UK (BS EN 1991-1-4 NA), Sweden (EKS/BFS 2024), Denmark, Norway, and Ireland are directly supported - base wind speed, altitude correction, and directional factors are sourced from the corresponding wind maps automatically. For any other country, set the National Annex to 'Other / Manual' and enter the peak velocity pressure qp directly. The calculator then applies terrain, orography, and height corrections on top of that manual input.
How is Significant Orography handled?
When the site lies within a Significant Orography region (upwind slope greater than 0.05 per EN 1991-1-4 Cl 4.3.3 and Annex A.3), the orography factor co is computed for each wind direction sector. The calculator builds a per-direction table of qp values and reports the governing maximum. For UK projects, the Significant Orography boundary is determined automatically from GIS data. No allowances are made for local wind accelerations such as edge effects or funnelling - see EN 1991-1-4 Cl 4.3.4 and the relevant National Annex.
Can wind pressure link to structural calculations in the same project?
Yes - wind pressure outputs can be linked directly to EU beam, column, and member calculations in the same Calcs.com project. When you update the site location, terrain category, or height, all linked structural calculations update automatically. This removes manual re-entry of wind loads between calculations and ensures the structural design stays consistent with the wind assessment.

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