When a pressure of 0.87 kPa is applied on the structure to calculate wind loads using the wind simulation wizard I am getting results in excess of 0.87kPa which is approx 1.0 to 1.25 kPa
Hi @Rahul.JyothulaLR5EC ,
Did you check the Wind Profile settings?
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Roman Zhelezniak
Robot Evangelist & Passionate Civil Structural Engineer
Well, it seems something strange here... I have attached the simple test model, the wind load assigned as a wind pressure 1 kPa, area of the wall 15m2, and default wind profile (with factor 1). It is assumed that the horizontal reaction will be 15 kN, however, Robot gave me x2 times more:
Dear @okapawal and @Krzysztof_Wasik please have a look
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Roman Zhelezniak
Robot Evangelist & Passionate Civil Structural Engineer
Hi @Romanich
As far as I understand it wind simulation in Robot is based on CFD analyis (fluid flow simulation).
Defining wind pressure profile means that in space with no obstacles air flows with constant pressure (which can be recalculated to its constant velocity).
So pressure is recalculated to air velocity then in that space with constant velocity/ pressure, obstacle is placed. Obstacle geometry changes air flow (initial pressure/speed distribution) and results in modified wind pressure generation on its (obstacle) surfaces.
Having constant pressure profile means having constant wind velocity in empty space, but does not mean that pressure (defined as the profile) will be applied 1 to 1 to obstacle surfaces.
If it would be so easy, it would be enough to apply pressure directly to obstacle surface (as area loads) with no use of wind simulation module.
Just to think about....generally the wind drag factor to walls is around 2.
Hi @Krzysztof_Wasik ,
I have prepared another test model to check the drag coefficients.
In theory, the ratio between reactions should be close to the ratio between the abovementioned drag coefficients, i.e. 0.8/1.05 = 0.76
Comparing reactions (SQR(20.6^2+20.6^2))/39.8=0.73
Results are very close to each other and based on this simple test we can conclude that the wind simulation is working fine 🙂
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Roman Zhelezniak
Robot Evangelist & Passionate Civil Structural Engineer
I understand that pressure can not be applied 1 to 1 to obstacle surface. when I compare with euro code EN 1991-4-4;2005, there is a external pressure coefficients (Cpe) which will be multiplied to the pressure depending upon windward or leeward side.
From the table above, for side D which is the windward side the values Cpe is always less than 1. which states that the applied pressure on the side D is always less than the pressure due to wind.
Please clarify.
Robot wind simulation module does not use Eurocode approach (cpe coefficients are not calculated as in the code), but CFD simulation method, so you cannot also expect 1 to 1 results as in the code.
Regardless that, code approach refers to the following obstacle shape.
while in your case obstacle has shape as below (where effect of positive and negative pressure will be bigger that for building shape (d>0) considered in the code).
In that case you cannot consider pressure on side D only (positive pressure) but also pressure on side E (negative pressure). This cumulative effect is simulated in Robot
Hi @Krzysztof_Wasik,
My point is that, the results from both the methods, CFD (Robot wind simulation) and Codal practices should match with small difference.
Even Euro code considers negative pressure effect, as shown below
There are no openings in the panels so, there will be little to no internal pressure.
My case is a proper building like shown below,
and not this,
Your efforts are appreciated.
If only there was some way for Autodesk to communicate how to use this tool properly.
Please, reveal us the final resulted coefficient that should be used in Eurocode to this specific case. Also show us the comparison between that and the response on Robot.
RSA wind simulation calculates wind pressure on windward side as 1.25kPa for a Peak velocity pressure of 0.87 kPa, shown in the image below,
and As per Eurocode the wind pressure calculated is following,
Dimensions of my building is D x d x h : 25.2 x 8.45 x 6.5
For, h/d = 6.5/8.45 = 0.77
Zone D which is my windward side of the building Cpe is 0.77 from the above table and Cpi of -0.3
The net wind pressure acting on the windward side D is 0.87 x 0.77 - 0.87 x -0.3 = 0.93 kPa
In conclusion my findings are,
For peak velocity pressure of 0.87 kPa, RSA calculates wind pressure as 1.25 kPa and wind pressure manually calculated as per Euro code is 0.93 kPa.
Please find the Robot file attached.
Thanks in advance.
Hi @Rahul.JyothulaLR5EC ,
I’ve checked your case based on the formula 5.3 from Eurocode:
CsCd=1,
qp(Ze)=0.87 kPa
According to the formula 7.9
From the Figure 7.23 Cf0=2. From figure 7.36 Ѱλ approximately 0.68 (this is a biggest bottleneck how to find the “right” λ value, I've got λ =7.1). Cf = 2 * 1 * 0.68 = 1.36
The pressure:
Cf * qp = 1.36 * 0.87 = 1.18 kPa vs 1.25 kPa in Robot
By the way, changing Ѱλ to 0.71 will give exact 1.25 kPa pressure
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Roman Zhelezniak
Robot Evangelist & Passionate Civil Structural Engineer
Apologies for delayed response,
I think, Force coefficient should only be used for structural elements,
Let me know your thoughts.
Thank you.
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Roman Zhelezniak
Robot Evangelist & Passionate Civil Structural Engineer
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