When calculating it using ASCE 7-02
Cat II = surface roughness C
=> alfa=9.5 and zg=900ft
=> for z=20m or 65.6ft i get Kz=1.158
For I=1, Kd=0.95 (for tanks) and Kzt =1 (flat terrain)
i get V=45m/s from back calculuting it via
qz = 0.00256 Kz KZl Kd V²[ (lb/ft2)
Somebody any comments on this?
Thx for your reply HTURKAK
I'm still not convinced and the reason is also the answer to your question:
Because there is no reference what so ever to ASCE in the EN14015. As a result the designers are simply left to guessing on what is required here for input.
Unfortunately this not only the...
Dear HTURKAK,
1)I don't think the basic windspeed is equal to the 3sec gust factor...
As per API 650 §5.2.1. k) 4)
"The fastest mile wind speed times 1.2 is approximately equal to 3-sec gust wind speed (V)."
If i look at the definition of the basic windspeed it is a windspeed averaged over...
Hturkak, thx for your reply but I did actually look at the EN14015.
There is no guidance what so ever in the EN14015 on what the windspeed should be. The only thing §7.2.10 does, is say that it shall not be less than 45m/s and that the 3second gust wind speed should be used.
Unfortunately there...
I think i have an answer to my question although it gives me more issues:
- When forces are required such as uplift/overturning(API650 §5.11) and tank anchorage (§5.12) i should use the wind force on structure
- When pressure is required such as in wind girder design and external pressure (annex...
As eurocode seem to define two windloadings in §5.1 of EN1991-1-4:
-Wind forces on structures, e.g. for overall wind effects
-Wind pressures, e.g. for cladding, fixings and structural parts
Does anybody has an idea of what windspeed/pressure is required to be used when checking an API tank...
Does anybody has an explanation on the outcome of SIF being different when calculating it using the FESIF module and nozzle pro module of PRG?
For example following input:
- Run 6" sch 40S
- Branch 2" sch 40S
- Branch angle 45°
Output:
Nozzle pro SIF for the run : ii=1.6 ; io=0.5 ; it=1.69 ...
Are you asking " Can I further bend an existing cold bend??"
The answer is yes.
Pipes (diameter 24") are cold bend to a certain radius (lets say 260m), welded together and subjected to a load which will induce a bending moment (in this particular case during installation).
For simplicity sake...
Thanks KevinNZ but my question actualy was
- Does a cold formed bend react on the same way as a straight pipe?
- What is the bending limit on a pipeline containing cold formed bends?
- Any code references?
Does someone has an idea what the maximum is that i can bend a cold formed bend, bearing in mind that there is no opportunity to check for wrinkles or minimum wall thickness.
Or is the answer simply no additional bending stress/strain allowed.
Any reference to known acknowledged codes might...
Hi everybody,
Is it required to check the strength of the welds, per paragraph 5.7.2, for shell nozzles when they comply with the figures an tables of API650?
Thanks
Because there might be other standards to consider as well, using the teams high/intermediate/low strength bolting.
As long as there are no contradictions i’m already happy
Small big detail, the manufacturer of the pressure equipment needs to show compliance to the PED. If you are not the manufacturer i’m not sure If that is wise because you will need to takeover the manufacturers responsability.
Unless you buy of course a PV incl CE mark (if PED is applicable...
The CE marking is for the pressure equipment. Attached are the supports ho will influence shell stress. The nobo will/should focus on this rather than checking the complete support design itself. Mind you that this line is sometimes difficult to draw.
The same phylosophy should apply for...
DSB123,
You are correct I misread the first part. Note that material requirements is also under annex 1 being the ESR's.
Answer to Q2.1 is not ambiguous. EN13445 will state that you require a PMA or... If you follow EN13445 from start to finish you are in compliance with the PED even when you...
