Hello,
I'm currently reviewing an existing above ground API-650 steel water storage tank to determine the level of protection that will need to be provided to account for tornado winds.
API-650 provides equations for the determination of the maximum height of the unstiffened shell. Pretty simple. However, am I correct to assume that the equation considers the tank to be empty?
If I'm trying to protect a tank that's full, and keep it full, is there any way to account for the internal water pressure as counteracting the wind pressure?
My thought is to do the following: Referring to the 2007 edition of the standard, Section 5.9.7.1 provides an equation for the maximum height that contains a design wind speed (V) factor. Halfway down the same page is the equation for velocity pressure which also contains the wind speed (V) factor. Could I adjust the velocity pressure by subtracting the internal water pressure, recalculate the "effective" wind speed, and use the effective wind speed to calculate the allowed tank height?
Sorry, this isn't a very well phrased question. Not sure how else to ask, though.
I'm currently reviewing an existing above ground API-650 steel water storage tank to determine the level of protection that will need to be provided to account for tornado winds.
API-650 provides equations for the determination of the maximum height of the unstiffened shell. Pretty simple. However, am I correct to assume that the equation considers the tank to be empty?
If I'm trying to protect a tank that's full, and keep it full, is there any way to account for the internal water pressure as counteracting the wind pressure?
My thought is to do the following: Referring to the 2007 edition of the standard, Section 5.9.7.1 provides an equation for the maximum height that contains a design wind speed (V) factor. Halfway down the same page is the equation for velocity pressure which also contains the wind speed (V) factor. Could I adjust the velocity pressure by subtracting the internal water pressure, recalculate the "effective" wind speed, and use the effective wind speed to calculate the allowed tank height?
Sorry, this isn't a very well phrased question. Not sure how else to ask, though.