Something that really bothers me about the Canadian Code is when it comes to snow drifts around rooftop mechanical units. The code states it isn't necessary to consider extra snow load if the width of the obstruction is less than (3.0*Ground snow load)/Unit Wt. of Snow.
Here in Winnipeg, this translates into a maximum obstruction width of about 5'-6". Once you get over that width, then the snow load suddenly jumps up to 75 psf max (from 33 psf basic snow load) and the length of drift goes out a minimum of approx. 10'-0" or twice the unit height.
When it comes to replacing rooftop mechanical units on renovation jobs we often end up getting into beefing up the existing structure to handle these drift loads. Then I get the "look" from the architect and mechanical guys like I'm from another planet.
Some questions.....
1. What if one side of the unit is less than 5'-6", but the other side is say 6'-0". Would you only conside drifting on two sides?
2. What about if you had a unit that was 5'-6" by 5'-6". If the wind blows at the corner of the unit then the projected width is now greater than the minimum. Would you only get drifts at the four corners or can you ignore drifting all together?
3. When checking roof design, I usually account for the dead load of the unit plus the basic snow load on top of the unit. Is that right, or would you reduce the snow on top of the unit due to wind scouring?
4. What would the actual drift shape around a mechanical unit look like, with the prevailing winter winds from the northwest? I always assume the full drift load all around the unit but is there any way to reduce it?
Here in Winnipeg, this translates into a maximum obstruction width of about 5'-6". Once you get over that width, then the snow load suddenly jumps up to 75 psf max (from 33 psf basic snow load) and the length of drift goes out a minimum of approx. 10'-0" or twice the unit height.
When it comes to replacing rooftop mechanical units on renovation jobs we often end up getting into beefing up the existing structure to handle these drift loads. Then I get the "look" from the architect and mechanical guys like I'm from another planet.
Some questions.....
1. What if one side of the unit is less than 5'-6", but the other side is say 6'-0". Would you only conside drifting on two sides?
2. What about if you had a unit that was 5'-6" by 5'-6". If the wind blows at the corner of the unit then the projected width is now greater than the minimum. Would you only get drifts at the four corners or can you ignore drifting all together?
3. When checking roof design, I usually account for the dead load of the unit plus the basic snow load on top of the unit. Is that right, or would you reduce the snow on top of the unit due to wind scouring?
4. What would the actual drift shape around a mechanical unit look like, with the prevailing winter winds from the northwest? I always assume the full drift load all around the unit but is there any way to reduce it?