This is more of a theoretical question because I can't change my outside temperatures. Anyhow, I live in a relatively mild climate (near freezing is a cold winter morning, more often upper-mid 40s and wet), but I read reports about how people's stoves take off in cold weather. When nerding out on Gulland's webpage (http://www.gulland.ca/fhs/temperature.htm ) about drafts, he has a chart for pressure differences for different temperatures differences (average stack temperature vs. outside temperature) for different stove heights. Below is a graph of his chart's table for a 20 foot stack (perhaps relative to midpoint of house pressure?)
Anyhow, doing a bit of interpolation, I plugged in the difference between 300 degrees ( stove pipe averaging 350 degrees, outside 50 degrees, 350-50=300) and 350 degrees (stove pipe averaging 350 degrees, outside 0 degrees , 350-0=350). My estimates for pressure differences were 28.1 and 31.4, respectively. Is that a big difference? Or is it an issue of circular feedback where a little extra draft increases air, which increases fire heat, which increases the draft further.
I do see that the effect of the delta in temperature is greatest for the lower values, and I have no real idea what is the "average" value of my stack temperature.
Sorry if I made your head hurt. It's just something I'm curious about.
![[Hearth.com] Outside temperatures and effect on draft](https://www.hearth.com/talk/data/attachments/253/253340-9e00e9ae197ccce4bf99480bc993f1bc.jpg?hash=wC-JzuFOUO "[Hearth.com] Outside temperatures and effect on draft")
Anyhow, doing a bit of interpolation, I plugged in the difference between 300 degrees ( stove pipe averaging 350 degrees, outside 50 degrees, 350-50=300) and 350 degrees (stove pipe averaging 350 degrees, outside 0 degrees , 350-0=350). My estimates for pressure differences were 28.1 and 31.4, respectively. Is that a big difference? Or is it an issue of circular feedback where a little extra draft increases air, which increases fire heat, which increases the draft further.
I do see that the effect of the delta in temperature is greatest for the lower values, and I have no real idea what is the "average" value of my stack temperature.
Sorry if I made your head hurt. It's just something I'm curious about.
