An AirThings monitor will report PM2.5, PM1 and VOC levels. I really recommend this device. I reports a 24-hour average radon level as well. It's about $300.
I have been tracking my PM2.5 and VOC levels and modifying burning techniques this year to understand what I should do differently. I was going to create a new post, but this is a good post to add this info to.
In general, I am finding that less than optimally dry wood definitely impacts PM2.5 and VOC levels more than anything else. These levels can rise to "not good" (but I wouldn't characterize them as "dangerous") levels during some phases of the burn. PM2.5 tends to peak in a short window (sometimes, with wetter wood) of about an hour or so. VOCs increase as coaling stage begins and can increase very rapidly and stay elevated for three to four hours before decreasing. My (average) sense of smell cannot detect these levels, which makes the AirThings monitor helpful to have. If VOCs get to a higher level than I'd like, I open the a window downstairs and a window upstairs to get some extra (additional to the heat-recovery ventilator) air-changes into the house.
PM2.5 I am not too worried about - the peak during during is shorter, doesn't happen all the time, and will happen less as my wood is more reliably 3-years dried, stacked in single rows, and without water penetrating the top cover (I am using better tarps, old EPDM, and old metal roofing material now instead of cheapie big box store tarps that degrade quickly). I have seen higher PM2.5 levels overall in the summertime when I open the windows, and the average levels are low (3 micrograms/cubic meter)- not much more than what I get in the spring and fall with the windows open (1-2 micrograms/cubic meter). Summary:
- A good quality, tight stove and flue pipe system should make PM2.5 levels a moot point if you are burning wood with the forum recommended moisture content.
- It's possible that a welded steel stove (which doesn't have gaskets and fittings like a soapstone or cast iron stove) performs modestly better in this regard.
- Having said that, dry wood seams to resolve 90% of the issues with PM2.5.
- Ash dust is heavy (compared to smoke particles) and settles mostly quickly and nearer to the stove. I don't worry about breathing this at all, but I hate vacuuming it up (please use a good quality HEPA vac to clean this dust!)
I don't like the VOC levels. I find much higher levels for longer periods of time when I have struggled to get the burn up to temperature after a reload (meaning there one or more not dry enough pieces of wood in the stove). Harder/heavier woods will produce higher VOC levels for longer periods of time (not surprising) and less than optimal moisture content for those harder heavier woods exacerbates the problem. Summary:
- Average VOC level in my house (with no offending sources) is about 75 ppb (AirThings reports anything >250 ppb as good)
- During the active burn phase, levels may rise to 150 ppb or 250 ppb, but then reach 500 ppb for 3 hours or so during coaling (typical)
- I have had some really great burns where the wood was really hard (sugar maple, maybe a piece or two of hickory) and at no point during the active burn or coaling did VOC ever exceed 250 ppb.
- I have had some really bad burns where wood was hard and levels rose to >1000 ppb for 5 or more hours. This is always due to a difficult start and getting stove up to temperature (i.e. wet wood). I suspect that the primary contributor is a lot of creosote coating the firebox, which then gets off-gassed when temperatures drop during the coaling stage.
- In some cases, I've opened windows and flushed the house back to <100 ppb and closed the windows (HRV remains on the whole time) and VOC stays low during rest of coaling (i.e., one of the good burns) and other times VOC bounces back up (one of the bad burns). For reference, the HRV operates at about 0.35 air changes per hour (ACH), and the house is very, very tight (~0.6 ACH50, or nearly non-existent natural air changes without the HRV operating).
- I don't expect 75 ppb during a burn but nor do I expect something like 1000 ppb (which AirThings reports as the middle range of a "fair" rating) for 5 or 6 hours.
- People with leaky houses probably never need to worry about this.
Some things I've done differently with my burns to mitigate high VOC levels:
- Obviously, getting even more anal and religious on burning only very dry wood in which most volatiles are just completely consumed during the active burn and wood. is breaking apart and glowing orange during coaling (i.e. smoldering coals are not good for VOC levels).
- Being less restrictive on my primary air setting (i.e., not going to 0 or 0.5 to slow the burn down). 0.75 seems to work pretty well as the lowest point to get a good even burn throughout the firebox at peak burn.
- Paying a little attention to when I am about 15 minutes from the active burn ending and turning the air up to 1.0 AND opening the pipe damper to fully open so that the load doesn't go into a smoldering coals mode
- If it was a wetter wood, problematic burn, maybe getting air to 1.5 earlier than I would normally set it to 1.0 to just encourage it to burn volatiles before entering cool-down coaling phase.
- Big, squared-off splits at the back of the stove (where air can't reach and burn the wood very well) and a load with one big piece and all other pieces smaller isn't so good. I have started to put a piece of bark or something on the back of the stove before putting a squared-off piece against and this seems to help that back piece burn better with better coaling at the end of the burn. And using more consistent pieces so they are all at an even level of coaling when the active burn is over.
- I really do think one really bad burn just puts so much creosote into the stove that it takes a good burn to get rid of it (some really good burns following a bad burn still have higher than expected VOC emissions, and I think it is burning off the remnant creosote from the inside of the stove).
- I hate having to pay all this attention to this and have a belief that next year will be better for VOCs with even better, more consistently dry wood.
I realize the above is a lot of info. Hope it is helpful to others.
