As I was picking through the remaining dregs of my wood supply yesterday, another question crossed my mind as regards lambda-controlled boilers:
The "fixed setting downdraft" boilers seem to really "shine" when fed with relatively small splits of rather dry wood, and, at least based on my own experience, as well as what I have heard from others-- encounter real handicaps- "bridging" of fuel, failure to achieve or sustain good hot consistent gasification, etc, if wood is on the large size and/ or under-seasoned. My hunch is that under such circumstances, there is an effect where excess air tends to "blow out" the combustion more rapidly than it can build up higher temperatures.
It'd be really intriguing to see tests run with similar wood (size, species, moisture content) with both lambda mode enabled and lambda mode disabled.
IF a lambda-controlled boiler were less prone to "indigestion" with less than ideal wood, that might be a bigger selling point than a few % efficiency.
The "fixed setting downdraft" boilers seem to really "shine" when fed with relatively small splits of rather dry wood, and, at least based on my own experience, as well as what I have heard from others-- encounter real handicaps- "bridging" of fuel, failure to achieve or sustain good hot consistent gasification, etc, if wood is on the large size and/ or under-seasoned. My hunch is that under such circumstances, there is an effect where excess air tends to "blow out" the combustion more rapidly than it can build up higher temperatures.
It'd be really intriguing to see tests run with similar wood (size, species, moisture content) with both lambda mode enabled and lambda mode disabled.
IF a lambda-controlled boiler were less prone to "indigestion" with less than ideal wood, that might be a bigger selling point than a few % efficiency.
