https://www.openlearning.com/u/voigthopkins-sp6wxe/blog/Could5KwWoodBurningStoveBeTheAnswerTo2023SResolving https://k12.instructure.com/eportfolios/923446/home/why-nobody-cares-about-wood-burner-stoves The Benefits of a Woodburner Stove Wood stoves produce fire and heat by using constant airflow. This fresh air is drawn into the stove through adjustable dampers which are typically located inside the door of the stove. The exhaust gases are then pumped up a chimney, safely leaving your home. Modern wood stoves that do not have catalytic technology rely on secondary combustion to increase their effectiveness. However, they will inevitably create creosote if they are not properly used. Energy Efficiency Modern woodburner stoves are designed to maximize heating efficiency The combustion process is being optimized to burn wood efficiently possible. This means that more fuel is converted to heat and less is wasted as gasses that are not burned or smoke. The most important thing to consider when choosing a woodburner stove is the heating output which is measured in BTU per hour. This number gives you an idea of how much heat the stove is capable of producing, and it's normally an excellent indication of its capacity to efficiently heat your home. It's important to compare wood stoves on the basis of their combustion efficiency and heating efficiency. The efficiency of combustion is an indication of how much fuel is converted into heat. The efficiency of heating transfer is an indication of how your stove is able to convert this heat into warmth to warm the air inside your home. Stoves that employ a catalytic combustor are able to achieve extremely high levels of efficiency in combustion, as the combustor is capable of re-burning some of the gasses that escape the initial combustion process. This reduces the amount of flammable creosote in the chimney and helps to clean the exhaust gasses. Modern non-catalytic stoves may be very efficient, but they tend to burn slightly mor