https://birkjackson44.livejournal.com/profile of a Woodburner Stove Wood stoves make use of continuous air flow to produce fire and heat. Fresh air is drawn into the stove via adjustable dampers, which are typically located inside the door of the stove. The exhaust gases are taken through a chimney and safely leave your home. Modern non-catalytic wood stoves rely on secondary combustion for their effectiveness. They will build up creosote, but only when they are not used correctly. Energy Efficiency Modern woodburner stoves have been designed to maximize the efficiency of heating. The combustion process has been designed to burn firewood as efficiently as possible. This means a higher percentage of the fuel is converted into heat and less is wasted in the form of smoke or gas that is not burned. The BTU per hour is the most important aspect to consider when choosing the best woodburner. This figure will give you an idea of the amount of heat the stove can generate and is a good indication of its capacity to comfortably heat your home. When comparing wood stoves, it's also worth looking at the efficiency of combustion and heating transfer efficiency. The efficiency of combustion is a measure of how much fuel is transformed into heat. The heating transfer efficiency is a measure of how well your stove can convert this heat into warmth to warm the air inside your home. Stoves with a catalytic combustion system are able to achieve high levels of combustion efficiency because the combustor burns a portion of the gases released during the initial combustion. This helps clean the exhaust gases and reduces the amount of flammable chimney deposits called creosote. Modern non-catalytic stoves can still be extremely efficient, but they tend to burn slightly more quickly and perform less efficiently at lower temperatures. It is important to remember that the energy efficiency of the stove is only dependent on the quality and condition of the fuel used to power it. It is more be