https://www.fireplacesandstove.com/categories/wood-burning-stoves The Benefits of a Woodburner Stove Wood stoves employ constant air flow to generate fire and heat. The dampers are typically located within the door of the stove. They permit fresh air to be drawn in. The exhaust gases are then pumped up an chimney, leaving your home. Modern non-catalytic wood stoves rely on secondary combustion to increase their effectiveness. They will accumulate creosote, but only if they are not properly used. Energy Efficiency Modern woodburner stoves are engineered to maximize efficiency in heating and the combustion process being designed to burn firewood in the most efficient way possible. This means that more of the fuel is converted to heat, and less of it is wasted in the form of gasses that are not burned or smoke. The most important factor to take into consideration when selecting a woodburner stove is its heating output that is measured in BTU per hour. This figure will give you an idea of the amount of heat the stove can generate, and it's normally an excellent gauge of its capability to efficiently 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 how much of the fuel is converted into useful heat, while the heating transfer efficiency is how the stove can convert that heat to warm air in your home. Stoves that employ catalytic combustor may achieve very high levels of efficiency in combustion, as the combustor is able to re-burn some of the gasses that escape the initial combustion process. This helps to reduce the amount of creosote that is flammable in the chimney, and also cleans the exhaust gases. Modern non-catalytical stoves remain highly efficient. However they tend to burn hotter and perform worse at low temperatures. It is essential to keep in mind that the efficiency of energy that a stove can attain is contingent on the condition and quality of