https://riberbusk19.livejournal.com/profile The Benefits of a Woodburner Stove Wood stoves use continuous air flow to produce heat and fire. The dampers are typically located inside the stove door. They let fresh air to flow into. Exhaust gases are then dragged upwards through an chimney, leaving your home. Modern wood stoves that are not catalytic rely on secondary burning to be efficient. However, they'll eventually build up creosote if not used properly. Energy Efficiency Modern woodburner stoves are designed to maximize heating efficiency. The combustion process has been optimized to burn firewood as efficiently as possible. This means a higher percentage of the fuel is converted into heat, and less goes to waste as smoke or unburned gases. The most important aspect to consider when choosing the best woodburner stove is heating output that is measured in BTU per hour. This figure will give you an idea of how much heat the stove can produce and is a good gauge of its capability to efficiently heat your home. It is crucial to evaluate wood stoves based on their efficiency in combustion and heating efficiency. The combustion efficiency is an indication of how much fuel is transformed into heat. The heating transfer efficiency is an indicator of how well your stove converts this heat into warmth to warm the air inside your home. Stoves that employ catalytic combustor may achieve very high levels of efficiency in combustion because the combustor is able to re-burn some of the gasses that have escaped the initial combustion process. This helps reduce the amount of flammable creosote in the chimney and cleans the exhaust gases. Modern non-catalytical stoves are still very efficient. However they tend to burn more hot and perform worse at low temperatures. It's worth bearing in mind that the efficiency of energy used by a stove is only as good as the quality and condition of the fuel that powers it. It is best to utilize dry and seasoned wood over green wood which has m