How to Improve your Stove

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Short Description

The following concepts describe how you can improve your stove in terms of efficiency. There are different aspects which will be analyzed because one can do more than just insulate the combustion chamber.

Clean burning

In the combustion chamber wood or other biomass is turned into heat. A good chamber is when this process does not create much smoke or creosote (condensed wood tars). Complete combustion of wood results in two byproducts: carbon dioxide and water vapor. In contrast, incomplete combustion creates unburned particles that cause pollution and creosote that fills chimneys and can cause chimney fires if it ignites. Nearly complete combustion in a wood burning stove can be achieved by doing the following things:

1.) Metering the fuel.
Cutting wood up into smaller pieces and feeding them at a proper rate into the fire as they are consumed.
2.) Making a hot fire.
Creating a combustion zone where fuel, flame and air are mixed by turbulence, at a high enough temperature, for a long enough time to completely combust. Combustion temperatures must be hot enough to assist burning all escaping gases released from the wood.
3.) Insulating the combustion chamber.
Insulation helps to keep temperatures high.
4.) Igniting escaping smoke.
Passing smoke, which is un- combusted fuel, through a flame.
5.) Providing sufficient oxygen.
Starving the fire slows it, cools it down, and produces smoke.
6.) Warming and increasing the velocity of the cold air entering the fire.
Air is warmed as it passes through a small opening into the combustion chamber. For systems without a fan, make enough small holes under the door into the combustion chamber so the holes have as much cross-sectional area as the chimney exiting the stove. Position the holes so that primary air is sucked into the coals and up into the combusting wood. Do not allow the user to block the holes reducing primary air. Blocking the necessary amount of air will create pollution. The rate of burn in a heating stove should be determined by the amount of fuel in the combustion chamber, not by shutting off air to the fire.
7.) Forming a grate out of the firewood.
Sticks burning close together heat each other and keep the temperatures high. The pattern should be stick, air, stick, air, with even spaces between the sticks.
8.) Creating sufficient draft.
Use a tall enough chimney or better yet a small fan. An insulated chimney creates a lot more draft than an un- insulated chimney. High velocity, low volume jets of hot air entering under the fire, up though the coals, create mixing which reduces emissions. Do not use a damper in the chimney. Design the stove to run efficiently with enough air entering and leaving the stove to burn fuel cleanly.

Complete combustion cannot occur when starting a stove because the combustion chamber is too cold. An insulated combustion chamber will heat up more quickly and then, when burning metered amounts of biomass, make less smoke. Throwing a big log on the fire, however, always makes smoke. The log cools the fire and releases more pyrolysis gasses that overwhelm the available air and are too cold to be combusted. Without enough air, wood cannot burn cleanly. The size of the air inlets into the fire should add up to be about as large as the chimney exiting the stove. The power level of the stove should be set by the wood loading rate, not the air flow. When users try to control the power of the stove by shutting off air to the fire they can send horrible plumes of smoke out of the chimney. A stove must have enough air to function efficiently.

Different stove types
Heat exchangers
Insulating the combustion chamber
Insulating your house

References and Further Reading

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