Efficient wood Gas Kiln Firing How kilns work best.

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Presentation transcript:

Efficient wood Gas Kiln Firing How kilns work best

Perfect Combustion When exactly 2 Oxygen atoms are present for each carbon atom, neutral (or perfect) combustion occurs, creating carbon dioxide and heat.

Air is a combination of approximately 75% nitrogen and 25% oxygen by weight. Unlike oxygen, the nitrogen does not react (combust) but it still absorbs a portion of the heat and therefore creates a cooler flame.

When excess oxygen is present in the kiln, it plays no part in combustion. However, it does absorb heat energy that would otherwise help fire your ware. In this way, it does contribute to fuel consumption.

Oxygen to burn fuel on an artist’s kiln comes from the air. The air, however, is not all oxygen. Rather, it is far from it. By weight, air is approx. 77% nitrogen and 23% oxygen. What this means to the artist is that for every ONE pound of oxygen from air that is heated to kiln temperature to burn fuel in a kiln, THREE pounds of nitrogen have to be heated to kiln temperature. This is why using ‘excess’ oxygen is expensive. Using a minimum amount of excess air in an oxidation firing saves both energy and money.

When an excess of carbon (fuel) or a shortage of oxygen (air) is introduced, incomplete combustion takes place. Carbon monoxide (as opposed to carbon dioxide) is produced along with heat, though not as much as would be produced during complete combustion. The carbon monoxide then looks for more oxygen, which it takes from the oxides in the clay and glaze in the kiln. This is also the reason yellow flames shoot out through spy holes when a kiln is in reduction – the carbon-rich fuel is following the oxygen supply.

Oxidation Atmosphere A mixture of fuel and air where there is a significant excess of oxygen from the air relative to the fuel; defined (somewhat arbitrarily) as more than 3% excess oxygen.

Neutral Atmosphere A theoretical mixture of fuel and air where there is a perfect balance between the amount of fuel and the amount of oxygen from air necessary to burn that fuel.

Reduction Atmosphere A mixture of fuel and air where there is more fuel present than is oxygen from the air to burn the fuel. For complete combustion to occur in a reducing atmosphere, the fuel must react with all the oxygen from the incoming air and with oxygen from other sources. For a ceramic artist, the other sources of oxygen are oxides and iron and/or copper in the ware being fired, as those oxides are reduced.

Reduction, Neutral and Oxidizing flames

Wood gas combustion (syngas) The main reaction that produces syngas, steam reforming, is endothermic with 206 kJ/mol methane needed for conversion.steam reformingendothermic The first reaction, between incandescent coke and steam, is strongly endothermic, producing carbon monoxide (CO), and hydrogen H 2 (water gas in older terminology). When the coke bed has cooled to a temperature at which the endothermic reaction can no longer proceed, the steam is then replaced by a blast of air.water gas The second and third reactions then take place, producing an exothermic reaction - forming initially carbon dioxide - raising the temperature of the coke bed - followed by the second endothermic reaction, in which the latter is converted to carbon monoxide, CO.exothermic reaction

The overall reaction is exothermic, forming "producer gas" (older terminology). Steam can then be re-injected, then air etc., to give an endless series of cycles until the coke is finally consumed. Producer gas has a much lower energy value, relative to water gas, due primarily to dilution with atmospheric nitrogen. Pure oxygen can be substituted for air to avoid the dilution effect, producing gas of much higher calorific value.

When used as an intermediate in the large- scale, industrial synthesis of hydrogen (principally used in the production of ammonia), it is also produced from natural gas (via the steam reforming reaction) as follows: CH4 + H2O → CO + 3 H2In order to produce more hydrogen from this mixture, more steam is added and the water gas shift reaction is carried out:

CO + H2O → CO2 + H2The hydrogen must be separated from the CO 2 to be able to use it. This is primarily done by pressure swing adsorption (PSA), amine scrubbing, and membrane reactors.