MacG wrote:This little baby does over 70% efficiency without grating, and it's clean burning. I have lived with it and know what it's capable to. The people at J?tul are masters at what they do.
Yes, I've seen that there are some manufacturers making stoves without gratings, what I want is someone to explain in practical/scientific terms why this is a good idea. I'm assuming there can't be a "correct" answer to whether you have a grating or not, as there are obviously some made with them, and some without, all designed by people who should know what they're doing (though I've personally seen more designs
with a grate). I know the reasons for having a grate, I'd just like to hear the reasons for not having one.
I've had a look around on the net, and found these so far:
http://www.hedon.info/goto.php/DesignPr ... ientStoves
Elevate the fuel and distribute airflow around the fuel surfaces. When burning sticks of wood, it is best to have several sticks close together, not touching, leaving air spaces between them. Particle fuels should be arranged on a grate.
So by a "particle fuel", this author probably means coal, charcoal or woodchip. When he's talking about burning sticks, he's thinking of the Rocket stove (see earlier post). However, the stoves we use here (I think) don't keep the fuel spaced out with air gaps between them. I wonder if these design differences are because we buy wood in bulk, while the people using a Rocket stove may have to walk miles to collect it by hand off the ground? I imagine this makes them much keener to only burn the wood they need (for cooking in this case), and no more.
A slightly more radical design of stove is here:
http://www.woodgas.com/Woodgas%20stove.pdf
I think it's advantages are more to do with cleanliness than anything else, as it's intended to be used indoors without a chimney.
This one, at last, has some explanation of the use of an ash bed:
http://www.plan.aau.dk/~ana/Education/Wood6.pdf
A special characteristic of ash is its heat conservation property. For wood stoves, the ash layer at the bottom of the stove forms a heating surface, transferring heat to the final burnout of the char. For heating systems using a grate, the ash content is important in order to protect
the grate against heat from the flames.
This makes some sense - the ash can absorb heat and re-radiate it to the char to keep it hot enough to burn. However, having done some practical lab experiments with this kind of thing, and given that most manufacturers (esp for developing countries) are using grates, it seems to me that it's a case of balancing several factors. For example, having a bed of ash might improve the insulation at the base of the fire and so assist char burning, but it will make the supply of sufficient air more difficult to achieve. There seems to be a tradeoff here, and different designs approach it in different ways, and could all be equally efficient, whether they use a grate or not.
Some of the key points I've seen from my course and the above links are:
- dry the wood before burning it. If your stove is designed so it can heat some wood, say using heat from the exhaust, that's a big advantage.
- make sure the stove design causes turbulence in the flames - this helps improve combustion of the pyrolysis gas products.
- make sure there is sufficient airflow, but provide a means of restricting it.
- design the stove so wood can be fed in gradually, so you only burn the fuel you need to for what you are doing.
- use the residual heat in the exhaust gasses for cooking (I've seen stove designs that give you 2 or 3 hot plates at differing temperatures, and they're built from clay and cow manure!)
I realise that the developing country stove designs are very different to the ones we have here, but they are often elegant in their simplicity, and have the advantage that you could build them in your back garden with just a few scavenged bits of metal.
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