PRI New Zealand (Koanga Institute)
PRI New Zealand (Koanga Institute)
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Commenced:
01/01/1987
Submitted:
03/08/2011
Last updated:
07/10/2015
Location:
96 Kotare Road, Wairoa, Hawkes Bay, NZ
Phone:
+64 6 8386269
Website:
www.koanga.org.nz
Climate zone:
Mediterranean





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Rocket Stove Nitty Gritty

Project: PRI New Zealand (Koanga Institute)

The first post on the rocket oven left many with more questions than they started with so this is a follow up to cover some aspects in more detail. It would probably help to re read the first article and my replies to comments as I'm just going to forge a

Rocket Stove FireTim Barker November 1 2012

The first post on the rocket oven left many with more questions than they started with so this is a follow up to cover some aspects in more detail. It would probably help to re read the first article and my replies to comments as I'm just going to forge ahead with more detail on the design.

On my first design I was prepared, even expecting to have to modify things to get it to work properly. One fundamental question I had was how small the rocket oven cross section could be and still do the job.

I consciously made the decision to start with the smallest cross section I thought would work which just happened to coincide with some square section steel I had lying around. This was 90 mm square ( 3.5 inches). The plan was then to work my way up in size as needed. It's a good idea and simplifies construction if you keep the cross section constant all the way through the rocket stove part of the design ( feed tube ,burn tunnel ,heat riser) this reduces turbulence  and restrictions where you don't want them.

Now the fundamental concept of a rocket stove is that you want to get complete combustion of the fuel before you even think about using the heat generated, so it's important to insulate the feed tube ,burn tunnel and heat riser. In my first stove I used perlite and or vermiculite, these are readily available from gardening shops and are used as water retaining additives but being mineral based and light also make very good high temperature insulators. I then welded up my rocket stove elbow or J tube and made an enclosure out of blocks and old bits of tin to contain the perlite which I then poured in around the J tube, please note that the dust from perlite while not poisonous is irritating to the lungs so wear some sort of dust mask. On the latest design  I used a 50/50 mix of fine sawdust and clay and while not perfect is a good low tech compromise. In that design I put on a thin layer and then wrapped everything in some old chicken mesh and added another couple of layers to build up to about 50 mm thick all over, it then helps to let the mix dry out a bit before firing up. Of course you won't, so just like us  you will have a mini mount Vesuvius blowing steam, hot mud, and smoke out.

Anyway back to the burn tunnel size of 90 mm, much to my surprise this worked perfectly straight away. Two things though, the smaller the burn tunnel cross section the harder it is to light( until of course you get the hang of it) and the second was that for cooking those things that required a lot more heat than normal ( read pizza)  it was a bit slow . What didnt help either was that everyone was always opening  the door to check out how it works  so the poor old oven was struggling when we had pizza nights and people over. Where you are cooking for the average family these problem don't occur but I always said the next one would have a bigger tunnel. The current stove uses a 110 mm cross section  and this is more than enough fire power for anything you could wish to cook ( does great pizza).

You will notice in the diagram something called a diffuser plate, this is to even out the heat as it comes into the oven, without this the heat blasts up in a concentrated spot directly above the heat riser outlet so anything you have in the oven  will tend to burn on the bottom. In the institute stove the high tech diffuser is an old cake tin sitting on the lowest rack. My old stove used a small steel plate propped up on some rocks ( again high tech!).

As the institute oven is inside all combustion gasses leave via a flue than exits from the bottom edge of the oven. In theory having the exit low will conserve more heat in the oven . If the exit was on top the gasses would rush straight through, now we have some stratification of the heat with the cooler gasses being at the bottom. In the photo you can see our hi tech elbow to connect the oven to the pre existing flue from and old wood heater, this was constructed out of two home brew beer cans that just happened to be the perfect size. While its not been added yet I have plans to install an adjustable baffle plate as in the diagram so as to experiment with having more control of the gas flow rates through the oven. So far it seems that contrary to what you might think slowing the fire down by baffling it seems to increase the temperature of the oven while reducing wood consumption. It's my belief that this is due to a better air / fuel ration as the oven draws in more air than it needs generally and anything over what is needed for combustion cools the fire. This is born out by the fact that today I went out to take some photos of the oven and saw that the burn tunnel was nearly compleatly blocked with ash to the point that there was only a 25 mm gap at the top for the hot gasses to pass through. The interns hadn't cleaned the ash out of the oven for nearly 7 weeks !! . However talking to them about it, they reported that the oven seemed to be getting too hot lately . So it will be interesting to see what a baffle can achieve.

The horizontal part of the J elbow is the burn tunnel and it's good general policy to keep this as short as possible . The feed tube must be shorter than the heat riser or the rocket won't draw well  , generally the heat riser should be at least twice the length of the feed tube . The institute oven feed tube is 300 mm deep and the riser is 750 mm long so the ratio is good . Although I haven't tried it ,for an oven connected to a flue I don't think this ratio is as critical as the flue develops a lot of draw. This was apparent when we first tried the institute oven before the flue was connected and it drew well with the door open . When we connected it to the flue it smoked and carried on and I was starting to think oh oh . However a quick trip onto the roof and a long piece of pipe down the flue pushed out a giant plug of grasses left there from old birds nests. When we relit the oven it took off with a soft roar , music to my ears and drew a lot harder than previously with the door open and the flue disconnected .

A hot water cylinder to use the waste heat coming out the flue is a subject I'll get into more detail on in my next post as this is the basis of the hot water system I built for the PRI when I was there.

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