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This stove was designed to provide a source of biochar for small scale growers while burning the gases given off form the char production to provide energy for space heating and cooking.
This is a [[Rocket stoves|rocket stove]] type design that uses small pieces of wood or other biomass as the insulation.  The heat produced by burning wood in the rocket stove causes the wood/biomass insulation in the surrounding chamber (retort) to undergo pyrolysis.  The gases produced by the pyrolysis are fed into the stove and burnt,  As air does not flow through the retort the wood held within turns into [[biochar]]/charcoal rather than burning to an ash.   
This is a [[Rocket stoves|rocket stove]] type design that uses small pieces of wood or other biomass as the insulation.  The heat produced by burning wood in the rocket stove causes the wood/biomass insulation in the surrounding chamber (retort) to undergo pyrolysis.  The gases produced by the pyrolysis are fed into the stove and burnt,  As air does not flow through the retort the wood held within turns into [[biochar]]/charcoal rather than burning to an ash.   



Revision as of 14:57, 17 February 2015

This stove was designed to provide a source of biochar for small scale growers while burning the gases given off form the char production to provide energy for space heating and cooking.

This is a rocket stove type design that uses small pieces of wood or other biomass as the insulation. The heat produced by burning wood in the rocket stove causes the wood/biomass insulation in the surrounding chamber (retort) to undergo pyrolysis. The gases produced by the pyrolysis are fed into the stove and burnt, As air does not flow through the retort the wood held within turns into biochar/charcoal rather than burning to an ash.

Unlike much other biochar or charcoal production the burning of the emitted gasses yields about 70% of the energy available from the wood for cooking and heating and also greatly improves the emissions profile of the gasses that are emitted.

The stove design was based upon a design made by Edward Revill at Swansea Biochar and developed with his assistance.

Collaboration on the project to design and construct the stove is organised at http://edgeryders.eu/forest-biochar-rocket-stove

Forest biochar rocket stove 0-3

Following further conversations with Ed and research the stove design has evolved further to include a firebox which will reduce the amount of attention required to maintain a good fire.

After finding the work of Peterberg where he extensively tested a rocket stove design that burns unattended for an hour or more and collecting materials a new design was developed and the stove build began.

Low quality Mediacrush video of first test firing - the stove performed well burning wood from broken pallets, with dried woodchip loaded into the retort to be made into biochar. The woodchip was not all converted into biochar - probably because the stove was only run for 1-2 hours. It was expected that longer runnning times of the stove would be necessary to avoid this.

Mediacrush photo gallery of early stages of build

Mediacrush video of firebox with secondary air tube welded in place

Mediacrush video of firebox welded to riser inside the stove body

Mediacrush photo gallery of completed stove

Mediacrush videos taken of the second burning. Show char being released, stove in action, and temperature being read of running stove


Dimensions

The stove was built using these dimensioning calculations.

The riser was made shorter as a hotplate is to be placed above the stove and it is necessary to have this at a height suitable for large cooking pans and so that the heat at the hotplate is maximised. It is hoped that the chimney continuing up out of the hotplate will compensate for the draught lost due to the shorter riser.

The port from the firebox into the riser has a cross section area (csa) close to 75% of the csa of the riser.

The secondary air tube has a csa of 5% of the the riser csa. It also extends to cover the port by a similar amount.

CAD drawings

ForestStove0-31.png
Forest biochar rocket stove stove 0-31

Again the model was made using the freeware Design Spark Mech and exported as .stl files which were then imported into Art of Illusion for further manipulation.

STL CAD file for ForestStove 0-31

.stl files will open with FreeCAD

Forest biochar rocket stove 0-2

A newer design based upon a refined design developed by Ed Revill from Swansea Biochar.

BiocharRocketStove.JPG
Ed Revills' new stove design

BiocharStoveDesign1.jpgBiocharStoveDesign2.jpgBiocharRocketStove2.JPGBiocharRocketStove3.JPGBiocharRocketStove4.JPG

The forest stove 0-2 will, as with Eds stove, use 6 inch stainless pipe for the heat riser, but will use 8 inch stainless pipe for the combustion chamber, allowing for more fuel to be burnt

The new fuel hopper that feeds wood into the combustion chamber will also differ being 8 inch square, vertically aligned and much taller allowing for larger pieces of wood to be loaded into the hopper reducing the amount of attention that the stove will need to stay alight.

The filler hatch for the biochar production chamber will be moved from the front to one side (here the right) to make room for the fuel hopper.

CAD drawings

ForestStove0-211.png
Forest biochar rocket stove stove 0-211

This time it was found to be very difficult making some of the more complex shapes using Art of Illusion
Some parts of the model were made using the freeware Design Spark Mech and exported as .stl files which were then imported into Art of Illusion for further manipulation.

STL CAD file for ForestStove 0-211 The model was slightly broken during export from Art of Illusion the hatch for filling the biochar chamber was placed away from the rest of the model

.stl files will open with FreeCAD

Forest biochar rocket stove 0-1

See a video of Ed explaining this stove.

CAD drawings

3D models were made using Art of Illusion http://www.artofillusion.org/
STL CAD file for top of forest stove
Image of CAD drawing of bottom of stove
Image of CAD drawing of top of stove
Second image of CAD drawing of top of stove

.stl files will open with FreeCAD

Dimensions

Bottom section

Size fire tubes 8” square (A)
Thickness of plate for fire tubes 6mm
Thickness of vermiculite layers 3” on side 2” on top (B)

Top section (retort)

Diameter of gas bottle 14” (C)
Diameter of stainless tube 6” (D)
Thickness of stainless tube 1.5mm or 2mm
Use 304 or 316 stainless
Total height of retort 18” - 24” (18” should give better heat for cooking)

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