Stove Designs

Burning charcoal- UMC-CH1 Charcoal Burner Module
Lanny Henson May 13 2006

Lanny Henson April 2006

See additional photos at http://www.lanny.us/grate.html

Finding a simple to make grate for cook stoves has been a problem. Most
grates require some king of complicated punching, welding or expanding.
Well I built a stove that uses a grate, the top lit stove is not remarkable
but the grate has promise.

Dean Still, June, 2005

download the Insulated Rocket Stove for Charcoal pdf
Preliminary Fuel Use and Emissions Test Results:

    Wood Stove
Benchmark
Charcoal
Rocket
(Without
Skirt)
Ghana
Charcoal
Stove
WFP Wood
Rocket
(with Skirt)
Time to Boil min - 22 29 22
Fuel to Cook g 850 604 675 733
Energy to Cook kJ 15,000 23,983 26,089 12,579
CO to Cook g 20 12 74 15
PM to Cook mg 1500 81 85 1289

"Good Stove" Rocket Stove Design, and "Good Stove" Rocket Stove Application, Rocket stove model - request for suggestions and advice Blogs
Dr. N. Sai Bhaskar Reddy, Hyderabad, Andhra Pradesh, India May 2006
GEO GEOECOLOGY ENERGY ORGANISATION

Dung, brick and clay rocket stove prototype blogs for comment.

Rocket Lantern
Dean Still, Aprovecho June 2003

Low Cost Wood Gas Stove
Dr. N. Sai Bhaskar Reddy, Hyderabad, Andhra Pradesh, India April 2006

Look at this blog of a wood gas stove developed with community participation.
A low-cost portable Woodgas stove has been developed based on the Garlington’s downdraft gasifier model stove. A small tin can of 3.5 inches diameter and 5 inches height (“Lactogen” tin can) is used for making the Wood-gas stove. For grate an aluminum wire is used at the bottom. Primary and secondary air slits are puctured into the tin to make the stove. A tin sheet or bricks or mud and stone can be used for the skirt and fire place.

For fuel one inch length small pencil size sticks (pruned twigs) or shavings and chips of wood from a carpenter’s workshop can be used. This stove burns for about 8 minutes with the wood gas generated and later on the resultant charcoal burns for next 5 to 8 minutes giving sufficient heat for boiling one liter of milk or one person can take bath with the boiled water.

Price : Rs. 2/- (Rupees two only)
Time for making it : 20 to 30 minutes
Efficiency : Highly efficient as compared to rocket stove.

This stove has the following advantages:
Requires only small wood pieces – saves trees
Batch feeding – lit and forget
Low cost any one can make it and use
Light weight - highly portable

Note: Preferably should be used in good ventilation conditions.

Low Cost Wood Gas Stove
Dr. N. Sai Bhaskar Reddy, Hyderabad, Andhra Pradesh, India April 2006

Look at this blog of a wood gas stove developed with community participation.
A low-cost portable Woodgas stove has been developed based on the Garlington’s downdraft gasifier model stove. A small tin can of 3.5 inches diameter and 5 inches height (“Lactogen” tin can) is used for making the Wood-gas stove. For grate an aluminum wire is used at the bottom. Primary and secondary air slits are puctured into the tin to make the stove. A tin sheet or bricks or mud and stone can be used for the skirt and fire place.

For fuel one inch length small pencil size sticks (pruned twigs) or shavings and chips of wood from a carpenter’s workshop can be used. This stove burns for about 8 minutes with the wood gas generated and later on the resultant charcoal burns for next 5 to 8 minutes giving sufficient heat for boiling one liter of milk or one person can take bath with the boiled water.

Price : Rs. 2/- (Rupees two only)
Time for making it : 20 to 30 minutes
Efficiency : Highly efficient as compared to rocket stove.

This stove has the following advantages:
Requires only small wood pieces – saves trees
Batch feeding – lit and forget
Low cost any one can make it and use
Light weight - highly portable

Note: Preferably should be used in good ventilation conditions.

Promoting solar cookers through the Solars Cookers International
Ramon Coyle, Solar Cookers International, Sacramento,CA 2005

Practical Action Boiling Point Issue 51 2005
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Rescooking.co.za is a site for Radical Energy Saving cooking appliances. According to GTZ-HERA more than 4000 solar cookers were sold in South Afrrica over a three year period.

Rescooking also sells the Hotbag brand of retained heat cookers and Vesto high efficiency stoves. Saldos - Entrega gratuita

The Upesi Rural Stoves Project
Vincent Okello, Practical Action, Kisumu, Kenya December 2005

Vincent Okello describes the development and dissemination of the Upesi wood burning stove in Western Kenya in Boiling Point No.

Trees Water and People Project in Haiti
Jeremy Foster, Aprovecho Research Institute, April 2006

Rocket Stoves in Sub-Saharan Africa
Peter Scott, Aprovecho, October 18, 2004

Dear Stovers

Since Aug 2003, my partner, Jayme Vineyard, and I have been working with GTZ ProBEC (Program for Biomass Energy Conservation) and EAP (Energy Advisory Project) as well as World Food Program and innumerable small businesses to introduce the Rocket Stove principle to a number of countries in Sub-Saharan Africa (Uganda, Kenya, Lesotho, Mozambique, Malawi, and Zambia).

Experience with Integrated Cooking/Retained Heat Cooking
David Whitfield, CEDESOL, Cochabamba, Bolivia February 2005

Technology transfer is more a social issue than a technological one.
That is one reason our methods utilizes hands on works shops followed by

Experience with Integrated Cooking/Retained Heat Cooking
David Whitfield, CEDESOL, Cochabamba, Bolivia February 2005

Technology transfer is more a social issue than a technological one.
That is one reason our methods utilizes hands on works shops followed by

Experience with Integrated Cooking/Retained Heat Cooking
David Whitfield, CEDESOL, Cochabamba, Bolivia February 2005

Technology transfer is more a social issue than a technological one.
That is one reason our methods utilizes hands on works shops followed by

Experience with Integrated Cooking/Retained Heat Cooking
David Whitfield, CEDESOL, Cochabamba, Bolivia February 2005

Technology transfer is more a social issue than a technological one.
That is one reason our methods utilizes hands on works shops followed by

Design Principles for Retained Heat Cookers
Dean Still, Aprovecho Research Institute, March 2005

Guesses at Design Principles for a Retained Heat Cooker

1.) Air exchanges are more important than insulation

Design Principles for Retained Heat Cookers
Dean Still, Aprovecho Research Institute, March 2005

Guesses at Design Principles for a Retained Heat Cooker

1.) Air exchanges are more important than insulation

Design Principles for Retained Heat Cookers
Dean Still, Aprovecho Research Institute, March 2005

Guesses at Design Principles for a Retained Heat Cooker

1.) Air exchanges are more important than insulation

WoodGas vs Wood Combustion
Tom Reed, Biomass Energy Foundation, April 2006

As a longtime proponent (since 1973) of biomass gasification and moderator of the gasification REPP group, let me define "gasification" a little more widely than the discussion below
------------------------------------------------------------------------
Coal pyrolysis produces typically 80% fixed carbon, 20% gas and volatiles. The principle step then for coal gasification is getting that carbon to be a gas with either oxygen, CO2 or water

2C + O2 ==> 2 CO
C + CO2 ==> 2 CO
C + H2O ==> CO + H2

The first reaction is exothermic, while the last two are endothermic.
So pass air/oxygen, CO2 and H2O through coal and you produce CO + H2.
Coal gasification was the principle form before 1940 and was practiced at a large scale because of the need to remove sulfur and ash. During WW II however, biomass was the fuel of choice for small gasifiers to run cars, trucks and buses.

------------------------------------------------------------------------

Biomass is typically 80% gas plus volatiles plus 20% fixed carbon. So the main problem is to convert the volatiles to CO + H2.

Pyrolysis typically occurs at 300-500C. Conventional bottom lit updraft gasifiers burn charcoal on a grate to produce hot CO-H2 which then pyrolyzes the incoming biomass to make VERY tarry gas. *(I call this a "char burning, tar making gasifier")*.

But if you pass air through a mass of biomass the temperature is 700-1000 C, and we call that "flaming pyrolysis". FP produces mostly CO
+ H2, CO2 and H2O and small amount of condensibles (tars). These then
pass through the remaining charcoal where most of the volatiles are destroyed. At the high end the condensibles are typically < 100 ppm.
At the low end, more like 2000. *(I call this a "tar burning, char making gasifier").
*
------------------------------------------------------------------------
I call the Flaming Pyrolysis process "PYROLYTIC GASIFICATION". It occurs at a continuum of temperatures from 700-1000C, depending on air/fuel ratio. At the low end, 700C, very little of the charcoal is gasified and the toplit updraft stoves produce 5-25% charcoal, depending on the moisture content of the fuel. At the high end up to 1000C the gas is VERY low tar and useful for operating engines for power and transportation and for synthesis of methanol and diesel. .

If secondary air is added to the gases after they are generated you have a very clean and hot flame. This is VERY different from direct combustion and I classify our WoodGas Campstove as a close coupled pyrolytic gasifier and combustor.

We now are selling WoodGas Campstoves at our website store along with our books on gasification (www.woodgas.com) and I recommend getting one and pondering the profound difference between the gasification and direct combustion of wood for cooking. While we have made the campstove, the principles can be applied at all scales for apartment and
field cooking around the world. We hope they will be.

Yours truly,

TOM REED
The Biomass Energy Foundation
tombreed@comcast.net

WoodGas vs Wood Combustion
Tom Reed, Biomass Energy Foundation, April 2006

As a longtime proponent (since 1973) of biomass gasification and moderator of the gasification REPP group, let me define "gasification" a little more widely than the discussion below
------------------------------------------------------------------------
Coal pyrolysis produces typically 80% fixed carbon, 20% gas and volatiles. The principle step then for coal gasification is getting that carbon to be a gas with either oxygen, CO2 or water

2C + O2 ==> 2 CO
C + CO2 ==> 2 CO
C + H2O ==> CO + H2

The first reaction is exothermic, while the last two are endothermic.
So pass air/oxygen, CO2 and H2O through coal and you produce CO + H2.
Coal gasification was the principle form before 1940 and was practiced at a large scale because of the need to remove sulfur and ash. During WW II however, biomass was the fuel of choice for small gasifiers to run cars, trucks and buses.

------------------------------------------------------------------------

Biomass is typically 80% gas plus volatiles plus 20% fixed carbon. So the main problem is to convert the volatiles to CO + H2.

Pyrolysis typically occurs at 300-500C. Conventional bottom lit updraft gasifiers burn charcoal on a grate to produce hot CO-H2 which then pyrolyzes the incoming biomass to make VERY tarry gas. *(I call this a "char burning, tar making gasifier")*.

But if you pass air through a mass of biomass the temperature is 700-1000 C, and we call that "flaming pyrolysis". FP produces mostly CO
+ H2, CO2 and H2O and small amount of condensibles (tars). These then
pass through the remaining charcoal where most of the volatiles are destroyed. At the high end the condensibles are typically < 100 ppm.
At the low end, more like 2000. *(I call this a "tar burning, char making gasifier").
*
------------------------------------------------------------------------
I call the Flaming Pyrolysis process "PYROLYTIC GASIFICATION". It occurs at a continuum of temperatures from 700-1000C, depending on air/fuel ratio. At the low end, 700C, very little of the charcoal is gasified and the toplit updraft stoves produce 5-25% charcoal, depending on the moisture content of the fuel. At the high end up to 1000C the gas is VERY low tar and useful for operating engines for power and transportation and for synthesis of methanol and diesel. .

If secondary air is added to the gases after they are generated you have a very clean and hot flame. This is VERY different from direct combustion and I classify our WoodGas Campstove as a close coupled pyrolytic gasifier and combustor.

We now are selling WoodGas Campstoves at our website store along with our books on gasification (www.woodgas.com) and I recommend getting one and pondering the profound difference between the gasification and direct combustion of wood for cooking. While we have made the campstove, the principles can be applied at all scales for apartment and
field cooking around the world. We hope they will be.

Yours truly,

TOM REED
The Biomass Energy Foundation
tombreed@comcast.net

Ecological Stoves David Whitfield V CEDESOL La Paz, Bolivia, presentation to Global Village Energy Partnership Latin America Santa Cruz, Bolivia, July 2003

Ecological Stoves David Whitfield V CEDESOL La Paz, Bolivia, presentation to Global Village Energy Partnership Latin America Santa Cruz, Bolivia, July 2003

Ecological Stoves David Whitfield V CEDESOL La Paz, Bolivia, presentation to Global Village Energy Partnership Latin America Santa Cruz, Bolivia, July 2003

Woodgas Stoves
Keith Addison, Journey to Forever

Keith addison has nice colleciton of wodgas (and other) stoves on his Journey to Forever site. See: Woodgas Stoves

Bibliography

A Resource Book on Fire-Less Cookers/Cooking (The Hay Basket) Compiled by Solar Cookers Int. (hardbound)

Draft Bibliography courtesy of Paul Anderson (September 2003):

Bibliography

A Resource Book on Fire-Less Cookers/Cooking (The Hay Basket) Compiled by Solar Cookers Int. (hardbound)

Draft Bibliography courtesy of Paul Anderson (September 2003):

How to Make a Food Warmer / Fireless Cooker, Christa Roth, Advisor for Food Processing and Biomass Energy Conservation in the Integrated Food Security Programme (IFSP), Mulanje, Malawi, September 2003

Selbstkocher- Self Cookers
Boll, Martin Dr. April 4, 2006

Selbstkocher- Self Cookers
Boll, Martin Dr. April 4, 2006

Prototype Briquette gasifying stove

Richard Stanley and Kobus Venter October 2003

Natural Draft Gasifier (KKK NDG) Krishna Kumar, Chennai, India, Mar 2004 (pdf)

Natural Draft Gasifier (KKK NDG)Natural Draft Gasifier (KKK NDG)
Natural Draft Gasifier Fuel FeedNatural Draft Gasifier Fuel Feed

High altitude smokeless metal stove research and development Kanchan Rai, A. Zahnd and J.K. Cannell, Boiling Point 51.

Development of Improved Cookings Stoves for Mountain Areas of Nepal, July 2004, Kanchan Rai, Research Development and Consultantcy (RDC) Unit Kathmandu University

Five Stove Projects 2004, Ken Goyer, Aprovecho, October 2004

Five Stove Projects 2004, Ken Goyer, Aprovecho, October 2004

Rocket Stoves in Sub-Saharan Africa, Peter Scott and Jayme Vineyard, Aprovecho, October 2004 (9 reports)
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