Rocket stove
A rocket stove is an efficient and hot burning stove using small-diameter wood fuel.[1][2] Fuel is burned in a simple combustion chamber containing an insulated vertical chimney, which ensures almost complete combustion prior to the flames reaching the cooking surface. Rocket stove designs are most often used for portable stoves for cooking but the design is also used for large, fixed stoves in institutions, and to make rocket mass heaters for heating.[3]
In field tests in India, rocket stoves used 18 to 35 percent less fuel, compared to the traditional stoves, and reduced fuel used 39-47 percent, compared to the simple, traditional, open, three-stone fire.
History
A precursor to the rocket stove was the Argand lamp, which was patented in 1780. This was a major development of the traditional oil lamp, which introduced a glass chimney above the flame to increase air-flow. As well as being used for lighting, this design was also used for cooking and for heating water due to its "affording much the strongest heat without smoke."[4]
Larry Winiarski, Technical Director of Aprovecho, began developing the rocket stove in 1980 based on a VITA stove, designed by Sam Baldwin, and rediscovered the principles of the systems developed by the Romans in hypocaust heating and cooking systems.[5][6] A stove was designed to make tortillas based on the principles of the rocket stove and won an Ashden Award in 2005.[7] Aprovecho won the same award in 2006 for their rocket stoves. Aprovecho rocket stoves were sold in Lesotho, Malawi, Uganda, Mozambique, Tanzania, and Zambia.[8]
Efficiency
Many developing countries use traditional wood fuel stoves without proper ventilation, which produces indoor concentrations of smoke particles "typically 10 to 100 times the long-term levels recommended by the World Health Organization."[9] Chronic exposure to these particles are linked with disease. Rocket stoves are better at combusting the fuel, thus using less fuel and producing less smoke, carbon monoxide, and soot.
In rural Kenya, a comparison of traditional three-stone stoves and rocket mud stoves (RMS) showed that RMS use resulted in a 33% reduction of carbon monoxide production in the kitchen and a 42% reduction in "personal" carbon monoxide production, which was measured with data loggers placed on clothing.[10]
References
- "Building a rocket stove to heat up the house". MNN - Mother Nature Network. Retrieved 2016-02-23.
- "Rocket Stove | Rocket Works". rocketworks.org. Archived from the original on 2013-10-12. Retrieved 2016-02-22.
- "Build a rocket stove for home heating". Retrieved 2016-02-23.
- Webster, Thomas (1844). An Encyclopędia of Domestic Economy: Comprising Such Subjects As Are Most Immediately Connected with Housekeeping. Adegi Graphics LLC. p. 841. ISBN 9781402194382.
- "History". Aprovecho. Retrieved 2009-04-13.
- "Whole stoves". Aprovecho. Archived from the original on 2009-02-22. Retrieved 2009-04-13.
{{cite web}}
: CS1 maint: bot: original URL status unknown (link) - "TWP and AHDESA / Fuel-efficient stoves for tortilla makers". Ashden. Retrieved 25 September 2018.
- "Aprovecho Research Center and ProBEC / Efficient stoves for institutional cooking". Ashden. Retrieved 25 September 2018.
- "Forests and human health". www.fao.org. Retrieved 2020-01-24.
- Ochieng, C. A.; Vardoulakis, S.; Tonne, C. (February 2013). "Are rocket mud stoves associated with lower indoor carbon monoxide and personal exposure in rural Kenya?: Kitchen and personal CO from traditional and rocket stoves". Indoor Air. 23 (1): 14–24. doi:10.1111/j.1600-0668.2012.00786.x. PMID 22563898.
External links
- Aprovecho Research Center: Open source and accessible research group.
- Daniel Connell (7 July 2022). "Tin Can Rocket Stove". Make: Magazine.