Climate change impact of biochar cook stoves in western Kenyan farm households: system dynamics model analysis.

@article{Whitman2011ClimateCI,
  title={Climate change impact of biochar cook stoves in western Kenyan farm households: system dynamics model analysis.},
  author={Thea L. Whitman and Charles Frederick Nicholson and Dorisel Torres and Johannes Lehmann},
  journal={Environmental science \& technology},
  year={2011},
  volume={45 8},
  pages={
          3687-94
        }
}
Cook stoves that produce biochar as well as heat for cooking could help mitigate indoor air pollution from cooking fires and could enhance local soils, while their potential reductions in carbon (C) emissions and increases in soil C sequestration could offer access to C market financing. We use system dynamics modeling to (i) investigate the climate change impact of prototype and refined biochar-producing pyrolytic cook stoves and improved combustion cook stoves in comparison to conventional… 
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References

SHOWING 1-10 OF 61 REFERENCES
GREENHOUSE IMPLICATIONS OF HOUSEHOLD STOVES: An Analysis for India
▪ Abstract It is commonly assumed that biomass fuel cycles based on renewable harvesting of wood or agricultural wastes are greenhouse-gas (GHG) neutral because the combusted carbon in the form of
A laboratory comparison of the global warming impact of five major types of biomass cooking stoves
Biochar projects for mitigating climate change: an investigation of critical methodology issues for carbon accounting
Biochar is a potential tool in our fight against climate change, driven by its high carbon stability and supported by its roles in bioenergy and soil fertility. We consider methodology aspects of
In-field greenhouse gas emissions from cookstoves in rural Mexican households
Role of Biochar in Mitigation of Climate Change
By virtue of the large fraction of the terrestrial carbon (C) cycle controlled by human activities, agroecosystems are both sources and sinks for greenhouse gases. Their potential role in mitigation
Health, energy, and greenhouse-gas impacts of biomass combustion in household stoves
SOIL CARBON SEQUESTRATION TO MITIGATE CLIMATE CHANGE AND ADVANCE FOOD SECURITY
World soils have been a source of atmospheric carbon dioxide since the dawn of settled agriculture, which began about 10 millennia ago. Most agricultural soils have lost 30% to 75% of their
Bio-char Sequestration in Terrestrial Ecosystems – A Review
The application of bio-char (charcoal or biomass-derived black carbon (C)) to soil is proposed as a novel approach to establish a significant, long-term, sink for atmospheric carbon dioxide in
Solid-fuel household cook stoves: characterization of performance and emissions.
What makes people cook with improved biomass stoves. A comparative international review of Stove Programs. Energy series. World Bank technical paper
Hundreds of millions of people rely on woodfuels for most of their energy needs, despite the problems associated with traditional use of woodfuels. Modern, efficient biomass stoves can alleviate some
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