Published: April 17, 2017

Cookstoves tested for air pollutant emissions and energy efficiency


According to the World Health Organization, cookstove smoke is a major contributor to indoor air pollution in developing countries causing approximately 4 million premature deaths annually and a wide range of illnesses.

Nearly half of the people in the world still depend on the burning of biomass (wood, charcoal, crop residues, and dung) and coal in rudimentary cookstoves or open fires to cook their food. People in developing countries, primarily women and children, are exposed to smoke with high concentrations of pollutants such as fine particles composed of toxic compounds.

Health studies show that exposure to cookstove smoke contributes to a wide range of illnesses such as pneumonia and low-birth weight in children, lung cancer, chronic obstructive pulmonary disease, blindness, and heart disease in adults, especially women who are disproportionately exposed in their homes.

Cookstove Research

As part of this effort, EPA is an international leader in clean cookstove research and provides independent scientific data on cookstove emissions and energy efficiency to support the development of cleaner sustainable cooking technologies.

Laboratory testing is being conducted at EPA’s cookstove test facility in Research Triangle Park, NC. The facility has state-of-the-art measurement capabilities to characterize emissions of gases and aerosols, including toxic air pollutants, greenhouse gases, and black carbon.

Studies are conducted using multiple stoves and fuels tested under varying conditions to simulate operating conditions found in the field. EPA also sponsors and supports field testing.

Cookstove technologies are selected for testing based on specific criteria including: quantity in use, existing test data, potential market, need for baseline data, fuel availability, unique features, innovation, and partner needs.

EPA also conducts studies to understand the health effects from exposure to emissions from cookstoves.


EPA’s research is making a significant contribution to providing cleaner cookstove technology throughout the world.

As part of this effort, EPA supports development of standard cookstove testing methods and protocols through ISO Technical Committee 285, Clean Cookstoves and Clean Cooking Solutions. Standards can provide incentive for stove developers to innovate and improve stove performance.

The work is supporting the Global Alliance for Clean Cookstoves, which has a goal to foster the adoption of clean cookstoves and fuels in 100 million households by 2020.

Investors, donors, and governments are seeking out the independent data to make decisions about clean cookstove programs. The science is providing information to cookstove developers and manufacturers to advance clean cookstove technology. EPA helps to support international Regional Testing and Knowledge Centers, many of which are sponsored by the Global Alliance for Clean Cookstoves. The Centers are building capacity for evaluating stoves following existing international guidelines, and Centers will test stoves to international standards once they are established.

The scientific contributions by EPA are:

  • Improving the health of people in developing countries
  • Addressing environmental problems with cookstoves such as deforestation when wood is sought for burning
  • Addressing emissions of black carbon and greenhouse gases that contribute to climate change.

Related Resources

Key Links

Highlighted Scientific Journal Articles 

Du W, Zhu X, Chen Y, Liu W, Wang W, Shen G, Tao S, Jetter J.  Field-based emission measurements of biomass burning in typical Chinese built-in-place stoves.  Environmental Pollution. Vol. 242, Pp. 1587-1597. 2018Exit

Xie M, Shen G, Holder AL, Hays MD, Jetter JJ.  Light absorption of organic carbon emitted from burning wood, charcoal, and kerosene in household cookstoves.  Environmental Pollution. Vol. 240, Pp. 60-67. 2018.Exit

Shen G, Hays MS, Smith KR, Williams C, Faircloth JW, Jetter JJ.  Evaluating the Performance of Household Liquefied Petroleum Gas Cookstoves.  Environmental Science & Technology. Vol. 52, Pp. 904–915. 2018.Exit

Gibbs-Flournoy EA, Gilmour MI, Higuchi M, Jetter J, George I, Copeland L, Harrison R, Moser VC, Dye JA.  Differential exposure and acute health impacts of inhaled solid-fuel emissions from rudimentary and advanced cookstoves in female CD-1 mice. Environmental Research 161.  Pp. 35-48. 2018.Exit

Shen G, Gaddam C, Ebersviller S, Vander Wal R, Williams C, Faircloth J, Jetter J, Hays M. Emission factors, number size distributions and morphology of ultrafine particles in cookstove smoke: A laboratory comparison of different household stove-fuel systems.  Environmental Science & Technology. Vol. 51, Pp. 6522–6532. 2017.

Shen G, Preston W, Ebersviller SM, Williams C, Faircloth JW, Jetter JJ, Hays MD. Polycyclic aromatic hydrocarbons in fine particulate matter emitted from burning kerosene, liquid petroleum gas, and wood fuels in household cookstoves. Energy & Fuels. 2017.Exit

Mutlu E, Warren SH, Ebersviller SM, Kooter IM, Schmid JE, Dye JA, Linak WP, Gilmour MI, Jetter JJ, Higuchi M, DeMarini DM.  Mutagenicity- and pollutant-emission factors of solid-fuel cookstoves: comparison to other combustion sources. Environmental Health Perspectives. 2016.Exit

EPA Reports

Jetter J, “Cookstove Laboratory Research – Fiscal Year 2016 Report.” U.S. Environmental Protection Agency, Washington, DC, ORD-017772, 2017.

Jetter J, Ebersviller S, Shen G. “Test Report – StoveTeam International, Ecocina Stove with Wood Fuel – Air Pollutant Emissions and Fuel Efficiency,” U.S. Environmental Protection Agency, Washington, DC, ORD-010644, 2016.

Jetter J, Ebersviller S. “Test Report – InStove 60-Liter Institutional Stove with Wood Fuel – Air Pollutant Emissions and Fuel Efficiency,” U.S. Environmental Protection Agency, Washington, DC, ORD-015778, 2016.

Jetter, J; Ebersviller, S. “Test Report – CleanCook Model A1 Stove with Alcohol Fuel – Air Pollutant Emissions and Fuel Efficiency,” U.S. Environmental Protection Agency, Washington, DC, ORD-014408, 2016.

Jetter, J; Ebersviller, S. “Test Report – BioLite HomeStove with Wood Fuel – Air Pollutant Emissions and Fuel Efficiency,” U.S. Environmental Protection Agency, Washington, DC, ORD-010644, 2016.