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Energy poverty and cooking

February 16, 2024

One aspect of energy poverty is lack of access to clean, modern fuels and technologies for cooking. As of 2020, more than 2.6 billion people in developing countries routinely cook with fuels such as wood, animal dung, coal, or kerosene. Burning these types of fuels in open fires or traditional stoves causes harmful household air pollution, resulting in an estimated 3.8 million deaths annually according to the World Health Organization (WHO), and contributes to various health, socio-economic, and environmental problems.

A traditional wood-fired 3-stone stove in Guatemala, which causes indoor air pollution

A high priority in global sustainable development is to make clean cooking facilities universally available and affordable. Stoves and appliances that run on electricity, liquid petroleum gas (LPG), piped natural gas (PNG), biogas, alcohol, and solar heat meet WHO guidelines for clean cooking. Universal access to clean cooking facilities would have large benefits for environmental protection and for gender equality.

Stoves that burn wood and other solid fuels more efficiently than traditional stoves are known as "improved cookstoves" or "clean cookstoves". With very few exceptions, these stoves deliver fewer health benefits than stoves that use liquid or gaseous fuels. However, they reduce fuel usage and thus help to prevent environmental degradation. Improved cookstoves are an important interim solution in areas where deploying cleaner technologies is less feasible.

Initiatives to encourage cleaner cooking practices have yielded limited success. For various practical, cultural, and economic reasons, it is common for families who adopt clean stoves and fuels to continue to make frequent use of traditional fuels and stoves.

Issues with traditional cooking fuels edit

 
Traditional wood-burning stoves

Health impacts edit

Further information: Household air pollution § Health impacts

As of 2020, more than 2.6 billion people[1] in developing countries rely on burning polluting biomass fuels such as wood, dry dung, coal, or kerosene for cooking, which causes harmful household air pollution and also contributes significantly to outdoor air pollution.[2] The World Health Organization (WHO) estimates that cooking-related pollution causes 3.8 million annual deaths.[3] The Global Burden of Disease study estimated the number of deaths in 2017 at 1.6 million.[4]

In traditional cooking facilities, smoke is typically vented into the home rather than out through a chimney. Solid fuel smoke contains thousands of substances, many of which are hazardous to human health. The most well understood of these substances are carbon monoxide (CO); small particulate matter; nitrous oxide; sulfur oxides; a range of volatile organic compounds, including formaldehyde, benzene and 1,3-butadiene; and polycyclic aromatic compounds, such as benzo-a-pyrene, which are thought to have both short and long term health consequences.[5]

Exposure to household air pollution (HAP) nearly doubles the risk of childhood pneumonia and is responsible for 45 percent of all pneumonia deaths in children under five years of age. Emerging evidence shows that HAP is also a risk factor for cataracts, the leading cause of blindness in lower-middle-income countries, and low birth weight.[6] Cooking with open fires or unsafe stoves is a leading cause of burns among women and children in developing countries.[7]

Impacts on women and girls edit

Health effects are concentrated among women, who are likely to be responsible for cooking, and young children.[2] The work of gathering fuel exposes women and children to safety risks and often consumes 15 or more hours per week, constraining their available time for education, rest, and paid work.[2] Women and girls must often walk long distances to obtain cooking fuel, and, as a result, face increased risk of physical and sexual violence.[8] Many children, particularly girls, may not attend school in order to help their mothers with firewood collection and food preparation.[8]

Environmental impacts edit

Traditional cooking facilities are highly inefficient, allowing heat to escape into the open air. The inefficiency of fuel burning results in more wood needing to be harvested and also causes emissions of black carbon, a contributor to climate change.[9] Serious local environmental damage, including desertification, can be caused by excessive harvesting of wood and other combustible material.[10]

While biomass harvesting in sensitive areas is problematic, it is now determined that the great majority of biomass clearing is due to agricultural expansion and land conversion.[11] Use of crop residue and animal waste for domestic energy has detrimental results on soil quality and agricultural and livestock productivity as it means these materials are not available as soil conditioners, organic fertilizer, and livestock fodder.[12]

Terminology edit

The term "clean cookstove" has often been used without defining what the term means.[13] Organizations vary in how they define "clean":

  • According to the WHO, cooking facilities are "clean" if their emissions of carbon monoxide and fine particulate matter are below certain levels.[14]
  • The Clean Cooking Alliance uses the term "clean cooking" more broadly.[15] Its definition includes what the WHO refers to as "improved cookstoves", i.e. stoves that burn biomass fuel more efficiently than traditional stoves. As of 2020, the vast majority of stoves that burn biomass fuel do not qualify as clean under WHO standards even if they are more efficient than traditional stoves.[16]

The WHO has criticized the marketing of biomass cookstoves as "improved" when they have not been tested against standards and their health benefits are unclear.[14]

WHO-recommended clean cooking facilities edit

 
Solar cookers are nonpolluting and free to use, but require favourable weather and longer cooking times.[17]

A high priority in global sustainable development is to make clean cooking facilities universally available and affordable.[18]

According to the WHO, stoves and appliances that are powered by electricity, liquid petroleum gas (LPG), piped natural gas (PNG), biogas, alcohol, and solar heat are "clean".[17] Best-in-class fan gasifier stoves that burn biomass pellets can be classified as clean cooking facilities if they are correctly operated and the pellets have sufficiently low levels of moisture, but these stoves are not widely available.[19]

Electricity can be used to power appliances such as electric pressure cookers, rice cookers, and highly efficient induction stoves, in addition to standard electric stoves. Electric induction stoves are so efficient that they create less pollution than liquified petroleum gas (LPG) even when connected to coal power sources, and are sometimes cheaper.[20] For stews, beans, rice and other foods that can be adapted to electric pressure cookers, the savings are even greater.[21][better source needed]. As of 2019, 770 million people do not have access to electricity,[22] and for many others electricity is not affordable or reliable. Because access to electricity is also a high priority in global sustainable development, integrated planning for new and improved electricity infrastructure that includes both typical electric loads as well as cooking loads is beginning to gain momentum. Indeed, this kind of integrated resource planning for electricity systems may deliver faster and lower-cost solutions to both access to electricity and to clean cooking.[23][24]

Natural gas stoves, which are widely used in richer countries, are not without health risks. They emit high levels of nitrogen dioxide, an atmospheric pollutant that is linked to oxidative stress and acute reduction in lung function.[25] Studies on the effects of indoor cooking with natural gas have yielded inconsistent results.[25] According to a 2010 meta-analysis, the evidence suggests that the practice leads to small reductions in lung function in children, and that children with allergies may be more susceptible.[25]

Biogas digesters convert waste, such as human waste and animal dung, into a methane-rich gas that burns cleanly. Biogas systems are a promising technology in areas where each household has at least two large animals to provide dung, and a steady supply of water is also available.[26]

Solar cookers collect and concentrate the sun's heat when sunshine is available.[17]

Improved cook stoves edit

"Biomass cooking stove" redirects here. For a kitchen cooker, stove, range, oven, or stove top, see Kitchen stove.
 
Improved cook stoves, such as the ones shown here, burn biomass relatively efficiently but usually still emit toxic levels of pollutants.
 
A traditional three-stone fire in Nigeria. This is the cheapest stove to produce, requiring only three suitable stones of the same height on which a cooking pot can be balanced over a fire.

Improved cook stoves (ICS), often marketed as "clean cookstoves",[27] are biomass stoves that generally burn biomass more efficiently than traditional stoves and open fires.

Compared to traditional cook stoves, ICS are usually more fuel-efficient and aim to reduce the negative health impacts associated with exposure to toxic smoke.[28] As of 2016, no widely-available biomass stoves meet the standards for clean cooking as defined by the WHO.[29] A 2020 review found only one biomass stove on the market that met WHO standards in field conditions.[16]

Despite their limitations, ICS are an important interim solution where deploying fully clean solutions that use electricity, gas, or alcohol is less feasible.[30] As of 2009, less than 30% of people who cook with some sort of biomass stove use ICS.[31]

Benefits and limitations edit

Improved cookstoves are more efficient, meaning that the stove's users spend less time gathering wood or other fuels, while reducing deforestation and air pollution. However, a closed stove may result in production of more soot and ultra-fine particles than an open fire would.[32] Some designs also make the stove safer, preventing burns that often occur when children stumble into open fires.

The efficiency improvements of ICS do not necessarily translate into meaningful reductions in health risks[33] because for certain conditions, such as childhood pneumonia, the relationship between pollution levels and effects on the body has been shown to be non-linear. This means, for example, that a 50 percent reduction in exposure would not halve the health risk.[19] A 2020 systematic review found that ICS usage led to modest improvements in terms of blood pressure, shortness of breath, emissions of cancer-causing substances, and cardiovascular diseases, but no improvements in pregnancy outcomes or children's health.[34]

Substantial variations in emissions and fuel consumption have been observed across ranges of cookstove designs and between laboratory and field test conditions. At present, a standard testing mechanism does not exist to establish the true impact of alternative cookstove designs as well as descriptive language for exposure. Stove testing studies are not always consistent depending largely on the discipline of investigators and their scientific specialization.[35][28]

The World Health Organization encourages further research to develop biomass stove technology that is low-emission, affordable, durable, and meets users' needs.[29]

Non-technological interventions edit

Behavioral change interventions, in reducing childhood household exposures, have the potential to reduce household air pollution exposure by 20–98%. Indoor Air Pollution (IAP) exposure can be greatly reduced by cooking outdoors, reducing time spent in the cooking area, keeping the kitchen door open while cooking, avoid leaning over the fire while attending to the  meal preparation, staying away while carrying children when cooking and keeping the children away from the cooking area. Negative impacts can also be reduced by changes to the environment (e.g. use of a chimney), drying fuel wood before use, and using a lid during cooking.[36]

Opportunities to educate communities on reducing household indoor air pollution exposure include festival collaborations, religious meetings, and medical outreach clinics. Community health workers represent a significant resource for educating communities to help raise awareness regarding reducing the effects of indoor air pollution.[37]

Challenges edit

 
Access to clean fuels and technologies for cooking.[38]

Many users of clean stoves and fuels continue to make frequent use of traditional fuels and stoves, a phenomenon known as "fuel stacking" or "stove stacking".[39] For instance, a recent study in Kenya found that households that are primary LPG users consume 42 percent as much charcoal as households that are primary charcoal users.[39]

When stacking is practiced, the introduction of clean cooking facilities may not reduce household air pollution enough to make a meaningful difference in health outcomes.[17] There are many reasons to continue to use traditional fuels and stoves, such as unreliable fuel supply, the cost of fuel, the ability of stoves to accommodate different types of pots and cooking techniques, and the need to travel long distances to repair stoves.[17][40]

Research and implementation efforts are frequently pursued with insufficient coordination with supporting organizations, which, in many cases has led to widespread implementation of so called "improved" stoves that have sometimes failed to deliver on the promise of reducing indoor air pollution. Cookstove implementation efforts have often achieved mixed results because of technical and social complexities, such as the need to involve both women (who typically are responsible for cooking) and men (who typically control household spending).[citation needed]

Efforts to improve access to clean cooking fuels and stoves have barely kept up with population growth, and current and planned policies would still leave 2.4 billion people without access in 2030.[1]

Environmental and sustainable development effects edit

 
A woman cooks with electricity, a clean energy source, in Ethiopia.

Transitioning to cleaner cooking methods is expected to either slightly raise greenhouse gas emissions or decrease emissions, even if the replacement fuels are fossil fuels. There is evidence that switching to LPG and PNG has a smaller climate effect than the combustion of solid fuels, which emits methane and black carbon.[41] The burning of residential solid fuels accounts for up to 58 percent of global black carbon emissions.[42] The Intergovernmental Panel on Climate Change stated in 2018, "The costs of achieving nearly universal access to electricity and clean fuels for cooking and heating are projected to be between 72 and 95 billion USD per year until 2030 with minimal effects on GHG emissions."[43]

Universal access to clean cooking is an element of the UN Sustainable Development Goal 7, whose first target is: "By 2030, ensure universal access to affordable, reliable and modern energy services".[44] Progress in clean cooking would facilitate progress in other Sustainable Development goals, such as eliminating poverty (Goal 1), good health and well-being (Goal 3), gender equality (Goal 5), and climate action (Goal 13).[18] An indicator of Goal 7 is the proportion of population with primary reliance on clean fuels and technologies for cooking, heating, and lighting, using the WHO's definition of "clean".[45]

See also edit

References edit

  1. ^ a b "Access to clean cooking – SDG7: Data and Projections – Analysis". IEA. October 2020. Retrieved 2021-03-31.
  2. ^ a b c World Health Organization 2016, pp. VII–XIV.
  3. ^ "Household air pollution and health: fact sheet". WHO. 8 May 2018. Retrieved 2020-11-21.
  4. ^ Ritchie, Hannah; Roser, Max (2019). "Access to Energy". Our World in Data. Retrieved 1 April 2021. According to the Global Burden of Disease study 1.6 million people died prematurely in 2017 as a result of indoor air pollution ... But it's worth noting that the WHO publishes a substantially larger number of indoor air pollution deaths..
  5. ^ Peabody, J. W., Riddell, T. J., Smith, K. R., Liu, Y., Zhao, Y., Gong, J., ... & Sinton, J. E. (2005). Indoor air pollution in rural China: cooking fuels, stoves, and health status. Archives of environmental & occupational health, 60(2), 86-95.
  6. ^ ESMAP 2020, p. 17.
  7. ^ "Burns". World Health Organization. September 2016. from the original on 21 July 2017. Retrieved 1 August 2017.
  8. ^ a b ESMAP 2020, p. 20.
  9. ^ Timilsina, Govinda R.; Malla, Sunil (2021-01-01). "Clean Cooking: Why is Adoption Slow Despite Large Health and Environmental Benefits?". Economics of Energy & Environmental Policy. 10 (1). doi:10.5547/2160-5890.9.1.gtim. ISSN 2160-5882. S2CID 219660388.
  10. ^ Tester 2012, p. 504.
  11. ^ Healthy Stoves and Fuels for Developing Nations and the Global Environment, Kammen, D. 2003. Accessed 12 May 2007.
  12. ^ Global Village Energy Partnership, Nairobi, Kenya 13 June 2007 at the Wayback Machine, UNDP. 2005. Accessed 30 April 2007.
  13. ^ Vaidyanathan, Gayathri. "Most of the world's poor continue to use unhealthy and polluting traditional cookstoves". Scroll.in. Retrieved 2021-09-26.
  14. ^ a b World Health Organization 2016, p. 11.
  15. ^ Onakomaiya, Deborah; Gyamfi, Joyce; Iwelunmor, Juliet; Opeyemi, Jumoke; Oluwasanmi, Mofetoluwa; Obiezu-Umeh, Chisom; Dalton, Milena; Nwaozuru, Ucheoma; Ojo, Temitope; Vieira, Dorice; Ogedegbe, Gbenga; Olopade, Christopher (2019-05-14). "Implementation of clean cookstove interventions and its effects on blood pressure in low-income and middle-income countries: systematic review". BMJ Open. 9 (5): e026517. doi:10.1136/bmjopen-2018-026517. ISSN 2044-6055. PMC 6530298. PMID 31092656.
  16. ^ a b Gill-Wiehl, A.; Ray, I.; Kammen, D. (2021-11-01). "Is clean cooking affordable? A review". Renewable and Sustainable Energy Reviews. 151: 111537. doi:10.1016/j.rser.2021.111537. ISSN 1364-0321.
  17. ^ a b c d e World Health Organization 2016, pp. 25–29.
  18. ^ a b United Nations (2018). "Accelerating SDG 7 Achievement Policy Brief 02: Achieving Universal Access to Clean and Modern Cooking Fuels, Technologies and Services" (PDF). UN.org. Retrieved April 5, 2021.
  19. ^ a b ESMAP 2020, p. 19.
  20. ^ Nugent, R; Mock, CN; Kobusingye, O (2017). "Chapter 7 Household Air Pollution from Solid Cookfuels and Its Effects on Health". Injury Prevention and Environmental Health. 3rd Edition. International Bank for Reconstruction and Development / The World Bank.
  21. ^ "eCookbooks". MECS Plus. Retrieved 2022-10-28.
  22. ^ "Access to electricity – SDG7: Data and Projections – Analysis". IEA. Retrieved 2021-05-05.
  23. ^ ESMAP.2020. "The State of Access to Modern Energy Cooking Services (English). Washington, D.C.: World Bank Group". World Bank. Retrieved 2022-10-28.{{cite web}}: CS1 maint: numeric names: authors list (link)
  24. ^ "Electric cooking can improve health, reduce climate impacts, and boost business models for universal electrification". EarthSpark International. Retrieved 2022-10-28.
  25. ^ a b c Garcia, Erika; Rice, Mary B; Gold, Diane R (July 2021). "Air pollution and lung function in children". The Journal of Allergy and Clinical Immunology. 148 (1): 1–14. doi:10.1016/j.jaci.2021.05.006. ISSN 0091-6749. PMC 8274324. PMID 34238501.
  26. ^ Nugent, R; Mock, C.N. (2017). "Chapter 7 Household Air Pollution from Solid Cookfuels and Its Effects on Health". In Kobusingye, O.; et al. (eds.). Injury Prevention and Environmental Health. 3rd Edition. International Bank for Reconstruction and Development / The World Bank. from the original on 13 April 2021. Retrieved 13 April 2021.
  27. ^ "How Hillary Clinton's clean stoves will help African women | Madeleine Bunting". The Guardian. 2010-09-21. Retrieved 2023-01-08.
  28. ^ a b Gall, Elliott T.; Carter, Ellison M.; Matt Earnest, C.; Stephens, Brent (April 2013). "Indoor Air Pollution in Developing Countries: Research and Implementation Needs for Improvements in Global Public Health". American Journal of Public Health. 103 (4): e67–e72. doi:10.2105/AJPH.2012.300955. PMC 3673244. PMID 23409891.
  29. ^ a b World Health Organization 2016, p. 88.
  30. ^ World Health Organization 2016, p. 12.
  31. ^ Shankar, Anita; Johnson, Michael; Kay, Ethan; Pannu, Raj; Beltramo, Theresa; Derby, Elisa; Harrell, Stephen; Davis, Curt; Petach, Helen (2014-07-22). "Maximizing the benefits of improved cookstoves: moving from acquisition to correct and consistent use". Global Health: Science and Practice. 2 (3): 268–274. doi:10.9745/GHSP-D-14-00060. ISSN 2169-575X. PMC 4168629. PMID 25276586.
  32. ^ Umair Irfan (April 5, 2013). "Study finds improved cookstoves solve one emissions problem, but create another". ClimateWire E & E Publishing. Retrieved April 5, 2013.
  33. ^ World Health Organization 2016, pp. 11–12.
  34. ^ Pratiti, Rebecca; Vadala, David; Kalynych, Zirka; Sud, Parul (July 2020). "Health effects of household air pollution related to biomass cook stoves in resource limited countries and its mitigation by improved cookstoves". Environmental Research. 186: 109574. Bibcode:2020ER....186j9574P. doi:10.1016/j.envres.2020.109574. PMID 32668541. S2CID 219033298.
  35. ^ "Research and Evaluation". Global Alliance for Clean Cook Stoves. Retrieved 2017-10-27.
  36. ^ Indoor air pollution and health - World Health Organization fact sheet.
  37. ^ Amegah, A. K., & Jaakkola, J. J. (2016). Household air pollution and the sustainable development goals. Bulletin of the World Health Organization, 94(3), 215.
  38. ^ "Access to clean fuels and technologies for cooking". Our World in Data. Retrieved 15 February 2020.
  39. ^ a b ESMAP 2020, p. 42.
  40. ^ Rhodes, Evelyn; Dreibelbis, Robert; Klasen, Elizabeth; Naithani, Neha; Baliddawa, Joyce; Menya, Diana; Khatry, Subarna; Levy, Stephanie; Tielsch, James; Miranda, J.; Kennedy, Caitlin; Checkley, William (3 October 2014). "Behavioral Attitudes and Preferences in Cooking Practices with Traditional Open-Fire Stoves in Peru, Nepal, and Kenya: Implications for Improved Cookstove Interventions". International Journal of Environmental Research and Public Health. 11 (10): 10310–10326. doi:10.3390/ijerph111010310. PMC 4210980. PMID 25286166.
  41. ^ World Health Organization 2016, p. 75.
  42. ^ ESMAP 2020, p. 22.
  43. ^ IPCC SR15 Ch5 2018, SPM.5.1.
  44. ^ United Nations (2017) Resolution adopted by the General Assembly on 6 July 2017, Work of the Statistical Commission pertaining to the 2030 Agenda for Sustainable Development (A/RES/71/313)
  45. ^ UN Statistics (2016) Goal 7 Ensure access to affordable, reliable, sustainable and modern energy for all (Updated on 30 March 2016)

Book sources edit

  • Energy Sector Management Assistance Program (ESMAP) (2020). The State of Access to Modern Energy Cooking Services. Washington, DC: World Bank.  This article incorporates text available under the CC BY 3.0 license.
  • Tester, Jefferson (2012). Sustainable Energy : Choosing Among Options. Cambridge, Massachutetts: MIT Press. ISBN 978-0-262-01747-3. OCLC 892554374.
  • World Health Organization (2016). . Geneva, Switzerland. Archived from the original on November 24, 2017.{{cite book}}: CS1 maint: location missing publisher (link)
  • Roy, J.; Tschakert, P.; Waisman, H.; Abdul Halim, S.; et al. (2018). "Chapter 5: Sustainable Development, Poverty Eradication and Reducing Inequalities" (PDF). Special Report: Global Warming of 1.5 °C. pp. 445–538.

February 16, 2024
energy, poverty, cooking, aspect, energy, poverty, lack, access, clean, modern, fuels, technologies, cooking, 2020, more, than, billion, people, developing, countries, routinely, cook, with, fuels, such, wood, animal, dung, coal, kerosene, burning, these, type. One aspect of energy poverty is lack of access to clean modern fuels and technologies for cooking As of 2020 more than 2 6 billion people in developing countries routinely cook with fuels such as wood animal dung coal or kerosene Burning these types of fuels in open fires or traditional stoves causes harmful household air pollution resulting in an estimated 3 8 million deaths annually according to the World Health Organization WHO and contributes to various health socio economic and environmental problems A traditional wood fired 3 stone stove in Guatemala which causes indoor air pollutionA high priority in global sustainable development is to make clean cooking facilities universally available and affordable Stoves and appliances that run on electricity liquid petroleum gas LPG piped natural gas PNG biogas alcohol and solar heat meet WHO guidelines for clean cooking Universal access to clean cooking facilities would have large benefits for environmental protection and for gender equality Stoves that burn wood and other solid fuels more efficiently than traditional stoves are known as improved cookstoves or clean cookstoves With very few exceptions these stoves deliver fewer health benefits than stoves that use liquid or gaseous fuels However they reduce fuel usage and thus help to prevent environmental degradation Improved cookstoves are an important interim solution in areas where deploying cleaner technologies is less feasible Initiatives to encourage cleaner cooking practices have yielded limited success For various practical cultural and economic reasons it is common for families who adopt clean stoves and fuels to continue to make frequent use of traditional fuels and stoves Contents 1 Issues with traditional cooking fuels 1 1 Health impacts 1 2 Impacts on women and girls 1 3 Environmental impacts 2 Terminology 3 WHO recommended clean cooking facilities 4 Improved cook stoves 4 1 Benefits and limitations 5 Non technological interventions 6 Challenges 7 Environmental and sustainable development effects 8 See also 9 References 9 1 Book sourcesIssues with traditional cooking fuels edit nbsp Traditional wood burning stovesHealth impacts edit Further information Household air pollution Health impacts As of 2020 more than 2 6 billion people 1 in developing countries rely on burning polluting biomass fuels such as wood dry dung coal or kerosene for cooking which causes harmful household air pollution and also contributes significantly to outdoor air pollution 2 The World Health Organization WHO estimates that cooking related pollution causes 3 8 million annual deaths 3 The Global Burden of Disease study estimated the number of deaths in 2017 at 1 6 million 4 In traditional cooking facilities smoke is typically vented into the home rather than out through a chimney Solid fuel smoke contains thousands of substances many of which are hazardous to human health The most well understood of these substances are carbon monoxide CO small particulate matter nitrous oxide sulfur oxides a range of volatile organic compounds including formaldehyde benzene and 1 3 butadiene and polycyclic aromatic compounds such as benzo a pyrene which are thought to have both short and long term health consequences 5 Exposure to household air pollution HAP nearly doubles the risk of childhood pneumonia and is responsible for 45 percent of all pneumonia deaths in children under five years of age Emerging evidence shows that HAP is also a risk factor for cataracts the leading cause of blindness in lower middle income countries and low birth weight 6 Cooking with open fires or unsafe stoves is a leading cause of burns among women and children in developing countries 7 Impacts on women and girls edit Health effects are concentrated among women who are likely to be responsible for cooking and young children 2 The work of gathering fuel exposes women and children to safety risks and often consumes 15 or more hours per week constraining their available time for education rest and paid work 2 Women and girls must often walk long distances to obtain cooking fuel and as a result face increased risk of physical and sexual violence 8 Many children particularly girls may not attend school in order to help their mothers with firewood collection and food preparation 8 Environmental impacts edit Traditional cooking facilities are highly inefficient allowing heat to escape into the open air The inefficiency of fuel burning results in more wood needing to be harvested and also causes emissions of black carbon a contributor to climate change 9 Serious local environmental damage including desertification can be caused by excessive harvesting of wood and other combustible material 10 While biomass harvesting in sensitive areas is problematic it is now determined that the great majority of biomass clearing is due to agricultural expansion and land conversion 11 Use of crop residue and animal waste for domestic energy has detrimental results on soil quality and agricultural and livestock productivity as it means these materials are not available as soil conditioners organic fertilizer and livestock fodder 12 Terminology editThe term clean cookstove has often been used without defining what the term means 13 Organizations vary in how they define clean According to the WHO cooking facilities are clean if their emissions of carbon monoxide and fine particulate matter are below certain levels 14 The Clean Cooking Alliance uses the term clean cooking more broadly 15 Its definition includes what the WHO refers to as improved cookstoves i e stoves that burn biomass fuel more efficiently than traditional stoves As of 2020 the vast majority of stoves that burn biomass fuel do not qualify as clean under WHO standards even if they are more efficient than traditional stoves 16 The WHO has criticized the marketing of biomass cookstoves as improved when they have not been tested against standards and their health benefits are unclear 14 WHO recommended clean cooking facilities edit nbsp Solar cookers are nonpolluting and free to use but require favourable weather and longer cooking times 17 A high priority in global sustainable development is to make clean cooking facilities universally available and affordable 18 According to the WHO stoves and appliances that are powered by electricity liquid petroleum gas LPG piped natural gas PNG biogas alcohol and solar heat are clean 17 Best in class fan gasifier stoves that burn biomass pellets can be classified as clean cooking facilities if they are correctly operated and the pellets have sufficiently low levels of moisture but these stoves are not widely available 19 Electricity can be used to power appliances such as electric pressure cookers rice cookers and highly efficient induction stoves in addition to standard electric stoves Electric induction stoves are so efficient that they create less pollution than liquified petroleum gas LPG even when connected to coal power sources and are sometimes cheaper 20 For stews beans rice and other foods that can be adapted to electric pressure cookers the savings are even greater 21 better source needed As of 2019 770 million people do not have access to electricity 22 and for many others electricity is not affordable or reliable Because access to electricity is also a high priority in global sustainable development integrated planning for new and improved electricity infrastructure that includes both typical electric loads as well as cooking loads is beginning to gain momentum Indeed this kind of integrated resource planning for electricity systems may deliver faster and lower cost solutions to both access to electricity and to clean cooking 23 24 Natural gas stoves which are widely used in richer countries are not without health risks They emit high levels of nitrogen dioxide an atmospheric pollutant that is linked to oxidative stress and acute reduction in lung function 25 Studies on the effects of indoor cooking with natural gas have yielded inconsistent results 25 According to a 2010 meta analysis the evidence suggests that the practice leads to small reductions in lung function in children and that children with allergies may be more susceptible 25 Biogas digesters convert waste such as human waste and animal dung into a methane rich gas that burns cleanly Biogas systems are a promising technology in areas where each household has at least two large animals to provide dung and a steady supply of water is also available 26 Solar cookers collect and concentrate the sun s heat when sunshine is available 17 Improved cook stoves edit Biomass cooking stove redirects here For a kitchen cooker stove range oven or stove top see Kitchen stove nbsp Improved cook stoves such as the ones shown here burn biomass relatively efficiently but usually still emit toxic levels of pollutants nbsp A traditional three stone fire in Nigeria This is the cheapest stove to produce requiring only three suitable stones of the same height on which a cooking pot can be balanced over a fire Improved cook stoves ICS often marketed as clean cookstoves 27 are biomass stoves that generally burn biomass more efficiently than traditional stoves and open fires Compared to traditional cook stoves ICS are usually more fuel efficient and aim to reduce the negative health impacts associated with exposure to toxic smoke 28 As of 2016 no widely available biomass stoves meet the standards for clean cooking as defined by the WHO 29 A 2020 review found only one biomass stove on the market that met WHO standards in field conditions 16 Despite their limitations ICS are an important interim solution where deploying fully clean solutions that use electricity gas or alcohol is less feasible 30 As of 2009 less than 30 of people who cook with some sort of biomass stove use ICS 31 Benefits and limitations edit Improved cookstoves are more efficient meaning that the stove s users spend less time gathering wood or other fuels while reducing deforestation and air pollution However a closed stove may result in production of more soot and ultra fine particles than an open fire would 32 Some designs also make the stove safer preventing burns that often occur when children stumble into open fires The efficiency improvements of ICS do not necessarily translate into meaningful reductions in health risks 33 because for certain conditions such as childhood pneumonia the relationship between pollution levels and effects on the body has been shown to be non linear This means for example that a 50 percent reduction in exposure would not halve the health risk 19 A 2020 systematic review found that ICS usage led to modest improvements in terms of blood pressure shortness of breath emissions of cancer causing substances and cardiovascular diseases but no improvements in pregnancy outcomes or children s health 34 Substantial variations in emissions and fuel consumption have been observed across ranges of cookstove designs and between laboratory and field test conditions At present a standard testing mechanism does not exist to establish the true impact of alternative cookstove designs as well as descriptive language for exposure Stove testing studies are not always consistent depending largely on the discipline of investigators and their scientific specialization 35 28 The World Health Organization encourages further research to develop biomass stove technology that is low emission affordable durable and meets users needs 29 Non technological interventions editBehavioral change interventions in reducing childhood household exposures have the potential to reduce household air pollution exposure by 20 98 Indoor Air Pollution IAP exposure can be greatly reduced by cooking outdoors reducing time spent in the cooking area keeping the kitchen door open while cooking avoid leaning over the fire while attending to the meal preparation staying away while carrying children when cooking and keeping the children away from the cooking area Negative impacts can also be reduced by changes to the environment e g use of a chimney drying fuel wood before use and using a lid during cooking 36 Opportunities to educate communities on reducing household indoor air pollution exposure include festival collaborations religious meetings and medical outreach clinics Community health workers represent a significant resource for educating communities to help raise awareness regarding reducing the effects of indoor air pollution 37 Challenges edit nbsp Access to clean fuels and technologies for cooking 38 Many users of clean stoves and fuels continue to make frequent use of traditional fuels and stoves a phenomenon known as fuel stacking or stove stacking 39 For instance a recent study in Kenya found that households that are primary LPG users consume 42 percent as much charcoal as households that are primary charcoal users 39 When stacking is practiced the introduction of clean cooking facilities may not reduce household air pollution enough to make a meaningful difference in health outcomes 17 There are many reasons to continue to use traditional fuels and stoves such as unreliable fuel supply the cost of fuel the ability of stoves to accommodate different types of pots and cooking techniques and the need to travel long distances to repair stoves 17 40 Research and implementation efforts are frequently pursued with insufficient coordination with supporting organizations which in many cases has led to widespread implementation of so called improved stoves that have sometimes failed to deliver on the promise of reducing indoor air pollution Cookstove implementation efforts have often achieved mixed results because of technical and social complexities such as the need to involve both women who typically are responsible for cooking and men who typically control household spending citation needed Efforts to improve access to clean cooking fuels and stoves have barely kept up with population growth and current and planned policies would still leave 2 4 billion people without access in 2030 1 Environmental and sustainable development effects edit nbsp A woman cooks with electricity a clean energy source in Ethiopia Transitioning to cleaner cooking methods is expected to either slightly raise greenhouse gas emissions or decrease emissions even if the replacement fuels are fossil fuels There is evidence that switching to LPG and PNG has a smaller climate effect than the combustion of solid fuels which emits methane and black carbon 41 The burning of residential solid fuels accounts for up to 58 percent of global black carbon emissions 42 The Intergovernmental Panel on Climate Change stated in 2018 The costs of achieving nearly universal access to electricity and clean fuels for cooking and heating are projected to be between 72 and 95 billion USD per year until 2030 with minimal effects on GHG emissions 43 Universal access to clean cooking is an element of the UN Sustainable Development Goal 7 whose first target is By 2030 ensure universal access to affordable reliable and modern energy services 44 Progress in clean cooking would facilitate progress in other Sustainable Development goals such as eliminating poverty Goal 1 good health and well being Goal 3 gender equality Goal 5 and climate action Goal 13 18 An indicator of Goal 7 is the proportion of population with primary reliance on clean fuels and technologies for cooking heating and lighting using the WHO s definition of clean 45 See also edit nbsp Cooking portal nbsp Food portalEnergy poverty Indoor air pollution in developing nations Sustainable energyReferences edit a b Access to clean cooking SDG7 Data and Projections Analysis IEA October 2020 Retrieved 2021 03 31 a b c World Health Organization 2016 pp VII XIV Household air pollution and health fact sheet WHO 8 May 2018 Retrieved 2020 11 21 Ritchie Hannah Roser Max 2019 Access to Energy Our World in Data Retrieved 1 April 2021 According to the Global Burden of Disease study 1 6 million people died prematurely in 2017 as a result of indoor air pollution But it s worth noting that the WHO publishes a substantially larger number of indoor air pollution deaths Peabody J W Riddell T J Smith K R Liu Y Zhao Y Gong J amp Sinton J E 2005 Indoor air pollution in rural China cooking fuels stoves and health status Archives of environmental amp occupational health 60 2 86 95 ESMAP 2020 p 17 Burns World Health Organization September 2016 Archived from the original on 21 July 2017 Retrieved 1 August 2017 a b ESMAP 2020 p 20 Timilsina Govinda R Malla Sunil 2021 01 01 Clean Cooking Why is Adoption Slow Despite Large Health and Environmental Benefits Economics of Energy amp Environmental Policy 10 1 doi 10 5547 2160 5890 9 1 gtim ISSN 2160 5882 S2CID 219660388 Tester 2012 p 504 Healthy Stoves and Fuels for Developing Nations and the Global Environment Kammen D 2003 Accessed 12 May 2007 Global Village Energy Partnership Nairobi Kenya Archived 13 June 2007 at the Wayback Machine UNDP 2005 Accessed 30 April 2007 Vaidyanathan Gayathri Most of the world s poor continue to use unhealthy and polluting traditional cookstoves Scroll in Retrieved 2021 09 26 a b World Health Organization 2016 p 11 Onakomaiya Deborah Gyamfi Joyce Iwelunmor Juliet Opeyemi Jumoke Oluwasanmi Mofetoluwa Obiezu Umeh Chisom Dalton Milena Nwaozuru Ucheoma Ojo Temitope Vieira Dorice Ogedegbe Gbenga Olopade Christopher 2019 05 14 Implementation of clean cookstove interventions and its effects on blood pressure in low income and middle income countries systematic review BMJ Open 9 5 e026517 doi 10 1136 bmjopen 2018 026517 ISSN 2044 6055 PMC 6530298 PMID 31092656 a b Gill Wiehl A Ray I Kammen D 2021 11 01 Is clean cooking affordable A review Renewable and Sustainable Energy Reviews 151 111537 doi 10 1016 j rser 2021 111537 ISSN 1364 0321 a b c d e World Health Organization 2016 pp 25 29 a b United Nations 2018 Accelerating SDG 7 Achievement Policy Brief 02 Achieving Universal Access to Clean and Modern Cooking Fuels Technologies and Services PDF UN org Retrieved April 5 2021 a b ESMAP 2020 p 19 Nugent R Mock CN Kobusingye O 2017 Chapter 7 Household Air Pollution from Solid Cookfuels and Its Effects on Health Injury Prevention and Environmental Health 3rd Edition International Bank for Reconstruction and Development The World Bank eCookbooks MECS Plus Retrieved 2022 10 28 Access to electricity SDG7 Data and Projections Analysis IEA Retrieved 2021 05 05 ESMAP 2020 The State of Access to Modern Energy Cooking Services English Washington D C World Bank Group World Bank Retrieved 2022 10 28 a href Template Cite web html title Template Cite web cite web a CS1 maint numeric names authors list link Electric cooking can improve health reduce climate impacts and boost business models for universal electrification EarthSpark International Retrieved 2022 10 28 a b c Garcia Erika Rice Mary B Gold Diane R July 2021 Air pollution and lung function in children The Journal of Allergy and Clinical Immunology 148 1 1 14 doi 10 1016 j jaci 2021 05 006 ISSN 0091 6749 PMC 8274324 PMID 34238501 Nugent R Mock C N 2017 Chapter 7 Household Air Pollution from Solid Cookfuels and Its Effects on Health In Kobusingye O et al eds Injury Prevention and Environmental Health 3rd Edition International Bank for Reconstruction and Development The World Bank Archived from the original on 13 April 2021 Retrieved 13 April 2021 How Hillary Clinton s clean stoves will help African women Madeleine Bunting The Guardian 2010 09 21 Retrieved 2023 01 08 a b Gall Elliott T Carter Ellison M Matt Earnest C Stephens Brent April 2013 Indoor Air Pollution in Developing Countries Research and Implementation Needs for Improvements in Global Public Health American Journal of Public Health 103 4 e67 e72 doi 10 2105 AJPH 2012 300955 PMC 3673244 PMID 23409891 a b World Health Organization 2016 p 88 World Health Organization 2016 p 12 Shankar Anita Johnson Michael Kay Ethan Pannu Raj Beltramo Theresa Derby Elisa Harrell Stephen Davis Curt Petach Helen 2014 07 22 Maximizing the benefits of improved cookstoves moving from acquisition to correct and consistent use Global Health Science and Practice 2 3 268 274 doi 10 9745 GHSP D 14 00060 ISSN 2169 575X PMC 4168629 PMID 25276586 Umair Irfan April 5 2013 Study finds improved cookstoves solve one emissions problem but create another ClimateWire E amp E Publishing Retrieved April 5 2013 World Health Organization 2016 pp 11 12 Pratiti Rebecca Vadala David Kalynych Zirka Sud Parul July 2020 Health effects of household air pollution related to biomass cook stoves in resource limited countries and its mitigation by improved cookstoves Environmental Research 186 109574 Bibcode 2020ER 186j9574P doi 10 1016 j envres 2020 109574 PMID 32668541 S2CID 219033298 Research and Evaluation Global Alliance for Clean Cook Stoves Retrieved 2017 10 27 Indoor air pollution and health World Health Organization fact sheet Amegah A K amp Jaakkola J J 2016 Household air pollution and the sustainable development goals Bulletin of the World Health Organization 94 3 215 Access to clean fuels and technologies for cooking Our World in Data Retrieved 15 February 2020 a b ESMAP 2020 p 42 Rhodes Evelyn Dreibelbis Robert Klasen Elizabeth Naithani Neha Baliddawa Joyce Menya Diana Khatry Subarna Levy Stephanie Tielsch James Miranda J Kennedy Caitlin Checkley William 3 October 2014 Behavioral Attitudes and Preferences in Cooking Practices with Traditional Open Fire Stoves in Peru Nepal and Kenya Implications for Improved Cookstove Interventions International Journal of Environmental Research and Public Health 11 10 10310 10326 doi 10 3390 ijerph111010310 PMC 4210980 PMID 25286166 World Health Organization 2016 p 75 ESMAP 2020 p 22 IPCC SR15 Ch5 2018 SPM 5 1 United Nations 2017 Resolution adopted by the General Assembly on 6 July 2017 Work of the Statistical Commission pertaining to the 2030 Agenda for Sustainable Development A RES 71 313 UN Statistics 2016 Goal 7 Ensure access to affordable reliable sustainable and modern energy for all Updated on 30 March 2016 Book sources edit Energy Sector Management Assistance Program ESMAP 2020 The State of Access to Modern Energy Cooking Services Washington DC World Bank nbsp This article incorporates text available under the CC BY 3 0 license Tester Jefferson 2012 Sustainable Energy Choosing Among Options Cambridge Massachutetts MIT Press ISBN 978 0 262 01747 3 OCLC 892554374 World Health Organization 2016 Burning opportunity clean household energy for health sustainable development and wellbeing of women and children Geneva Switzerland Archived from the original on November 24 2017 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link Roy J Tschakert P Waisman H Abdul Halim S et al 2018 Chapter 5 Sustainable Development Poverty Eradication and Reducing Inequalities PDF Special Report Global Warming of 1 5 C pp 445 538 Retrieved from https en wikipedia org w index php title Energy poverty and cooking amp oldid 1176482760 WHO recommended clean cooking facilities, wikipedia, wiki, book, books, library,

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