Difference between revisions of "Kerosene Stoves"

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= Introduction =
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= Introduction<br/> =
  
 
Kerosene, also called paraffin in some countries, is a product of crude oil, and mainly consists of a mixture of hydrocarbons. In many developing countries, Kerosene is commonly used in urban households for both cooking and lighting. Kerosene stoves are widely available and affordable for urban population groups.
 
Kerosene, also called paraffin in some countries, is a product of crude oil, and mainly consists of a mixture of hydrocarbons. In many developing countries, Kerosene is commonly used in urban households for both cooking and lighting. Kerosene stoves are widely available and affordable for urban population groups.
  
For more information on kerosene as a cooking fuel see [[Cooking_with_Kerosene|Cooking with Kerosene.]]
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For more information on kerosene as a cooking fuel see [[Cooking with Kerosene|Cooking with Kerosene.]]
  
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[[File:I HEDON Kerosene Stove Woman.jpg|thumb|left|300px|alt=I HEDON Kerosene Stove Woman.jpg]]<br/>
  
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= Kerosene Stove Types =
 
= Kerosene Stove Types =
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A wide variety of portable kerosene stoves have been developed, which can be grouped into two categories, namely wick type stoves and pressurized stoves. For pictures see [http://www.hedon.info/kerosenestove?bl=y HEDON].
 
A wide variety of portable kerosene stoves have been developed, which can be grouped into two categories, namely wick type stoves and pressurized stoves. For pictures see [http://www.hedon.info/kerosenestove?bl=y HEDON].
  
Although there are a wide variety of kerosene stoves in use, only few emissions data for kerosene stoves are available. Generally, there is not much information available on kerosene stove tests or performance comparisons to other stove types. In a recent article they are even described as the “least studied cookstoves”.<ref name=" Pooja Arora, Suresh Jain (2016): A review of chronological development in cookstove assessment methods: Challenges and way forward. In: Renewable and Sustainable Energy Reviews 55 (2016) 203–220."> Pooja Arora, Suresh Jain (2016): A review of chronological development in cookstove assessment methods: Challenges and way forward. In: Renewable and Sustainable Energy Reviews 55 (2016) 203–220.</ref> Test results of Aprovecho Research Center showed that when 5 liters of water were boiled and kept simmering for 45 minutes, the tested kerosene wick stove model emitted less CO, PM and used less fuel compared to many other stove types.<ref name="Aprovecho Research Center, PCIA, Shell Foundation, USEPA (2011): Test Results of Cook Stove Performance. http://www.ewb-usa.org/files/2015/05/TestResultsCookstovePerformance.pdf">Aprovecho Research Center, PCIA, Shell Foundation, USEPA (2011): Test Results of Cook Stove Performance. http://www.ewb-usa.org/files/2015/05/TestResultsCookstovePerformance.pdf</ref>  
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Although there are a wide variety of kerosene stoves in use, only few emissions data for kerosene stoves are available. Generally, there is not much information available on kerosene stove tests or performance comparisons to other stove types. In a recent article they are even described as the “least studied cookstoves”.<ref name="Pooja Arora, Suresh Jain (2016): A review of chronological development in cookstove assessment methods: Challenges and way forward. In: Renewable and Sustainable Energy Reviews 55 (2016) 203–220."> Pooja Arora, Suresh Jain (2016): A review of chronological development in cookstove assessment methods: Challenges and way forward. In: Renewable and Sustainable Energy Reviews 55 (2016) 203–220.</ref> Test results of Aprovecho Research Center showed that when 5 liters of water were boiled and kept simmering for 45 minutes, the tested kerosene wick stove model emitted less CO, PM and used less fuel compared to many other stove types.<ref name="Aprovecho Research Center, PCIA, Shell Foundation, USEPA (2011): Test Results of Cook Stove Performance. http://www.ewb-usa.org/files/2015/05/TestResultsCookstovePerformance.pdf">Aprovecho Research Center, PCIA, Shell Foundation, USEPA (2011): Test Results of Cook Stove Performance. http://www.ewb-usa.org/files/2015/05/TestResultsCookstovePerformance.pdf</ref>
  
 
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== Wick Stoves ==
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Simple stoves are constructed in the same way as oil lamps, which use a wick to draw fuel from the tank to the burner and which produce a lot of soot due to incomplete combustion.<ref name="https://en.wikipedia.org/wiki/Primus_stove">https://en.wikipedia.org/wiki/Primus_stove</ref> Improved kerosene wick stoves can have up to 30 or 40 wicks. A common design incorporates a series of wicks, usually made of loosely twisted or woven cotton, placed in a holder such that they can be moved up and down by a control lever or knob.<ref name="Practical Action: Kerosene and Liquefied Petroleum Gas (Technical Brief). https://energypedia.info/wiki/File:Kerosene_and_Liquid_Petroleum_Gas.pdf">Practical Action: Kerosene and Liquefied Petroleum Gas (Technical Brief). https://energypedia.info/wiki/File:Kerosene_and_Liquid_Petroleum_Gas.pdf</ref>
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Wick stoves are cheap but also very unsafe. An inherent problem of wick type stoves is the tank may heat up when used for a long time, causing an explosion of the stove. Due to unsafe performance of kerosene wick stoves, South Africa made new standards for paraffin wick stoves mandatory in 2007, thus banning the old stoves.<ref name="Philip Lloyd (2009): Developing safe paraffin appliances in South Africa. In: Boiling Point 56. http://www.hedon.info/docs/BP56_Lloyd.pdf">Philip Lloyd (2009): Developing safe paraffin appliances in South Africa. In: Boiling Point 56. http://www.hedon.info/docs/BP56_Lloyd.pdf</ref> This triggered the development of a number of new wick paraffin stoves in South Africa, which are safer and more efficient.
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== Pressurized Stoves ==
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Pressurized stoves are more expensive, but also safer, more convenient and efficient. Air and kerosene can be premixed by means of a hand pump. A pressurized kerosene stove has a fuel tank, a vapor burner and a pot holder. Vaporized kerosene fuel is passed under pressure through a nozzle and mixes with air to form a flame. To initiate the process the vaporizer has to be preheated using an alcohol based flame which burns for several minutes in a tray placed below the vaporizer. Once the temperature of the vaporizer is raised sufficiently the kerosene can then be vaporized by the heat of the cooking flame and the alcohol flame can be allowed to extinguish. The pressure forces kerosene through the vaporizer continuously and is controlled by the adjustment valve.<ref name="Practical Action: Kerosene and Liquefied Petroleum Gas (Technical Brief). https://energypedia.info/wiki/File:Kerosene_and_Liquid_Petroleum_Gas.pdf">Practical Action: Kerosene and Liquefied Petroleum Gas (Technical Brief). https://energypedia.info/wiki/File:Kerosene_and_Liquid_Petroleum_Gas.pdf</ref> To control the flame intensity, thus the heat output, the user can regulate the pressure of the tank by pumping the tank more to increase the pressure and make the flame larger; turning a small "air screw" (usually located in the filler cap) will release pressure from the tank and make the flame smaller.<ref name="https://en.wikipedia.org/wiki/Primus_stove">https://en.wikipedia.org/wiki/Primus_stove</ref>
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The Primus stove, the first pressurized-burner kerosene stove, was developed in 1892.&nbsp; It quickly earned a reputation as a reliable and durable stove in everyday use.<ref name="https://en.wikipedia.org/wiki/Primus_stove">https://en.wikipedia.org/wiki/Primus_stove</ref>
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= Advantages and Disadvantages of Kerosene Stoves =
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Advantages
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*On pressurized stoves cooking is fast;
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*Heat is easy to control;
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*Pressurized stoves may be very clean burning
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*It is an alternative back-up technology for urban electricity users in case of power cuts.
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Disadvantages:<ref name="http://www.hedon.info/Kerosene?bl=y">http://www.hedon.info/Kerosene?bl=y</ref><ref name="http://www.newdawnengineering.com/website/stove/paraffin/">http://www.newdawnengineering.com/website/stove/paraffin/</ref><ref name="Nicholas L. Lam, Kirk R. Smith, Alison Gauthier, Michael N. Bates (2012): Kerosene: A Review of Household Uses and their Hazards in Low- and Middle-Income Countries http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3664014/">Nicholas L. Lam, Kirk R. Smith, Alison Gauthier, Michael N. Bates (2012): Kerosene: A Review of Household Uses and their Hazards in Low- and Middle-Income Countries http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3664014/</ref>
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*Kerosene is an exhaustible resource.
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*When used in cheap wick stoves, kerosene can produce high levels of pollutants, and can significantly contribute to indoor air pollution and ill-health;
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*Lacking safety features of cheap devices and careless handling causes a large number of fires and deaths every year as kerosene is highly flammable. User mistakes for example include fuel spillages, refilling while the burner is running, and tumbling the stove while it is burning;
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*Wick type stoves can explode because the tank may heat up when used for a long time;
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*Nozzles in pressurized cookers can get clogged by soot.
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= Further Information =
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*[[Cooking with Kerosene|Cooking with Kerosene]], article on energypedia
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*[[:File:Kerosene and Liquid Petroleum Gas.pdf|Kerosene and Liquefied Petroleum Gas]] (Technical Brief) by Practical Action.<br/>A brief but good introduction with focus on kerosene.
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*[[:File:A Study on the Market Potential of Paraffin Appliances in South Africa.pdf|A Study on the Market Potential of Paraffin Appliances in South Africa]] by The Paraffin Safety Association of Southern Africa (PASASA) (2010).<br/>The study reveals the importance of paraffin for cooking in South Africa, identifies the distribution chains for paraffin stoves and examines the difficult trade-off between affordability, availability, convenience, costs and the safety issues of paraffin appliances in the South African market.
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*[https://cdm.unfccc.int/filestorage/t/t/7H21I0UVC48DJZ5EO3YPXNFGQLRBWM.pdf/The-status-of-paraffin-appliances-in-South-Africa_-_PSASA.pdf?t=ZVp8bnhuaWp2fDDJFa88bco4GIo3QPOnQKrc The status of paraffin appliances in South Africa] by the Paraffin Safety Association of Southern Africa (2008)<br/>This document explains the process of developing compulsory standards as well as progress so far, focusing primarily on paraffin appliance standards.
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*[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3664014/ Kerosene: A Review of Household Uses and their Hazards in Low- and Middle-Income Countries] by Nicholas L. Lam, Kirk R. Smith, Alison Gauthier, Michael N. Bates (2012)<br/>This review focuses on household kerosene uses, mainly in developing countries, their associated emissions, and their hazards.
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= References =
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This article was originally published by [http://www.giz.de/fachexpertise/html/2769.html GIZ HERA]. It is basically based on experiences, lessons learned and information gathered by GIZ cook stove projects. You can find more information about the authors and experts of the original “Cooking Energy Compendium” in the [[Imprint - GIZ HERA Cooking Energy Compendium|Imprint]].
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<br/>Top of page
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<br/>[[GIZ HERA Cooking Energy Compendium|--> Back to Overview GIZ HERA Cooking Energy Compendium]]
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{{#set: Hera category=Cooking Energy System}}
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[[Category:Fossil_Fuel]]
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[[Category:Kerosene]]
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[[Category:Cookstoves]]
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[[Category:Cooking_Energy_Compendium_(GIZ_HERA)]]

Latest revision as of 13:04, 30 April 2018

GIZ HERA Cooking Energy Compendium small.png



Cooking Energy System | Basics | Policy Advice | Planning | Designing and Implementing ICS Supply | Designing and Implementing Woodfuel Supply | Climate Change | Extra


Introduction

Kerosene, also called paraffin in some countries, is a product of crude oil, and mainly consists of a mixture of hydrocarbons. In many developing countries, Kerosene is commonly used in urban households for both cooking and lighting. Kerosene stoves are widely available and affordable for urban population groups.

For more information on kerosene as a cooking fuel see Cooking with Kerosene.

I HEDON Kerosene Stove Woman.jpg



Kerosene Stove Types

A wide variety of portable kerosene stoves have been developed, which can be grouped into two categories, namely wick type stoves and pressurized stoves. For pictures see HEDON.

Although there are a wide variety of kerosene stoves in use, only few emissions data for kerosene stoves are available. Generally, there is not much information available on kerosene stove tests or performance comparisons to other stove types. In a recent article they are even described as the “least studied cookstoves”.[1] Test results of Aprovecho Research Center showed that when 5 liters of water were boiled and kept simmering for 45 minutes, the tested kerosene wick stove model emitted less CO, PM and used less fuel compared to many other stove types.[2]


Wick Stoves

Simple stoves are constructed in the same way as oil lamps, which use a wick to draw fuel from the tank to the burner and which produce a lot of soot due to incomplete combustion.[3] Improved kerosene wick stoves can have up to 30 or 40 wicks. A common design incorporates a series of wicks, usually made of loosely twisted or woven cotton, placed in a holder such that they can be moved up and down by a control lever or knob.[4]

Wick stoves are cheap but also very unsafe. An inherent problem of wick type stoves is the tank may heat up when used for a long time, causing an explosion of the stove. Due to unsafe performance of kerosene wick stoves, South Africa made new standards for paraffin wick stoves mandatory in 2007, thus banning the old stoves.[5] This triggered the development of a number of new wick paraffin stoves in South Africa, which are safer and more efficient.


Pressurized Stoves

Pressurized stoves are more expensive, but also safer, more convenient and efficient. Air and kerosene can be premixed by means of a hand pump. A pressurized kerosene stove has a fuel tank, a vapor burner and a pot holder. Vaporized kerosene fuel is passed under pressure through a nozzle and mixes with air to form a flame. To initiate the process the vaporizer has to be preheated using an alcohol based flame which burns for several minutes in a tray placed below the vaporizer. Once the temperature of the vaporizer is raised sufficiently the kerosene can then be vaporized by the heat of the cooking flame and the alcohol flame can be allowed to extinguish. The pressure forces kerosene through the vaporizer continuously and is controlled by the adjustment valve.[4] To control the flame intensity, thus the heat output, the user can regulate the pressure of the tank by pumping the tank more to increase the pressure and make the flame larger; turning a small "air screw" (usually located in the filler cap) will release pressure from the tank and make the flame smaller.[3]

The Primus stove, the first pressurized-burner kerosene stove, was developed in 1892.  It quickly earned a reputation as a reliable and durable stove in everyday use.[3]


Advantages and Disadvantages of Kerosene Stoves

Advantages

  • On pressurized stoves cooking is fast;
  • Heat is easy to control;
  • Pressurized stoves may be very clean burning
  • It is an alternative back-up technology for urban electricity users in case of power cuts.


Disadvantages:[6][7][8]

  • Kerosene is an exhaustible resource.
  • When used in cheap wick stoves, kerosene can produce high levels of pollutants, and can significantly contribute to indoor air pollution and ill-health;
  • Lacking safety features of cheap devices and careless handling causes a large number of fires and deaths every year as kerosene is highly flammable. User mistakes for example include fuel spillages, refilling while the burner is running, and tumbling the stove while it is burning;
  • Wick type stoves can explode because the tank may heat up when used for a long time;
  • Nozzles in pressurized cookers can get clogged by soot.


Further Information


References

This article was originally published by GIZ HERA. It is basically based on experiences, lessons learned and information gathered by GIZ cook stove projects. You can find more information about the authors and experts of the original “Cooking Energy Compendium” in the Imprint.


  1. Pooja Arora, Suresh Jain (2016): A review of chronological development in cookstove assessment methods: Challenges and way forward. In: Renewable and Sustainable Energy Reviews 55 (2016) 203–220.
  2. Aprovecho Research Center, PCIA, Shell Foundation, USEPA (2011): Test Results of Cook Stove Performance. http://www.ewb-usa.org/files/2015/05/TestResultsCookstovePerformance.pdf
  3. 3.0 3.1 3.2 https://en.wikipedia.org/wiki/Primus_stove
  4. 4.0 4.1 Practical Action: Kerosene and Liquefied Petroleum Gas (Technical Brief). https://energypedia.info/wiki/File:Kerosene_and_Liquid_Petroleum_Gas.pdf
  5. Philip Lloyd (2009): Developing safe paraffin appliances in South Africa. In: Boiling Point 56. http://www.hedon.info/docs/BP56_Lloyd.pdf
  6. http://www.hedon.info/Kerosene?bl=y
  7. http://www.newdawnengineering.com/website/stove/paraffin/
  8. Nicholas L. Lam, Kirk R. Smith, Alison Gauthier, Michael N. Bates (2012): Kerosene: A Review of Household Uses and their Hazards in Low- and Middle-Income Countries http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3664014/



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