Difference between revisions of "Double Ventilated Improved Pit"

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|{{Language-box|english_link=Double_Ventilated_Improved_Pit|french_link=Latrine_améliorée_à_double_fosses_ventilées|spanish_link=Pozos_Doble_Mejorado_Ventilado|hindi_link=coming soon|malayalam_link=coming soon|tamil_link=coming soon | korean_link=coming soon | chinese_link=Coming soon | indonesian_link=Coming soon | japanese_link=Coming soon}}
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sys1=[[Waterless System with Alternating Pits|2]] |
 
sys1=[[Waterless System with Alternating Pits|2]] |
 
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ManShared=XX|
 
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Input1=Excreta|Input2=Faeces |Input3=Anal cleansing water| Input4= |Input5=|
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Input1=Excreta|Input2=Faeces |Input3=Anal Cleansing Water| Input4=Dry Cleansing Materials |Input5=|
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Output1=Pit Humus| Output2= | Output3= | Output4= | Output5=
 
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|[[Image:Double_ventilated_improved_pit.png |right|500px]]
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<br>
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----
  
[[Image:Icon_double_ventilated_improved_pit.png |right|95px]]
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<br>
'''The Double VIP has almost the same design as the [[Single Ventilated Improved Pit|Single VIP]] with the added advantage of a second pit that allows the technology to be used continuously and allows for safer and easier emptying.'''
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[[Image:Icon_double_ventilated_improved_pit.png |right|80px]]
 
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'''The Double VIP (S.4) has almost the same design as the [[Single Ventilated Improved Pit|Single VIP]] (S.3) with the added advantage of a second pit that allows the technology to be used continuously and allows for safer and easier emptying.'''
  
 
By using two pits, one pit can be used while the contents of the second pit rests, drains, reduces in volume, and degrades. When the second pit is almost full (the excreta is 50cm from the top of the pit), it is covered, and the contents of the first pit are removed. Due to the extended resting time (at least 1 year of filling/resting) the material within the pit should be sanitized and humus-like. The Double VIP is similar to the [[Fossa Alterna]] technology with the exception that the Fossa Alterna is specifically designed to produce humus and as such, it requires regular additions of soil, ash and/or leaves.
 
By using two pits, one pit can be used while the contents of the second pit rests, drains, reduces in volume, and degrades. When the second pit is almost full (the excreta is 50cm from the top of the pit), it is covered, and the contents of the first pit are removed. Due to the extended resting time (at least 1 year of filling/resting) the material within the pit should be sanitized and humus-like. The Double VIP is similar to the [[Fossa Alterna]] technology with the exception that the Fossa Alterna is specifically designed to produce humus and as such, it requires regular additions of soil, ash and/or leaves.
  
The superstructure may either extend over both holes or it may be designed to move from one pit to the other. In either case, the pit that is not being filled should be fully covered and sealed to prevent water, garbage and animals (and/or people) from falling into the pit. The ventilation of the two pits can be accomplished using one ventilation pipe moved back and forth between the pits or each pit can be equipped with its own dedicated pipe. The two pits in the Double VIP are continually used and should be well lined and supported to ensure longevity.
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'''Design Considerations:''' The superstructure may either extend over both holes or it may be designed to move from one pit to the other. In either case, the pit that is not being filled should be fully covered and sealed to prevent water, garbage and animals, or people from falling into the pit. The ventilation of the two pits can be accomplished using one ventilation pipe moved back and forth between the pits, or each pit can be equipped with its own dedicated pipe. The two pits in the double VIP are continually used and should be well lined and supported to ensure longevity.
 
  
{{procontable | pro=
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<br>
- Longer life than Single VIP (indefinite if maintained). <br> - Potential for use of stored faecal material as soil conditioner. <br> - Flies and odours are significantly reduced (compared to non-ventilated pits). <br> - Does not require a constant source of water. <br> - Suitable for all types of user (sitters, squatters, washers and wipers). <br> - Can be built and repaired with locally available materials <br> - Can be used immediately after construction. <br> - Small land area required. | con=
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{{procontable  
- Low/moderate reduction in pathogens. <br> - Higher capital cost than Single VIP; reduced operating costs if self-emptied.  
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| pro=
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- Longer life than Single VIP (indefinite if maintained). <br> - Excavation of humus is easier than faecal sludge. <br> - Significant reduction in pathogens <br> - Potential for use of stored faecal material as soil conditioner. <br> - Flies and odours are significantly reduced (compared to non-ventilated pits). <br> - Can be built and repaired with locally available materials <br> - Does not require a constant source of water. <br> - Suitable for all types of user (sitters, squatters, washers and wipers). <br> - Can be used immediately after construction. <br> - Small land area required.  
 +
| con=  
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- Manual removal of humus is required<br> - Possible contamination of groundwater<br> - Higher capital cost than Single VIP; reduced operating costs if self-emptied.  
 
}}
 
}}
  
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===Appropriateness===
 +
The Double VIP is more appropriate than the [[Single Ventilated Improved Pit|Single VIP]] for denser, peri-urban areas. After the resting time, the soil-like material is manually emptied (it is dug out, not pumped out), so vacuum truck access to the pits is not necessary. The double VIP technology will only work properly if the two pits are used sequentially and not concurrently. Therefore, an adequate cover for the out of service pit is required. Double VIPs are especially appropriate when water is scarce and where there is a low groundwater table. They should be located in an area with a good breeze to allow for proper ventilation. They are not suited for rocky or compacted soils (that are difficult to dig) or for areas that flood frequently.
  
==Adequacy==
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===Health Aspects/Acceptance===
 
 
The Double VIP is more appropriate than the [[Single Ventilated Improved Pit|Single VIP]] for denser, peri-urban areas. The material is manually emptied (it is dug out, not pumped out), so vacuum truck access to the pits is not necessary. The users can remove the pit material after a sufficient resting time of one or more years even though the treatment processes in the pit are not complete and the material is not entirely hygienic. The Double VIP technology will only work properly if the two pits are used sequentially and not concurrently. Therefore, an adequate cover for the out of service pit is required. Double VIPs are especially appropriate when water is scarce and where there is a low groundwater table. They should be located in an area with a good breeze. They are not suited for rocky or compacted soils (that are difficult to dig) or for areas that flood frequently.
 
 
 
 
 
==Health Aspects/Acceptance==  
 
 
 
 
The Double VIP can be a very clean, comfortable and well accepted sanitation option, in some cases even more so than a water-based technology. However some health concerns exist:
 
The Double VIP can be a very clean, comfortable and well accepted sanitation option, in some cases even more so than a water-based technology. However some health concerns exist:
  
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* Health risks from flies are not completely removed by ventilation.
 
* Health risks from flies are not completely removed by ventilation.
  
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===Operation & Maintenance===
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To keep the Double VIP free of flies and odours, regular cleaning and maintenance is required. Dead flies, spider webs, dust and other debris should be removed from the ventilation screen to ensure a good flow of air. The out of service pit should be well sealed to reduce water infiltration and a proper alternating schedule must be maintained.
  
==Maintenance==
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===Field experiences===
 
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<br>
To keep the Double VIP free of flies and odours, regular cleaning and maintenance is required. Dead flies, spider webs, dust and other debris should be removed from the ventilation screen to ensure a good flow of air. The out of service pit should be well sealed to reduce water infiltration and a proper alternating schedule must be maintained.
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|[[Image:project 360.jpg |thumb|center|140px|<font size="2"><center>[http://rsr.akvo.org/project/360/ RSR Project 360]<br>WASH Facilities at Kajiado Schools</center></font>|link=http://rsr.akvo.org/project/360/ ]]
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|[[Image:project 474.jpg |thumb|center|140px|<font size="2"><center>[http://rsr.akvo.org/project/474/ RSR Project 474]<br>Health & Sanitation project</center></font>|link=http://rsr.akvo.org/project/474/ ]]
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<br>
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===References===
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* ARGOSS (2001). [http://www.susana.org/_resources/documents/default/2-1926-argoss-manual.pdf Guidelines for Assessing the Risk to Groundwater from on-Site Sanitation]. British Geological Survey Commissioned Report, CR/01/142, Keyworth, UK.
  
==References==
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* Franceys, R., Pickford, J. and Reed, R. (1992). [https://www.susana.org/_resources/documents/default/2-1651-who-a-guide-to-the-development-of-on-site-sanitation.pdf A Guide to the Development of on-Site Sanitation]. WHO, Geneva, CH.
* Elizabeth Tilley et.al (2008). [http://www.eawag.ch/organisation/abteilungen/sandec/publikationen/publications_sesp/downloads_sesp/compendium_high.pdf Compendium of Sanitation Systems and Technologies] ([http://www.eawag.ch/organisation/abteilungen/sandec/publikationen/publications_sesp/downloads_sesp/compendium_low.pdf low res version]). Department of Water and Sanitation in Development Countries ([http://www.sandec.ch/ Sandec]) at the Swiss Federal Institute of Aquatic Science and Technology (Eawag). (Provides a full overview of sanitation systems.)
 
  
* Mara DD. (1984). The Design of Ventilated Improved Pit Latrines (UNDP Interreg. Project INT/81/047). The World Bank+ UNDP, Washington. (A good reference for detailed Double Pit VIP design information.)
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* Graham, J. P. and Polizzotto, M. L. (2013). [https://pubmed.ncbi.nlm.nih.gov/23518813/ Pit Latrines and Their Impacts on Groundwater Quality: A Systematic Review]. Environmental Health Perspectives, National Institute of Environmental Health Sciences, Research Triangle Park, US.
  
* Mara, DD. (1996). Low-Cost Urban Sanitation. Wiley, Chichester, UK. (General description of VIPs with a focus on the ventilation system.) General Information:
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* Mara, D. D. (1984). [https://www.pseau.org/outils/ouvrages/world_bank_the_design_of_ventilated_lmproved_pit_latrines_1984.pdf The Design of Ventilated Improved Pit Latrines]. UNDP Interregional Project INT/81/047, The World Bank and UNDP, Washington, D.C., US. (A good reference for detailed double VIP design information)
  
* Franceys, R., Pickford, J. and Reed, R. (1992). A guide to the development of on-site sanitation. WHO, Geneva.
+
* Mara, D. D. (1996). Low-Cost Urban Sanitation. Wiley, Chichester, UK. (Book; General description of VIPs with a focus on the ventilation system)
  
* Lewis, JW., et al. (1982). The Risk of Groundwater Pollution by on-site Sanitation in Developing Countries. International Reference Centre for Waste Disposal, Dübendorf, Switzerland. (Detailed study regarding the transport and die-off of microorganisms and implications for locating technologies.)
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* Morgan, P. R. (2009). [http://www.ecosanres.org/pdf_files/EcologicalToilets-PeterMorgan-Mar2009.pdf Ecological Toilets. Start Simple and Upgrade from Arborloo to VIP]. Stockholm Environment Institute, Stockholm, SE.
  
* The World Bank (1986). Information and Training for Low-Cost Water Supply and Sanitation (UNDP Project INT/82/002). The World Bank, Washington.
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===Acknowledgements===
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{{:Acknowledgements Sanitation}}

Latest revision as of 02:11, 16 January 2021

English Français Español भारत മലയാളം தமிழ் 한국어 中國 Indonesia Japanese
Applicable in systems:
2
Level of Application
Household XX
Neighbourhood X
City

 

Inputs
Excreta, Faeces, Anal Cleansing Water, Dry Cleansing Materials


Level of management
Household XX
Shared XX
Public X

 

Outputs
Pit Humus
Double ventilated improved pit.png




Icon double ventilated improved pit.png

The Double VIP (S.4) has almost the same design as the Single VIP (S.3) with the added advantage of a second pit that allows the technology to be used continuously and allows for safer and easier emptying.

By using two pits, one pit can be used while the contents of the second pit rests, drains, reduces in volume, and degrades. When the second pit is almost full (the excreta is 50cm from the top of the pit), it is covered, and the contents of the first pit are removed. Due to the extended resting time (at least 1 year of filling/resting) the material within the pit should be sanitized and humus-like. The Double VIP is similar to the Fossa Alterna technology with the exception that the Fossa Alterna is specifically designed to produce humus and as such, it requires regular additions of soil, ash and/or leaves.

Design Considerations: The superstructure may either extend over both holes or it may be designed to move from one pit to the other. In either case, the pit that is not being filled should be fully covered and sealed to prevent water, garbage and animals, or people from falling into the pit. The ventilation of the two pits can be accomplished using one ventilation pipe moved back and forth between the pits, or each pit can be equipped with its own dedicated pipe. The two pits in the double VIP are continually used and should be well lined and supported to ensure longevity.


Advantages Disadvantages/limitations
- Longer life than Single VIP (indefinite if maintained).
- Excavation of humus is easier than faecal sludge.
- Significant reduction in pathogens
- Potential for use of stored faecal material as soil conditioner.
- Flies and odours are significantly reduced (compared to non-ventilated pits).
- Can be built and repaired with locally available materials
- Does not require a constant source of water.
- Suitable for all types of user (sitters, squatters, washers and wipers).
- Can be used immediately after construction.
- Small land area required.
- Manual removal of humus is required
- Possible contamination of groundwater
- Higher capital cost than Single VIP; reduced operating costs if self-emptied.


Appropriateness

The Double VIP is more appropriate than the Single VIP for denser, peri-urban areas. After the resting time, the soil-like material is manually emptied (it is dug out, not pumped out), so vacuum truck access to the pits is not necessary. The double VIP technology will only work properly if the two pits are used sequentially and not concurrently. Therefore, an adequate cover for the out of service pit is required. Double VIPs are especially appropriate when water is scarce and where there is a low groundwater table. They should be located in an area with a good breeze to allow for proper ventilation. They are not suited for rocky or compacted soils (that are difficult to dig) or for areas that flood frequently.

Health Aspects/Acceptance

The Double VIP can be a very clean, comfortable and well accepted sanitation option, in some cases even more so than a water-based technology. However some health concerns exist:

  • Latrine leachate can contaminate groundwater;
  • Pits are susceptible to failure/overflowing during floods; and
  • Health risks from flies are not completely removed by ventilation.

Operation & Maintenance

To keep the Double VIP free of flies and odours, regular cleaning and maintenance is required. Dead flies, spider webs, dust and other debris should be removed from the ventilation screen to ensure a good flow of air. The out of service pit should be well sealed to reduce water infiltration and a proper alternating schedule must be maintained.

Field experiences


Akvorsr logo lite.png
RSR Project 360
WASH Facilities at Kajiado Schools
RSR Project 474
Health & Sanitation project


References

  • Mara, D. D. (1996). Low-Cost Urban Sanitation. Wiley, Chichester, UK. (Book; General description of VIPs with a focus on the ventilation system)

Acknowledgements

Eawag compendium cover.png

The material on this page was adapted from:

Elizabeth Tilley, Lukas Ulrich, Christoph Lüthi, Philippe Reymond and Christian Zurbrügg (2014). Compendium of Sanitation Systems and Technologies, published by Sandec, the Department of Water and Sanitation in Developing Countries of Eawag, the Swiss Federal Institute of Aquatic Science and Technology, Dübendorf, Switzerland.

The 2nd edition publication is available in English. French and Spanish are yet to come.