Difference between revisions of "Waterless System with Urine Diversion"

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[[Image:WaterlessSystemWithUrineDiversion.png | 800px ]]
 
[[Image:WaterlessSystemWithUrineDiversion.png | 800px ]]
  
This system is designed to separate Urine and Faeces to allow Faeces to dehydrate and/or recover the Urine for beneficial use. This system can be used anywhere, but it is especially appropriate for rocky areas where digging is difficult, where there is a high groundwater table, or in water-scarce regions.
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This system is designed to separate Urine and Faeces to allow the Faeces to dehydrate and/or recover the Urine for beneficial use. Inputs to the system can include Faeces, Urine, Anal Cleansing Water and Dry Cleansing Materials.  
  
The inputs to the system can include Faeces, Urine, Anal Cleansing Water and Dry Cleansing Materials.
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The main User Interface technology for this system is the Urine-Diverting Dry Toilet (UDDT, U.2), which allows Urine and Faeces to be separately collected. A Urinal (U.3) can additionally be installed for the effective collection of Urine. Different UDDT designs exist for different preferences (e.g., models with a third diversion for Anal Cleansing Water).  
  
There are two User Interface Technologies for this system; a [[Urine Diverting Dry Toilet]] (UDDT) or a [[Urinal]]. UDDTs with a third diversion for Anal Cleansing Water are not common, but can be manufactured locally or ordered depending on local washing customs. Dry cleansing materials will not harm the system, but they should be collected separately from the UDDT and  directly transferred for [[Surface Disposal]].
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Dehydration Vaults (S.7) are used for the Collection and Storage/Treatment of Faeces. When storing the Faeces in vaults, they should be kept as dry as possible to encourage dehydration and pathogen reduction. Therefore, the chambers should be watertight and care should be taken to ensure that no water is introduced. Anal Cleansing Water should never be put into Dehydration Vaults, but it can be diverted and discharged into a Soak Pit (D.7). Also important is a constant supply of ash, lime, soil, or sawdust to cover the Faeces. This helps to absorb humidity, minimize odours and provide a barrier between the Faeces and potential vectors (flies). If ash or lime are used, the related pH increase will also help to kill pathogenic organisms.
  
Double [[Dehydration Vaults]] are used for the Collection and Storage/Treatment Technology for Faeces. Anal Cleansing Water should never be put into Dehydration Vaults, but it can be diverted and put into a [[Soak Pit]]. When storing the Faeces in chambers, they should be kept as dry as possible to encourage dehydration and hygienization. Therefore, the chambers should be watertight and care should be taken to ensure that no water is introduced during cleaning.
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For the Collection and Storage/Treatment of Urine, Storage Tanks (S.1) are used. Alternatively, Urine can also be diverted directly to the ground through an Irrigation system (D.6) or infiltrated through a Soak Pit (D.7). Stored Urine can be easily handled and poses little risk because it is nearly sterile. With its high nutrient content it can be used as a good liquid fertilizer.
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Stored Urine can be transported for Application in agriculture (D.2) using either Jerrycans or a Tank (C.1), or a Motorized Emptying and Transport technology (C.3) – the same way that bulk water or Sludge is transported to fields.
  
Also important is a constant supply of ash, lime, or dry earth to cover the Faeces to minimize odours and provide a barrier between the Faeces and potential vectors  (flies). The pH increase will also help to kill organisms. A separate Greywater system is required since it should not be introduced into the Dehydration Vaults and preferably not into the pits.
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Human-Powered Emptying and Transport (C.2) is required for the removal and Conveyance of the Dried Faeces generated from the Dehydration Vaults. The alternating use of double Dehydration Vaults allows for an extended dehydration period so that the Dried Faeces pose little human health risk when they are removed. A minimum storage time of 6 months is recommended when ash or lime are used as cover material. The Dried Faeces can then be applied as soil conditioner (D.3). If there are concerns about the quality of the material, it can be further composted in a dedicated composting facility before it is used. If there is no use for the product, it can be temporarily stored or permanently disposed of (D.12).
  
Urine can be disposed of easily and without risk to the environment because it is generated in relatively small volumes and is nearly sterile. The Urine can be diverted directly to the ground for Use and/or Disposal as [[Application of Urine|Land Application]], [[Irrigation]] or soil infiltration through a [[Soak Pit]]. [[Urine Storage Tank|Storage Tanks]] can be used for the Collection Storage/Treatment of Urine.
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===Considerations===
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This system can be used anywhere, but is especially appropriate for rocky areas where digging is difficult, where there is a high groundwater table, or in water-scarce regions. The success of this system depends on the efficient separation of Urine and Faeces, as well as the use of a suitable cover material. A dry, hot climate can also considerably contribute to the rapid dehydration of the Faeces. The material that is removed should be in a safe, useable form, although proper personal protection should be used during removal, transport and use.
  
The Dried Faeces that are generated from the Collection and Storage/Treatment Technology can be removed and transported for Use and/or Disposal. The Conveyance Technology that can be used is [[Human-Powered Emptying and Transport|Human Powered E&T]]. The Dried Faeces pose little human health risk. Stored Urine can be transported for Use and/ or Disposal using either the [[Jerrycan - tank|Jerrycan]] or [[Motorized Emptying and Transport|Motorized E&T]] Technologies.
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A separate Greywater system is required since it should not be introduced into the Dehydration Vaults. If there is no agricultural need and/or no acceptance of using the urine, it can be directly infiltrated into the soil or into a Soak Pit. Where there are no suppliers of prefabricated UDDT pedestals or slabs, they can be locally manufactured using available materials.
  
Guidelines for the safe use of Excreta, Faecal Sludge and Urine have been published by the World Health Organization (WHO) and are referenced on the relevant Technology Information Sheets.
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All types of Dry Cleansing Materials can be used, although it is best to separately collect them as they will not decompose in the vaults and use up space. Anal Cleansing Water must be separated from the Faeces, but it can be mixed with the Urine if it is transferred to a Soak Pit. If Urine is used in agriculture, Anal Cleansing Water should be kept separate and infiltrated locally or treated along with Greywater.
  
==Considerations==
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Guidelines for the safe use of Faeces and Urine have been published by the World Health Organization (WHO) and are referenced on the relevant technology information sheets.
  
The success of this system depends on the efficient separation of urine and faeces as well as the use of a suitable drying agent; a dry, hot climate can also contribute considerably to the rapid dehydration of the faeces. The system can be used regardless of the users’ acceptance to Urine use; it can be adapted to suit the agricultural and cultural needs of the users.
 
  
All types of solid cleansing materials can be used, although they should be discarded separately. Anal Cleansing Water must be separated from the Faeces although it can be mixed with the Urine before it is transferred to the Soak Pit (not shown in the System  Template). If Urine is used in agriculture, Anal Cleansing Water should be kept separate and treated along with Greywater.
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[[Image:Waterless with urine chart.png|none|1000px|]]
  
==References==
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<br>
 
 
* 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.)
 

Revision as of 00:15, 11 October 2014

WaterlessSystemWithUrineDiversion.png

This system is designed to separate Urine and Faeces to allow the Faeces to dehydrate and/or recover the Urine for beneficial use. Inputs to the system can include Faeces, Urine, Anal Cleansing Water and Dry Cleansing Materials.

The main User Interface technology for this system is the Urine-Diverting Dry Toilet (UDDT, U.2), which allows Urine and Faeces to be separately collected. A Urinal (U.3) can additionally be installed for the effective collection of Urine. Different UDDT designs exist for different preferences (e.g., models with a third diversion for Anal Cleansing Water).

Dehydration Vaults (S.7) are used for the Collection and Storage/Treatment of Faeces. When storing the Faeces in vaults, they should be kept as dry as possible to encourage dehydration and pathogen reduction. Therefore, the chambers should be watertight and care should be taken to ensure that no water is introduced. Anal Cleansing Water should never be put into Dehydration Vaults, but it can be diverted and discharged into a Soak Pit (D.7). Also important is a constant supply of ash, lime, soil, or sawdust to cover the Faeces. This helps to absorb humidity, minimize odours and provide a barrier between the Faeces and potential vectors (flies). If ash or lime are used, the related pH increase will also help to kill pathogenic organisms.

For the Collection and Storage/Treatment of Urine, Storage Tanks (S.1) are used. Alternatively, Urine can also be diverted directly to the ground through an Irrigation system (D.6) or infiltrated through a Soak Pit (D.7). Stored Urine can be easily handled and poses little risk because it is nearly sterile. With its high nutrient content it can be used as a good liquid fertilizer. Stored Urine can be transported for Application in agriculture (D.2) using either Jerrycans or a Tank (C.1), or a Motorized Emptying and Transport technology (C.3) – the same way that bulk water or Sludge is transported to fields.

Human-Powered Emptying and Transport (C.2) is required for the removal and Conveyance of the Dried Faeces generated from the Dehydration Vaults. The alternating use of double Dehydration Vaults allows for an extended dehydration period so that the Dried Faeces pose little human health risk when they are removed. A minimum storage time of 6 months is recommended when ash or lime are used as cover material. The Dried Faeces can then be applied as soil conditioner (D.3). If there are concerns about the quality of the material, it can be further composted in a dedicated composting facility before it is used. If there is no use for the product, it can be temporarily stored or permanently disposed of (D.12).

Considerations

This system can be used anywhere, but is especially appropriate for rocky areas where digging is difficult, where there is a high groundwater table, or in water-scarce regions. The success of this system depends on the efficient separation of Urine and Faeces, as well as the use of a suitable cover material. A dry, hot climate can also considerably contribute to the rapid dehydration of the Faeces. The material that is removed should be in a safe, useable form, although proper personal protection should be used during removal, transport and use.

A separate Greywater system is required since it should not be introduced into the Dehydration Vaults. If there is no agricultural need and/or no acceptance of using the urine, it can be directly infiltrated into the soil or into a Soak Pit. Where there are no suppliers of prefabricated UDDT pedestals or slabs, they can be locally manufactured using available materials.

All types of Dry Cleansing Materials can be used, although it is best to separately collect them as they will not decompose in the vaults and use up space. Anal Cleansing Water must be separated from the Faeces, but it can be mixed with the Urine if it is transferred to a Soak Pit. If Urine is used in agriculture, Anal Cleansing Water should be kept separate and infiltrated locally or treated along with Greywater.

Guidelines for the safe use of Faeces and Urine have been published by the World Health Organization (WHO) and are referenced on the relevant technology information sheets.


Waterless with urine chart.png