Difference between revisions of "Dehydration Vaults"
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− | {{ | + | |{{Language-box|english_link=Dehydration_Vaults|french_link=Chambre_de_déshydratation|spanish_link=Camaras_de_Deshidratacion|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}} |
+ | |} | ||
+ | {|width="100%" | ||
+ | |style="width:50%;"|{{santable_new| | ||
sys1=[[Waterless System with Urine Diversion|4]]| | sys1=[[Waterless System with Urine Diversion|4]]| | ||
sys2=| | sys2=| | ||
Line 9: | Line 12: | ||
sys7=| | sys7=| | ||
sys8=| | sys8=| | ||
+ | sys9=| | ||
pic=Dehydration_vaults.png| | pic=Dehydration_vaults.png| | ||
ApplHousehold=XX| | ApplHousehold=XX| | ||
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ManShared=XX| | ManShared=XX| | ||
ManPublic=X| | ManPublic=X| | ||
− | Input1=Faeces |Input2=| Organics |Input3=|Input4=|Input5=| | + | Input1=Faeces |Input2=Dry Cleansing Materials| Organics |Input3=|Input4=|Input5=| |
Output1=Dried Faeces |Output2= | Output3= | Output4= | Output5= | Output1=Dried Faeces |Output2= | Output3= | Output4= | Output5= | ||
}} | }} | ||
+ | |[[Image:Dehydration_vaults.png |right|500px]] | ||
+ | |} | ||
+ | <br> | ||
+ | ---- | ||
+ | <br> | ||
+ | [[Image:Icon_dehydration_vault.png |right|80px]] | ||
− | '''Dehydration vaults are used to collect, store and dry (dehydrate) faeces. Faeces will only dehydrate when the vaults are watertight to prevent external moisture from entering and when urine and anal cleansing water are diverted away from the vaults.''' | + | '''Dehydration vaults are used to collect, store and dry (dehydrate) faeces. Faeces will only dehydrate when the vaults are well ventilated, watertight to prevent external moisture from entering, and when urine and anal cleansing water are diverted away from the vaults.''' |
− | [[Image:Vaults_and_chambers.PNG|thumb|right| | + | <br> |
+ | [[Image:Vaults_and_chambers.PNG|thumb|right|200px|[[Vaults and chambers |Dy]], in South Africa(for credits, click the picture)]] | ||
− | When urine | + | When faeces are not mixed with urine and other liquids, they dry quickly. In the absence of moisture, organisms cannot grow, pathogens are destroyed and smells minimized. The use of two alternating vaults allows the faeces to dehydrate in one vault while the other vault fills. When one vault is full, the [[Urine Diverting Dry Toilet | Urine-Diverting Dry Toilet]] (UDDT, U.2) is moved to the second vault. While the second vault fills up, the faeces in the first vault dry and decrease in volume. When the second vault is full, the first one is emptied and put back into service. To prevent flies, minimize odours and encourage drying, a small amount of ash, lime, dry soil or sawdust should be used to cover faeces after each use. |
− | + | ===Design Considerations=== | |
− | + | Dehydration vaults can be constructed indoors or with a separate superstructure. A vent pipe is required to remove humidity from the vaults and control flies and odours. The chambers should be airtight for proper functioning of the ventilation. They should be made of sealed brickwork or concrete to ensure that surface runoff cannot enter. The WHO recommends a minimum storage time of 6 months if ash or lime are used as cover material (alkaline treatment), otherwise the storage should be for at least 1 year for warm climates (>20 °C average) and for 1.5 to 2 years for colder climates. | |
− | |||
− | |||
− | The | ||
− | |||
− | |||
+ | In case of alkaline treatment, each vault is sized to accommodate at least 6 months of faeces accumulation. This results in a 6 month storage and dehydration time in the out-of-service vault. The vault dimensions should account for cover material, airflow, the uneven distribution of faeces, and possibly visitors and dry cleansing materials. It can be assumed that one person will require around 50 L of storage volume every 6 months. A minimum chamber height of 60 to 80 cm is recommended for easy emptying and access to the urine pipes. | ||
+ | <br> | ||
{{procontable | pro= | {{procontable | pro= | ||
− | - Can be built and repaired with locally available materials. <br> - Because double pits are used alternately, their life is virtually unlimited. <br> - Good in rocky and/or flooded areas. <br> - Excavation of dried faeces is easier than faecal sludge. <br> - No real problems with flies or odours if used correctly. | + | - Significant reduction in pathogens<br> |
− | - Requires | + | - Can be built and repaired with locally available materials. <br> |
+ | - Because double pits are used alternately, their life is virtually unlimited. <br> | ||
+ | - Potential for use of dried faeces as soil conditioner<br> | ||
+ | - Good in rocky and/or flooded areas. <br> | ||
+ | - Excavation of dried faeces is easier than faecal sludge. <br> | ||
+ | - No real problems with flies or odours if used correctly (i.e., kept dry). <br> | ||
+ | - Suitable for all types of user (sitters, squatters, washers and wipers). <br> | ||
+ | - Low (but variable) capital costs depending on materials; no or low operating costs. <br> | ||
+ | | con= | ||
+ | - Requires training and acceptance to be used correctly <br> | ||
+ | - Requires constant source of cover material, e.g. ash, sand or lime. <br> | ||
+ | - Manual removal of dried faeces is required | ||
}} | }} | ||
+ | ===Appropriateness=== | ||
+ | Dehydration vaults can be installed in almost every setting, from rural to dense urban areas, because of the small land area required, minimal odours and ease of use. If used in an urban context, this technology relies on a transport service for the dried faeces (and urine) since urban users normally do not have an interest and/or opportunity to use it locally. Dehydration vaults are especially appropriate for water-scarce and rocky areas or where the groundwater table is high. They are also suitable in areas that are frequently flooded because they are built to be watertight. | ||
− | = | + | ===Health Aspects/Acceptance=== |
− | + | Dehydration vaults can be a clean, comfortable, and easy-to-use technology. It is crucial, however, that the users are well trained to understand how the technology works and appreciate its benefits. When the vaults are kept dry, there should not be any problems with flies or odours. After the recommended storage time, the faeces should be very dry and relatively safe to handle, provided that they did not get wet. However, a low health risk remains. Single dehydration vaults or bins do not allow faeces to sufficiently dehydrate. | |
− | |||
− | |||
− | ==Health Aspects/Acceptance == | ||
− | |||
− | Dehydration | ||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | + | When the full container needs emptying, the faeces on top are still fresh. Hence, the risk associated with the handling of faecal matter is inherently higher in single vaults compared to double vault designs. The use of alternating chambers is, therefore, recommended. However, research and field tests of sealed faeces containers (or cartridges) for safe transportation and easy cleaning, along with the corresponding logistics, are on-going. | |
− | + | ===Operation & Maintenance=== | |
+ | Just like the faeces which are dried, but not degraded in the vaults, dry cleansing materials will not decompose in the chambers. Whenever the material is intended to be applied onto fields without further treatment, it is recommended to separately collect and dispose of the dry cleansing materials. Occasionally, the faeces that have accumulated beneath the toilet should be pushed to the sides of the chamber. | ||
+ | Care should be taken to ensure that no water or urine gets into the dehydration vault. If this happens, extra ash, lime, soil or sawdust can be added to help absorb the liquid. To empty the vaults, a shovel, gloves and possibly a facemask (cloth) should be used to avoid contact with the dried faeces. | ||
+ | ===References=== | ||
− | + | * Deegener, S., Samwel, M. and Gabizon, S. (2006). [https://www.susana.org/en/knowledge-hub/resources-and-publications/library/details/430 Urine Diverting Toilets. Principles, Operation and Construction]. Women in Europe for a Common Future, Utrecht, NL and Munich, DE. | |
− | * | + | * Rieck, C., von Münch, E. and Hoffmann, H. (2012). [https://www.susana.org/en/knowledge-hub/resources-and-publications/library/details/874 Technology Review of Urine-Diverting Dry Toilets (UDDTs)]. Overview of Design, Operation, Management and Costs. Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH, Eschborn, DE. |
− | * ( | + | * Winblad, U. and Simpson-Hébert, M. (Eds.) (2004). [http://www.ecosanres.org/pdf_files/Ecological_Sanitation_2004.pdf Ecological Sanitation. Revised and Enlarged Edition]. Stockholm Environment Institute, Stockholm, SE. (A general description of various designs and adaptations, especially Chapter 3) |
− | * | + | * WHO (2006). [https://www.who.int/water_sanitation_health/publications/gsuweg4/en/ Guidelines for the Safe Use of Wastewater, Excreta and Greywater. Volume 4: Excreta and Greywater Use in Agriculture]. World Health Organization, Geneva, CH. |
− | * | + | * [http://www.who.int/water_sanitation_health/publications/guidelines-on-sanitation-and-health/en/ WHO: Guidelines on sanitation and health - 2018] |
− | + | ===Acknowledgements=== | |
+ | {{:Acknowledgements Sanitation}} |
Latest revision as of 01:11, 9 September 2020
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Dehydration vaults are used to collect, store and dry (dehydrate) faeces. Faeces will only dehydrate when the vaults are well ventilated, watertight to prevent external moisture from entering, and when urine and anal cleansing water are diverted away from the vaults.
When faeces are not mixed with urine and other liquids, they dry quickly. In the absence of moisture, organisms cannot grow, pathogens are destroyed and smells minimized. The use of two alternating vaults allows the faeces to dehydrate in one vault while the other vault fills. When one vault is full, the Urine-Diverting Dry Toilet (UDDT, U.2) is moved to the second vault. While the second vault fills up, the faeces in the first vault dry and decrease in volume. When the second vault is full, the first one is emptied and put back into service. To prevent flies, minimize odours and encourage drying, a small amount of ash, lime, dry soil or sawdust should be used to cover faeces after each use.
Contents
Design Considerations
Dehydration vaults can be constructed indoors or with a separate superstructure. A vent pipe is required to remove humidity from the vaults and control flies and odours. The chambers should be airtight for proper functioning of the ventilation. They should be made of sealed brickwork or concrete to ensure that surface runoff cannot enter. The WHO recommends a minimum storage time of 6 months if ash or lime are used as cover material (alkaline treatment), otherwise the storage should be for at least 1 year for warm climates (>20 °C average) and for 1.5 to 2 years for colder climates.
In case of alkaline treatment, each vault is sized to accommodate at least 6 months of faeces accumulation. This results in a 6 month storage and dehydration time in the out-of-service vault. The vault dimensions should account for cover material, airflow, the uneven distribution of faeces, and possibly visitors and dry cleansing materials. It can be assumed that one person will require around 50 L of storage volume every 6 months. A minimum chamber height of 60 to 80 cm is recommended for easy emptying and access to the urine pipes.
Advantages | Disadvantages/limitations |
---|---|
- Significant reduction in pathogens - Can be built and repaired with locally available materials. |
- Requires training and acceptance to be used correctly - Requires constant source of cover material, e.g. ash, sand or lime. |
Appropriateness
Dehydration vaults can be installed in almost every setting, from rural to dense urban areas, because of the small land area required, minimal odours and ease of use. If used in an urban context, this technology relies on a transport service for the dried faeces (and urine) since urban users normally do not have an interest and/or opportunity to use it locally. Dehydration vaults are especially appropriate for water-scarce and rocky areas or where the groundwater table is high. They are also suitable in areas that are frequently flooded because they are built to be watertight.
Health Aspects/Acceptance
Dehydration vaults can be a clean, comfortable, and easy-to-use technology. It is crucial, however, that the users are well trained to understand how the technology works and appreciate its benefits. When the vaults are kept dry, there should not be any problems with flies or odours. After the recommended storage time, the faeces should be very dry and relatively safe to handle, provided that they did not get wet. However, a low health risk remains. Single dehydration vaults or bins do not allow faeces to sufficiently dehydrate.
When the full container needs emptying, the faeces on top are still fresh. Hence, the risk associated with the handling of faecal matter is inherently higher in single vaults compared to double vault designs. The use of alternating chambers is, therefore, recommended. However, research and field tests of sealed faeces containers (or cartridges) for safe transportation and easy cleaning, along with the corresponding logistics, are on-going.
Operation & Maintenance
Just like the faeces which are dried, but not degraded in the vaults, dry cleansing materials will not decompose in the chambers. Whenever the material is intended to be applied onto fields without further treatment, it is recommended to separately collect and dispose of the dry cleansing materials. Occasionally, the faeces that have accumulated beneath the toilet should be pushed to the sides of the chamber.
Care should be taken to ensure that no water or urine gets into the dehydration vault. If this happens, extra ash, lime, soil or sawdust can be added to help absorb the liquid. To empty the vaults, a shovel, gloves and possibly a facemask (cloth) should be used to avoid contact with the dried faeces.
References
- Deegener, S., Samwel, M. and Gabizon, S. (2006). Urine Diverting Toilets. Principles, Operation and Construction. Women in Europe for a Common Future, Utrecht, NL and Munich, DE.
- Rieck, C., von Münch, E. and Hoffmann, H. (2012). Technology Review of Urine-Diverting Dry Toilets (UDDTs). Overview of Design, Operation, Management and Costs. Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH, Eschborn, DE.
- Winblad, U. and Simpson-Hébert, M. (Eds.) (2004). Ecological Sanitation. Revised and Enlarged Edition. Stockholm Environment Institute, Stockholm, SE. (A general description of various designs and adaptations, especially Chapter 3)
- WHO (2006). Guidelines for the Safe Use of Wastewater, Excreta and Greywater. Volume 4: Excreta and Greywater Use in Agriculture. World Health Organization, Geneva, CH.
Acknowledgements
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.