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Tecnologías
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Rooftop rainwater harvesting system [Nepal]

Akase paani sankalan pranali - Nepali

technologies_1497 - Nepal

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1. Información general

1.2 Detalles de contacto de las personas de referencia e instituciones involucradas en la evaluación y la documentación de la Tecnología

Persona(s) de referencia clave

Especialista MST:
Especialista MST:
Especialista MST:
Nombre de la(s) institución(es) que facilitaron la documentación/ evaluación de la Tecnología (si fuera relevante)
ICIMOD International Centre for Integrated Mountain Development (ICIMOD) - Nepal

1.3 Condiciones referidas al uso de datos documentados mediante WOCAT

¿Cuándo se compilaron los datos (en el campo)?

20/10/2006

El compilador y la/s persona(s) de referencia claves aceptan las condiciones acerca del uso de los datos documentados mediante WOCAT:

2. Descripción de la Tecnología MST

2.1 Breve descripción de la Tecnología

Definición de la Tecnología:

A water harvesting system in which rain falling on a roof is led through connecting pipes into a ferro-cement water collecting jar.

2.2 Descripción detallada de la Tecnología

Descripción:

Many households in Nepal’s midhills suffer from water shortages during the pronounced dry season. The technology described here - harvesting roofwater during times of heavy rainfall for later use - is a promising way of improving people’s access to water for household use, especially for households with no or only limited access to spring or stream water. The technology has yet to be extensively adopted in Nepal’s midhills.

Purpose of the Technology: The technology was introduced in the Jhikhu Khola watershed to demonstrate an alternative source of water for domestic use (mainly drinking water). This technology is appropriate for scattered rural households in mountaineous areas. The harvesting system consists of a catchment roof, conveyance pipes, and a storage jar. The pipes include a gutter system made from longitudinally split polythene pipe which has a flushing system that allows the system to be periodically flushed clean.
The collected water enters a 500 or 2000 litre capacity ferro-cement jar made using a mould (see photo). A preconstructed mould made from iron rods and polythene pipes is installed on a concrete base plate. Metal wires are extended from the base plate over the main mould to the top. Chicken mesh is then wrapped over the mould and tied securely with thin wire. A cement coating is applied over the metal structure. The jar is finished with three coatings of cement and the opening is covered with a fine nylon mesh to filter out undesired coarse matter. A tin lid is placed over the top.

Establishment / maintenance activities and inputs: A tap is fixed about 20 cm above the ground. This height allows for water to be collected in the typical 15 litre local water vessels (gagri) and avoids collection of too much water in bigger vessels as well as minimising the dead storage of water (Nakarmi et al. 2003). Trained masons can easily install the entire system. Provided all the materials and the mould are available, the entire system can be put together in about a week. The main maintenance task is to keep the roof clean, especially after long dry periods. This is done using the gutter pipe flushing system in which the first dirty water from the roof is diverted away from the jar.

2.3 Fotografías de la Tecnología

2.5 País/ región/ lugares donde la Tecnología fue aplicada y que se hallan comprendidos por esta evaluación

País:

Nepal

Región/ Estado/ Provincia:

Kharelthok, Sathighar, Panchkhal, Hokse and Patalekhet VDCs of the Jhikhu Khola watershed

Especifique más el lugar :

Kavrepalanchowk district

2.6 Fecha de la implementación

Si no se conoce el año preciso, indique la fecha aproximada:
  • hace menos de 10 años (recientemente)

2.7 Introducción de la Tecnología

Especifique cómo se introdujo la Tecnología:
  • mediante proyectos/ intervenciones externas
Comentarios (tipo de proyecto, etc.):

Water harvesting is an ancient practice, the system used in the Jhikhu Khola watershed came from Thailand, so the technology is often called 'Thai jar". In Nepal, the Rural Water Supply and Sanitation Support Programme (RWSSSP), which is jointly funded by the Government of Finland and His Majesties Government of Nepal, introduced it in the water deficit districts of western Nepal (Arghakhanchi, Gulmi, Kapilvastu, Nawalparasi, Palpa, Parbat, and Rupandehi).

3. Clasificación de la Tecnología MST

3.1 Propósito(s) principal(es) de la Tecnología MST

  • Access to water

3.2 Tipo(s) actuales de uso de la tierra donde se aplica la Tecnología

 asentamientos, infraestructura

asentamientos, infraestructura

  • Asentamientos, edificios
Comentarios:

courtyard

Comentarios:

Major land use problems (compiler’s opinion): Inadequate water supply during the late winter and pre-monsoon months and sediment contamination during the wet season. The discharge from traditional water sources like dug-out ponds, springs, seepage ‘holes’, shallow wells and streamlets becomes limited soon after the end of the monsoon.

Major land use problems (land users’ perception): Many settlements are located on ridge tops and most water sources are located below making it difficult to provide water to households through networks of pipes. Women and girls often face hardship in carrying the water uphill, especially during the monsoon when trails are slippery.

Constraints of settlement / urban

3.3 Información adicional sobre el uso de tierras

Número de temporadas de cultivo por año:
  • 3
Especifique:

Longest growing period in days: 150; Longest growing period from month to month: Jun - Oct; Second longest growing period in days: 120; Second longest growing period from month to month: Nov - Feb

3.4 Grupo MST al que pertenece la Tecnología

  • cosecha de agua

3.5 Difusión de la Tecnología

Especifique la difusión de la Tecnología:
  • aplicada en puntos específicos/ concentrada en un área pequeña
Comentarios:

Roof rainwater harvesting jars were demonstrated mostly in the villages located at the watershed divides, hilltops, and elevated terraces where communities face chronic water shortage particularly during the dry period.

3.6 Medidas MST que componen la Tecnología

medidas estructurales

medidas estructurales

  • S5: Diques, hondonadas, estanques

3.7 Principales tipos de degradación del suelo encarados con la Tecnología

deterioro físico del suelo

deterioro físico del suelo

  • Pw: encharcamiento
Comentarios:

Main causes of degradation: change of seasonal rainfall

3.8 Prevención, reducción o restauración de la degradación del suelo

Especifique la meta de la Tecnología con relación a la degradación de la tierra:
  • reducir la degradación del suelo

4. Especificaciones técnicas, actividades de implementación, insumos y costos

4.1 Dibujo técnico de la Tecnología

Autor:

A.K. Thaku

4.2 Especificaciones técnicas/ explicaciones del dibujo técnico

A water harvesting system with roof catchment, connecting pipes and storage tank.

Technical knowledge required for field staff / advisors: high

Technical knowledge required for land users: high

Main technical functions: water harvesting / increase water supply

Structural measure: Dam/ pan/ pond
Material: Concrete

Structural measure: Jar

Structural measure: Gutter

Structural measure: pipes

Construction material (other): Cement

4.3 Información general sobre el cálculo de insumos y costos

Especifique cómo se calcularon los costos e insumos:
  • por unidad de Tecnología
Especifique unidad:

Rooftop rainwater harvesting system

Especifique la moneda usada para calcular costos:
  • dólares americanos
Indique el costo promedio del salario de trabajo contratado por día:

2.10

4.4 Actividades de establecimiento

Actividad Tipo de medida Momento
1. Construct the concrete base plate with the help of base moluld Estructurales 1st day of a week
2. Curing work Estructurales 2nd to 7th days of a week
3. Final checking and metal cap putting over the top of the jar Estructurales 7th day of a week
4. First coat of cement Estructurales 2nd day of a week
5. Gutter and pipe fitting; including flush pipe Estructurales 4th day of a week
6. Inner coat of cement Estructurales 6th day of a week
7. Main mould installation with the help of metal wires, wrapping of chicken mesh Estructurales 2nd day of a week
8. Removal of mould Estructurales 6th day of a week
9. Second coat of cement Estructurales 3rd day of a week

4.5 Costos e insumos necesarios para el establecimiento

Especifique insumo Unidad Cantidad Costos por unidad Costos totales por insumo % de los costos cubiertos por los usuarios de las tierras
Mano de obra Construction of rooftop rainwater harvesting system Persons/unit 19,5 2,1 40,95 25,0
Material de construcción Cement unit 1,0 23,6 23,6
Material de construcción Sand and aggregate unit 1,0 1,4 1,4 100,0
Material de construcción Chicken wire mesh unit 1,0 20,9 20,9
Material de construcción Metal jar cover unit 1,0 5,5 5,5
Material de construcción Plastic sheet/mosquito screen unit 1,0 1,5 1,5
Material de construcción Polyethylene, pipes, reducer unit 1,0 23,7 23,7
Material de construcción Nail, clamps, pipe elbow etc. unit 1,0 3,6 3,6
Material de construcción Brass tap. socket, seal tap unit 1,0 3,5 3,5
Otros Paint unit 1,0 2,1 2,1
Costos totales para establecer la Tecnología 126,75
Comentarios:

Duration of establishment phase: 0.25 month(s)

Materials: cement (kg) 23.6 materials sand,aggregate (m3) 1.4 100 materials chicken wire mesh (m) 17.5 materials Iron wire (kg) 3.3 materials metal jar cover (no) 5.5 materials mosquito screen (m) 0.5 materials plastic sheet (m) 1 materials binding wire (kg) 0.1 materials snowcem paint (kg) 1.4 materials enamail paint (litre) 0.7 materials 90 mm HDP pipe (m) 10.3 materials 63 mm HDP pipe (m) 6.2 materials 40 mm HDP pipe (m) 6.8 materials reducer (no) 0.4 materials plain and roofing nails (kg) 0.2 materials metal clamp (no) 1.4 materials elbow, tee,end cap (no) 2.1 materials brass tap with latches (no) 2.1 materials 0 .5*10 inch GI nipple(no) 0.2 materials 1*10 inch GI nipple(no) 0.2 materials 1inch end cap (no) 0.7 materials GI socket (no) 0.2 materials thread seal tap (no) 0.1 Additional info Q 3.1.1.4: - less chance of disputes over turns to fetch water - medium General comments: Water harvesting is an ancient practice. The system used in the Jhikhu Khola watershed comes from Thailand, so the technology is often called ‘Thai jar’. In Nepal, the Rural Water Supply and Sanitation Support Programme (RWSSSP) introduced it in the water deficit districts of western Nepal.

4.6 Actividades de establecimiento/ recurrentes

Actividad Tipo de medida Momento/ frequencia
1. Cleaning the jar Estructurales dry months/one or twice in a year
2. Flushing contaminated water Estructurales After a long dry spell/whenever required

4.7 Costos e insumos necesarios para actividades de mantenimiento/ recurrentes (por año)

Especifique insumo Unidad Cantidad Costos por unidad Costos totales por insumo % de los costos cubiertos por los usuarios de las tierras
Mano de obra Cleaning the system Persons/unit 7,0 2,1 14,7 100,0
Indique los costos totales para mantenecer la Tecnología 14,7
Comentarios:

Machinery/ tools: hacksaw, steel scissors, hammer, pliers, wrench, trowel, steel pan bucket, and jug

Per unit cost of structure. The above mentioned cost is for unit water harvesting system. It can not be converted into hectare basis. It was estimated in 2006.

4.8 Factores más determinantes que afectan los costos:

Describa los factores más determinantes que afectan los costos:

The mould and tools were provided by the project and can be used to install many water harvesting systems. Therefore, the cost of tools are not included here. Material costs fluctuate from time to time. The transport costs will vary according to the remoteness of the site. During 1999/2000, the cost of a system varied from US$80 to US$120, of which land users contributed about US$40 by providing the unskilled labour and locally available materials like sand and fine aggregates (calculated at an exchange rate of US$1 = NRs 73).

5. Entorno natural y humano

5.1 Clima

Lluvia anual
  • < 250 mm
  • 251-500 mm
  • 501-750 mm
  • 751-1,000 mm
  • 1,001-1,500 mm
  • 1,501-2,000 mm
  • 2,001-3,000 mm
  • 3,001-4,000 mm
  • > 4,000 mm
Zona agroclimática
  • húmeda

Thermal climate class: subtropics

5.2 Topografía

Pendientes en promedio:
  • plana (0-2 %)
  • ligera (3-5%)
  • moderada (6-10%)
  • ondulada (11-15%)
  • accidentada (16-30%)
  • empinada (31-60%)
  • muy empinada (>60%)
Formaciones telúricas:
  • meseta/ planicies
  • cordilleras
  • laderas montañosas
  • laderas de cerro
  • pies de monte
  • fondo del valle
Zona altitudinal:
  • 0-100 m s.n.m.
  • 101-500 m s.n.m.
  • 501-1,000 m s.n.m
  • 1,001-1,500 m s.n.m
  • 1,501-2,000 m s.n.m
  • 2,001-2,500 m s.n.m
  • 2,501-3,000 m s.n.m
  • 3,001-4,000 m s.n.m
  • > 4,000 m s.n.m
Comentarios y especificaciones adicionales sobre topografía :

Landforms: Also valley floors

5.4 Disponibilidad y calidad de agua

Calidad de agua (sin tratar):

agua potable de mala calidad (requiere tratamiento)

Comentarios y especificaciones adicionales sobre calidad y cantidad de agua:

Water quality (untreated): More in rainy season (June- September), less in April/May

5.6 Las características de los usuarios de la tierra que aplican la Tecnología

Ingresos no agrarios:
  • 10-50% de todo el ingreso
Nivel relativo de riqueza:
  • pobre
Individuos o grupos:
  • individual/ doméstico
Género:
  • mujeres
  • hombres
Indique otras características relevantes de los usuarios de las tierras:

Land users applying the Technology are mainly common / average land users

Population density: 200-500 persons/km2

Annual population growth: 2% - 3%

15% of the land users are rich and own 35% of the land.
35% of the land users are average wealthy and own 40% of the land.
50% of the land users are poor and own 25% of the land (as ranked by the land users).

Off-farm income specification: In most farm households off-farm income plays at least a minor and increasingly a major role. Occasional opportunities for off-farm income present themselves in the form of daily

5.7 Área promedio de la tierra que pertenece a o es arrendada por usuarios de tierra que aplican la Tecnología

  • < 0.5 ha
  • 0.5-1 ha
  • 1-2 ha
  • 2-5 ha
  • 5-15 ha
  • 15-50 ha
  • 50-100 ha
  • 100-500 ha
  • 500-1,000 ha
  • 1,000-10,000 ha
  • > 10,000 ha
¿Esto se considera de pequeña, mediana o gran escala (refiriéndose al contexto local)?
  • escala mediana

5.8 Tenencia de tierra, uso de tierra y derechos de uso de agua

Tenencia de tierra:
  • individual, con título
Derechos de uso de tierra:
  • individual
Derechos de uso de agua:
  • comunitarios (organizado)

6. Impactos y comentarios para concluir

6.1 Impactos in situ demostrados por la Tecnología

Impactos socioeconómicos

Producción

área de producción

disminuyó
incrementó
Comentarios/ especifique:

by the house to accommodate the water jar

Disponibilidad y calidad de agua

disponibilidad de agua potable

disminuyó
incrementó
Comentarios/ especifique:

in dry seasons

harvested water can be used during busy periods ( field preparation, vegetable planting, rice harvesting, and festivals).

Ingreso y costos

carga de trabajo

incrementó
disminuyó
Cantidad antes de MST:

1 hour

Cantidad luego de MST:

5 minutes

Comentarios/ especifique:

greatly reduced time needed to fetch water

reduced women's workload i.e. per day water fetching time reduced from about 12 hours to about 1 hour ( for the households having ~10 family members).

Otros impactos socioeconómicos

Water is available near the house

reduced
improved
Comentarios/ especifique:

A house hold having 10 family member require about 12 gagree ( 1 gagree is equivalent to15 litre)

Impactos socioculturales

instituciones comunitarias

se debilitaron
se fortalecieron
Comentarios/ especifique:

together with adopters, other potential local adopters have started discussing options

MST/ conocimiento de la degradación del suelo

disminuyó
mejoró
Comentarios/ especifique:

through training, demonstration, and knowledge sharing

livelihood and human well-being

reduced
improved
Comentarios/ especifique:

Improved heath condition due to clean water availability

Sanitation

reduced
improved
Comentarios/ especifique:

more water avilable forwashing leading to improved health

Risk of injury from carrying water along slippery and steep tracks

improved
reduced

6.2 Impactos fuera del sitio demostrados por la Tecnología

inundaciones río abajo

incrementó
disminuyó
Comentarios/ especifique:

a little portion of rainfall traped directly from the roof and collected at the courtyard

colmatación río abajo

incrementó
disminuyó
Comentarios/ especifique:

reduced eroded materials from the courtyard.

availability of water for neighbours during scarce period

decreased
increased

6.3 Exposición y sensibilidad de la Tecnología al cambio climático gradual y a extremos relacionados al clima/ desastres (desde la percepción de los usuarios de tierras)

Cambio climático gradual

Cambio climático gradual
Estación tipo de cambios climáticos/ climas extremos ¿Cómo es que la tecnología soporta esto?
temperatura anual incrementó bien

Extremos (desastres) relacionados al clima

Desastres climatológicos:
¿Cómo es que la tecnología soporta esto?
tormenta de lluvia local bien
tormenta de viento bien
Desastres climatológicos
¿Cómo es que la tecnología soporta esto?
sequía no muy bien
Desastres hidrológicos
¿Cómo es que la tecnología soporta esto?
inundación general (río) bien

Otras consecuencias relacionadas al clima

Otras consecuencias relacionadas al clima
¿Cómo es que la tecnología soporta esto?
periodo reducido de crecimiento bien

6.4 Análisis costo-beneficio

¿Cómo se comparan los beneficios con los costos de establecimiento (desde la perspectiva de los usuarios de tierra)?
Ingresos a corto plazo:

ligeramente negativo

Ingresos a largo plazo:

muy positivo

¿Cómo se comparan los beneficios con los costos de mantenimiento/ recurrentes (desde la perspectiva de los usuarios de tierra)?
Ingresos a corto plazo:

muy positivo

Ingresos a largo plazo:

muy positivo

Comentarios:

Although the initial investment is high, the users immediately get more water. The high cost of installing the system means that the short term benefits are slightly negative.

6.5 Adopción de la Tecnología

  • casos individuales / experimentales
Si tiene la información disponible, cuantifique (número de hogares y/o área cubierta):

46 households in an area of 1 - 10 sq km (200 - 500 persons/sq km)

De todos quienes adoptaron la Tecnología, ¿cuántos lo hicieron espontáneamente, es decir, sin recibir incentivos/ pagos materiales?
  • 10-50%
Comentarios:

74% of land user families have adopted the Technology with external material support

34 land user families have adopted the Technology with external material support

Comments on acceptance with external material support: survey results

26% of land user families have adopted the Technology without any external material support

12 land user families have adopted the Technology without any external material support

Comments on spontaneous adoption: survey results

There is a little trend towards spontaneous adoption of the Technology

Comments on adoption trend: The number of households applying the technology is increasing without further incentives being provided.

6.7 Fuerzas/ ventajas/ oportunidades de la Tecnología

Fuerzas/ ventajas/ oportunidades desde la perspectiva del usuario de la tierra
The stored water can be kept for use in emergencies such as to prepare food for guests during busy times like rice planting and harvesting, and during festivals.

How can they be sustained / enhanced? Share experiences to extend adoption of the technology
Harvested water is tastier due to being cooler compared to the water collected in the polythene tank.

How can they be sustained / enhanced? Laboratory analysis of the harvested rainwater in different time period, i.e. from 1st month of harvest to 12th month could help to know the quality status.
Fuerzas/ ventajas/ oportunidades desde la perspectiva del compilador o de otra persona de referencia clave
Harvested rainwater has saved almost one workday per day per family due to reduced water fetching time in this case referring to the rainy season, however water will generally be used during the dry season.

How can they be sustained / enhanced? Publicise the economic benefits of the technology through experience sharing programmes.
Women are responsible for fetching water and so the technology reduces their workloads.

How can they be sustained / enhanced? Implement a larger scale programme to promote the
technology.
The jars are more durable than plastic tanks.

How can they be sustained / enhanced? Carry out regular maintenance to keep systems in good working order.

6.8 Debilidades/ desventajas/ riesgos de la Tecnología y formas de sobreponerse a ellos

Debilidades/ desventajas/ riesgos desde la perspectiva del usuario de la tierra ¿Cómo sobreponerse a ellas?
The technology is expensive for poor households. External support is needed for poor households to afford this system.
The height of the tap is very low which makes it inconvenient to collect water in the gagree. It was designed to use collected water efficiently, the tap height can be raised, which means that the dead storage is increased, i.e. more water is unavailable for use.
There are chances of the jar’s base plate subsiding due to lack of compactness of foundation. The area of base plate should be made more compact.
Debilidades/ desventajas/ riesgos desde la perspectiva del compilador o de otra persona de referencia clave ¿Cómo sobreponerse a ellas?
2,000 litre capacity jars barely meet the dry season needs of a household. Larger sized jars or more than one jar need to be built to meet most household’s requirements.
Microbiological contamination (total and faecal coliform bacteria) and levels of phosphate above the EC maximum were found in a number of the jars caused by bird droppings and dust particles from the roof. Regularly clean catchment roofs and treat water before drinking by boiling or chlorinating. Rainwater has a low mineral content which can be harmful for the human body, if taken in large quantities (due to reverse osmosis process).
This technology is not suitable for temple roofs because such roofs are usually home to large numbers of pigeons, and their excreta will contaminate rainwater that falls there. Avoid badly contaminated catchments.

7. Referencias y vínculos

7.2 Vínculos a las publicaciones disponibles

Título, autor, año, ISBN:

Sharma, C. (2001) Socioeconomic IndicativeImpact Assessment and Benchmark Study on Rooftop Rainwater Harvesting, Kabhrepalanchok District, Nepal, a report submitted to ICIMOD, Kathmandu, Nepal

¿Dónde se halla disponible? ¿Costo?

ICIMOD

Título, autor, año, ISBN:

ICIMOD (2000) Water Harvesting Manual, unpublished manual prepared for PARDYP Project, ICIMOD

¿Dónde se halla disponible? ¿Costo?

ICIMOD

Título, autor, año, ISBN:

ICIMOD (2007) Good Practices in Watershed Management, Lessons Learned in the Mid Hills of Nepal. Kathmandu: ICIMOD

¿Dónde se halla disponible? ¿Costo?

ICIMOD

Título, autor, año, ISBN:

Lessons Learned from the People and Resource Dynamics Project , PARDYP/ICIMOD. 2006.

¿Dónde se halla disponible? ¿Costo?

ICIMOD

Título, autor, año, ISBN:

Nakarmi, G.; Merz, J.; Dhakal, M. (2003) ‘Harvesting Roof Water for Livelihood Improvement: A Case Studyof the Yarsha Khola Watershed, Eastern Nepal’. In News Bulletin of Nepal Geological Society, 20: 83-87

Título, autor, año, ISBN:

Nakarmi, G.; Merz, J. (2001) Harvesting Rain Water for Sustainable Water Supplies to Rural Households in the Yarsha Khola Watershed, a report submitted to Kirchgemeinde Zuoz, Switzerland and ICIMOD, Kathmandu, Nepal

¿Dónde se halla disponible? ¿Costo?

ICIMOD

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