9.- Water Supply Technologies in emergencies - COMPENDIUM.

9.- Water Supply Technologies in emergencies - COMPENDIUM.

Arsenic Removal Filter.
Arsenic Removal Filter.

https://www.emergency-wash.org/water/en/technologies/technology/arsenic-removal-filter

👉🏼 PDF: https://app.box.com/s/pgv9weqik9fuj1oumk2uz8e56zj5ierl ___ Arsenic is a groundwater contaminant naturally present in rocks and soils, though may also result from industrial activities. When present at levels over 10 μg/L, arsenic can detrimentally impact human health and should be addressed as soon as possible. It can be removed from groundwater by oxidation followed by filtration, precipitation, adsorption, ion exchange processes or reverse osmosis.

·emergency-wash.org·
Arsenic Removal Filter.
Fluoride removal filter.
Fluoride removal filter.

https://www.emergency-wash.org/water/en/technologies/technology/fluoride-removal-filter

👉🏼 PDF: https://app.box.com/s/esbgo5jd8m25bfo7gphw05m97a3ly391 __ Fluoride is a groundwater contaminant naturally present in rocks and soils (commonly volcanic-derived sediments). At levels over 1.5 mg/L, it can detrimentally impact human health. As the health impacts result from prolonged consumption, Fluoride Removal is mostly relevant for the recovery phase and protracted emergencies.

·emergency-wash.org·
Fluoride removal filter.
Solar Disinfection (SODIS).
Solar Disinfection (SODIS).

https://www.emergency-wash.org/water/en/technologies/technology/solar-disinfection-sodis

👉🏼 PDF: https://app.box.com/s/45wnkypsqd5la5p96fd91fnv51qkryia __ Solar Water Disinfection (SODIS) purifies low turbidity water for drinking purposes through a combination of heat, ultraviolet (UV) irradiation and visible light radiation given by solar energy. It is appropriate for disinfecting small quantities of water with a low turbidity.

·emergency-wash.org·
Solar Disinfection (SODIS).
Ultraviolet (UV) Lamp.
Ultraviolet (UV) Lamp.

https://www.emergency-wash.org/water/en/technologies/technology/ultraviolet-uv-lamp

👉🏼 PDF: https://app.box.com/s/cg3k6u6n4o7ujsth7urn238fe7y8192a ____

A UV Lamp is a non-chemical means of disinfecting water at household level, effective against all classes of pathogens and requiring only seconds of contact time. It uses short-wavelength UV irradiation in the range of 200–300 nm generated from mercury lamps or from UV light-emitting diodes (LEDs).

·emergency-wash.org·
Ultraviolet (UV) Lamp.
Pasteurisation.
Pasteurisation.

https://www.emergency-wash.org/water/en/technologies/technology/pasteurisation

👉🏼 PDF: https://app.box.com/s/xrvo6x9czua59jt7t9xvwlkvoff7j5tg _ Water Pasteurisation uses heat to inactivate pathogenic microorganisms. Most protozoa, bacteria and viruses are inactivated at temperatures between 60–70° C and an exposure time of at least 1 min, though some bacterial spores and protozoan cysts require longer exposure. In practice, water pasteurisation means maintaining water at 70° C for 15 minutes.

·emergency-wash.org·
Pasteurisation.
Boiling.
Boiling.

https://www.emergency-wash.org/water/en/technologies/technology/boiling

👉🏼 PDF: https://app.box.com/s/sjp5nlra2qf1940ex9e7d8hbu819mnkv _ Boiling water is the oldest and most used method to disinfect small quantities of water at the household level worldwide. Boiling water inactivates all microorganisms including bacteria, protozoa and viruses, but does not remove turbidity or chemical contaminants from drinking water.

·emergency-wash.org·
Boiling.
Coagulation, Sedimentation and Chlorination.
Coagulation, Sedimentation and Chlorination.

https://www.emergency-wash.org/water/en/technologies/technology/coagulation-sedimentation-and-chlorination

👉🏼 PDF: https://app.box.com/s/s98du9uawixax5xml168st2rq50ogp39 _ Combined Coagulation, Sedimentation and Chlorination is available for household use as small sachets of coagulant and a time-release form of chlorine. The coagulant reduces turbidity (‘muddiness’), while the chlorine, which activates after some time, disinfects by inactivating pathogenic microorganisms. A single sachet treats a volume of water defined by manufacturer (e.g. 10 or 20 L) within 30 minutes.

·emergency-wash.org·
Coagulation, Sedimentation and Chlorination.
Point-of-Supply Chlorination.
Point-of-Supply Chlorination.

https://www.emergency-wash.org/water/en/technologies/technology/point-of-supply-chlorination

👉🏼 PDF: https://app.box.com/s/0n0f4yo6j6st5yda9n4pn6t5sj57jhh8 _ Point-of-Supply Chlorination at community water points, schools, health centres and water tanks involves the installation of a device at the water point that is operated by water pressure. The device continuously releases a dose of chlorine into the collected water by dissolving solid chlorine media or by dosing liquid chlorine. Disinfection occurs during the transport of water to the home and storage in the container. During disease outbreaks, the dosing of chlorine can be done manually (bucket Chlorination).

·emergency-wash.org·
Point-of-Supply Chlorination.
Point-of-Use Chlorination.
Point-of-Use Chlorination.

https://www.emergency-wash.org/water/en/technologies/technology/point-of-use-chlorination

👉🏼 PDF: https://app.box.com/s/ic1gom6n4q7v3hfly47fxa96dk0rioxg ___ Chlorination is a relatively quick, inexpensive and simple household disinfection method. Adding chlorine or chlorine compounds in either liquid form or tablets/powder to water effectively inactivates microorganisms. Sufficient chlorine levels can provide residual protection from recontamination.

·emergency-wash.org·
Point-of-Use Chlorination.
Biosand Filtration.
Biosand Filtration.

https://www.emergency-wash.org/water/en/technologies/technology/biosand-filtration

👉🏼 PDF: https://app.box.com/s/5bl7ifdr2n4zjerkaxo2drkqb7oqmn2k ____ Biosand Filters (BSF) remove suspended solids and microbial contaminants from water with varying levels of turbidity through a combination of physical and biological processes. They are an adaptation of the continuousflow traditional Slow Sand Filter T.9 and can be used intermittently, making them suitable for household use.

·emergency-wash.org·
Biosand Filtration.
Membrane filtration.
Membrane filtration.

https://www.emergency-wash.org/water/en/technologies/technology/membrane-filtration

👉🏼 PDF: https://app.box.com/s/ezoq82p6veulyzg9t66k7h9nu4f8ljmw _ Household Membrane Filters generally use ultrafiltration (UF) or microfiltration (MF) membranes as flat sheet or hollow fibre modules. Water is filtered by gravity or manual pumping. Particles, colloids, protozoa, bacteria and viruses are retained on the membrane surface. The removal performance depends on the pore size of the membrane and its manufacturing quality.

·emergency-wash.org·
Membrane filtration.
Ceramic Filtration.
Ceramic Filtration.

https://www.emergency-wash.org/water/en/technologies/technology/ceramic-filtration

👉🏼 PDF: https://app.box.com/s/25n7unwctgf8xcqhdv86x20n3ep2hw5m _ A Ceramic Filter is a mechanical filtration device made of clay that traps particles and micro- organisms within the ceramic element, which can be a pot, candle or disc. Ceramic Filters typically consist of two parts, the top containing raw water together with the ceramic element, and the bottom containing the filtered water and a tap. Ceramic Filters can also be plumbed directly into a pressurised water pipe.

·emergency-wash.org·
Ceramic Filtration.
Handwashing Facility.
Handwashing Facility.

https://www.emergency-wash.org/water/en/technologies/technology/handwashing-facility

👉🏼 PDF: https://app.box.com/s/i5hsmdk6qfn9gtn91vbgmlw26jabc3nw _ Proper and frequent handwashing with soap is one of the most important measures to prevent the transmission of diarrhoea and respiratory diseases. Handwashing Facilities should be available next to toilets, food preparation areas and other critical locations in households, schools, health care facilities and other institutions and public spaces. When a piped water supply is not available, handwashing stations require constant refilling with water and a supply of soap.

·emergency-wash.org·
Handwashing Facility.
Large-Scale Distribution System.
Large-Scale Distribution System.

https://www.emergency-wash.org/water/en/technologies/technology/large-scale-distribution-system

👉🏼 PDF:  https://app.box.com/s/27id7jwuxkasdtrjmz0k2xslwfz0m54z __ Large-Scale Distribution Systems transfer water from a source or treatment facility via pipes to the final distribution point (communal or household taps) using different means of energy, such as gravity or pumps. In an emergency context, these are systems that already exist, but may need repair or rehabilitation.

·emergency-wash.org·
Large-Scale Distribution System.
Community Distribution System.
Community Distribution System.

https://www.emergency-wash.org/water/en/technologies/technology/community-distribution-system

👉🏼 PDF: https://app.box.com/s/5yhhoyt2wtytcy6c4jyl04secfptnisb ____ Community Distribution Systems transfer water from a source or treatment facility via pipes to the final distribution point (communal or household taps) using various energy sources, such as gravity or pumps. In the acute response phase, small-scale systems can be used, while medium-scale systems are more likely in the stabilisation and recovery phases.

·emergency-wash.org·
Community Distribution System.
Water storage tank ( long-term locally built ).
Water storage tank ( long-term locally built ).

https://www.emergency-wash.org/water/en/technologies/technology/water-storage-tank-long-term-locally-built

👉🏼 PDF:  https://app.box.com/s/eehugfm83d2f54r990ltn4ee1plpb3za _ Water Storage Tanks hold large volumes of water, usually balancing supply and demand of drinking water before distribution. They are suited to all phases of an emergency.

·emergency-wash.org·
Water storage tank ( long-term locally built ).
Water Storage Tank (Transportable).
Water Storage Tank (Transportable).

https://www.emergency-wash.org/water/en/technologies/technology/water-storage-tank-transportable

👉🏼 PDF: https://app.box.com/s/mh83b9yeiz17xnh2ytheflhmybz3xwyi _ A Water Storage Tank holds large volumes of water, usually balancing supply and demand of drinking water before distribution. Transportable Water Storage Tanks (flexible or demountable rigid) can be assembled rapidly when needed. They are mainly used at the onset of an emergency to enable immediate water distribution and may also form a part of the water distribution system in the medium term.

·emergency-wash.org·
Water Storage Tank (Transportable).
Water kiosk.
Water kiosk.

https://www.emergency-wash.org/water/en/technologies/technology/water-kiosk

👉🏼 PDF: https://app.box.com/s/iz9m1hgirgcb3gcwav13ylvdl9k47il2 __ Water Kiosks are a type of direct water vendor (see D.2 ) that is located at a fixed location from which consumers purchase and collect water, as opposed to distributing vendors who deliver to the purchaser. This stationary vending location might also store and/or post-treat the water. Water Kiosks help fill the gap in water provision, allowing water to be accessible to households in areas with insufficient water distribution infrastructure. Where this service already exists, it will most likely to continue to function or can be rebuilt during an emergency. During acute emergencies, they are commonly not operated commercially.

·emergency-wash.org·
Water kiosk.
Water Trucking.
Water Trucking.

https://www.emergency-wash.org/water/en/technologies/technology/water-trucking

👉🏼 PDF: https://app.box.com/s/prasygnt0h4aj18pkhiy2a4wyci9xz3c ___ Water Trucking (or water tankering) refers to the bulk transport of water from the source to a storage facility near a distribution point. During the acute and stabilisation phases of an emergency, these trucks may be used to provide short-term transport of water to communal water points.

·emergency-wash.org·
Water Trucking.
Water Vendor Cart.
Water Vendor Cart.

https://www.emergency-wash.org/water/en/technologies/technology/water-vendor-cart

👉🏼 PDF: https://app.box.com/s/drtx3mxajcahio5gvk8od796yryr0avm ____ Water Vendors resell and distribute utility water or water from other sources. They fill a gap in water provision when there is no functional household distribution network or for places not covered by humanitarian supplies during (urban) emergencies. In cities, they can provide water to a significant proportion of the population and can play an important role in securing supplies. Where this service exists, it will most likely continue to function during an emergency.

·emergency-wash.org·
Water Vendor Cart.
Household Water Container.
Household Water Container.

https://www.emergency-wash.org/water/en/technologies/technology/household-water-container

👉🏼 PDF: https://app.box.com/s/6fi4dm3g45ch31ao7s91w3vlbwsx9s2z ____ Household Water Containers are lightweight plastic or metal Containers with a lid that can be carried by one person. They are most often used to carry water manually from the point of collection to the point of use (usually the home) (see S.8 ) and can also be used as storage Containers in the home. They are suited to all phases of an emergency.

·emergency-wash.org·
Household Water Container.
Nanofiltration (NF)/Reverse Osmosis (RO).
Nanofiltration (NF)/Reverse Osmosis (RO).

https://www.emergency-wash.org/water/en/technologies/technology/nanofiltration-nf-reverse-osmosis-ro

👉🏼 PDF: https://app.box.com/s/zr3i8x3i0z9krxuxiwedf2xiu9zoth75 __ Nanofiltration and Reverse Osmosis (NF/RO) have essentially the same equipment arrangements, and both remove contaminants by applying pressure to water across a semi-permeable membrane. RO is used to desalinate brackish water and seawater and removes organic and inorganic compounds (e.g. nitrate) and microorganisms. The key difference is that NF removes less salt (e.g. NaCl) and other monovalent ions than RO and is mainly used to remove colour, organic contaminants (e.g. pesticides) and lower the hardness (softening). Distillation, such as a solar still made of local materials, is a potential alternative. A related method, membrane distillation, is typically not commercially available.

·emergency-wash.org·
Nanofiltration (NF)/Reverse Osmosis (RO).
Ozonation.
Ozonation.

https://www.emergency-wash.org/water/en/technologies/technology/ozonation

👉🏼 PDF: https://app.box.com/s/u91w23owtk8omelxl0ohyrog2gtitxio ___ Ozonation is a water treatment process that destroys microorganisms and degrades organic pollutants through the infusion of ozone, a gas produced by subjecting oxygen molecules to a high electrical voltage. During emergencies, the technology is mainly applicable in the stabilisation and recovery phases in urban contexts, where the experience in using such systems already exists.

·emergency-wash.org·
Ozonation.
Granular activated carbon ( GAC ).
Granular activated carbon ( GAC ).

https://www.emergency-wash.org/water/en/technologies/technology/granular-activated-carbon-gac

👉🏼 PDF: https://app.box.com/s/wmfd5j4rzecvgysewk9s7avqhe6l4nlu ____ Granular Activated Carbon (GAC) is the most used adsorption method in drinking water to remove taste, odour and colour-causing compounds, natural organic matter, disinfection by-products and synthetic organic chemicals present in the source water. GAC is also used for vapour treatment to remove noxious odours and contaminants. In small-scale treatment plants, it is often used for chlorine and chloramine removal. GAC can be used in all phases of an emergency.

·emergency-wash.org·
Granular activated carbon ( GAC ).
Arsenic removal technologies.
Arsenic removal technologies.

https://www.emergency-wash.org/water/en/technologies/technology/arsenic-removal-technologies

👉🏼 PDF: https://app.box.com/s/9f9bfixh1d454glc6na4809lrzb2nhu3 __ Arsenic is a groundwater contaminant derived from naturally occurring minerals present in rocks and soils (commonly in young alluvial sediments) as well as from industrial activities (e.g. mining). When present at levels over 10 μg/L, arsenic can directly impact human health and should be addressed as soon as possible at any phase of an emergency. Arsenic can be removed from groundwater by precipitation, adsorption, ion exchange or Reverse Osmosis T.15 .

·emergency-wash.org·
Arsenic removal technologies.
Fluoride Removal Technologies.
Fluoride Removal Technologies.

https://www.emergency-wash.org/water/en/technologies/technology/fluoride-removal-technologies

👉🏼 PDF: https://app.box.com/s/ee2p5u9jkzhuhaytnf1zt1r0v0b36ytl __ Fluoride is a groundwater contaminant derived from minerals present in rocks and soils (commonly volcanic-derived sediments). At levels over 1.5 mg/L, it can directly impact human health so must be removed to ensure a safe water supply. Nonetheless, as the negative health impacts only occur over the long term and because they are time consuming to establish, Fluoride Removal processes are more suited to the stabilisation and recovery phases.

·emergency-wash.org·
Fluoride Removal Technologies.
Ultrafiltration (UF).
Ultrafiltration (UF).

https://www.emergency-wash.org/water/en/technologies/technology/ultrafiltration-uf

👉🏼 PDF:  https://app.box.com/s/blq646usjwqrqu1p78m2rhlg9rbfw8da _ Ultrafiltration (UF) is part of the family of pressurised membrane filtration systems that can purify water from undissolved and most dissolved substances. UF is used as a final treatment step and can be applied in the acute response as well as in the stabilisation and recovery phases of emergencies.

·emergency-wash.org·
Ultrafiltration (UF).
Slow sand filtration.
Slow sand filtration.

https://www.emergency-wash.org/water/en/technologies/technology/slow-sand-filtration

👉🏼 PDF: https://app.box.com/s/bgvz4mr38hikp7br09htbcsnm7xuafbe _ Slow Sand Filters remove suspended solids and pathogens from water with varying levels of turbidity (or ‘muddiness’) using fine sand as the filtration medium. They are used as a final treatment step and are most applicable in the stabilisation and recovery phases of an emergency.

·emergency-wash.org·
Slow sand filtration.