Water & Nutrient Cycle Perspective

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Water & Nutrient Cycle Perspective

Find technologies and socio-economic approaches to optimise your local water management and sanitation system.

This perspective is geared to help you find the ideal and sustainable solution to optimise your local water management and sanitation system. It comprises technical instruments and tools (hardwares) as well as economic, political and social approaches (softwares) relating to the main steps of the Water and Nutrient Cycle, namely Water Sources Management, Water Purification, Water Distribution, Water and Nutrient Use, Wastewater Collection, Wastewater Treatment as well as Reuse and Recharge of Nutrients and Water.

Find technologies and socio-economic approaches to optimise your local water management and sanitation system.

This perspective is geared to help you find the ideal and sustainable solution to optimise your local water management and sanitation system. It comprises technical instruments and tools (hardwares) as well as economic, political and social approaches (softwares) relating to the main steps of the Water and Nutrient Cycle, namely Water Sources Management, Water Purification, Water Distribution, Water and Nutrient Use, Wastewater Collection, Wastewater Treatment as well as Reuse and Recharge of Nutrients and Water.

Struvite

Urine, which contains valuable nutrients like nitrogen and phosphorus, can be applied to soil and used as fertiliser for crops. Though valuable,…

Terra Preta Toilets

Urine diversion terra preta toilets are a low cost, dry terra preta sanitation (TPS) systems based on urine diversion and the addition of charcoal…

Anaerobic Digestion (General)

Biogas sanitation is the treatment of waste and wastewater by a process called anaerobic digestion. During anaerobic digestion, the organic matter in…

Anaerobic Digestion (Large-Scale)

Large-scale anaerobic biogas digesters are reactors used for the conversion of the organic fraction of large volumes of slurries and sludge into…

Boiling

Boiling drinking water with fuel is the oldest and most commonly practiced household water treatment method. According to WHO, water needs to be…

Biogas Reactor

A biogas reactor or anaerobic digester is an anaerobic treatment technology that produces (a) a digested slurry (digestate) that can be used as a…

Anaerobic Digestion (Organic Waste)

Anaerobic biogas digesters are airtight reactors in which organic waste is decomposed and transformed into biogas by a biological process called…

Settler

A settler is a primary treatment technology for wastewater; it is designed to remove suspended solids by sedimentation. It may also be referred to as…

Ceramic Candle Filter

Ceramic candle filters are simple devices made out of clay and used to filter drinking water in order to removes turbidity, suspended materials and…

Unplanted Drying Beds

An unplanted drying bed is a simple, permeable bed that, when loaded with sludge, collects percolated leachate and allows the sludge to dry by…

Urine Storage

Urine makes up less than 0.5 % of household wastewater but contains most of the essential plant nutrients N, P and K. Waterless urinals or urine…

Urine-Diverting Dry Toilet (UDDT)

A urine-diverting dry toilet (UDDT) is a toilet that operates without water and has a divider so that the user, with little effort, can divert the…

Pour flush Toilet

A pour flush toilet is like a regular cistern flush toilet except that the water is poured in by the user, instead of coming from the cistern above.…

Sedimentation

Sedimentation is recommended as simple pre-treatment of water prior to application of other purification treatments such as filtration and…

Straining and Filtration

Straining is a very simple method of filtration. In this process, water is poured through a piece of cloth, which removes some of the suspended silt…

The graph shows the water and nutrient cycles and how they are interlinked. It is a simplified and idealised version of the water and nutrient loop that puts humans at the centre. Water coming from water sources is purified, distributed and used in agriculture, households and industry. By using water for these different purposes, nutrients are introduced into the water cycle (e.g. through wastewater, but also in runoff in agricultural systems, etc.). Wastewater, in order to be treated, is collected. The treated wastewater is reused or used to recharge water sources. Nutrients are reused beneficially to produce food or animal feed, thereby not polluting aquatic ecosystems. In this way, both the water and the nutrient loop are closed.

The Water and Nutrient Cycle Perspective recognizes that sectoral approaches are not going to solve the global water and sanitation crisis. Instead, holistic approaches that consider the entire water cycle from source to sea, and that look critically analyse the human influence thereupon are required. It compiles the hardware and software instruments for each step of the Water and Nutrient Cycle, that help you develop a sustainable sanitation and water management system.

The content of this perspective was compiled by seecon gmbh in collaboration with a number of partners:

SSWM Collaboration Partners