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.

Membrane Bioreactor

Membrane Bioreactors (MBR) are treatment processes, which integrate a perm-selective or semi-permeable membrane with a biological process (JUDD 2011…

Arsenic Removal Technologies

Overhung Latrine

An overhung latrine consists of a superstructure and floor built over water. A squat hole in the floor allows excreta to fall directly into the water…

Solids-free Sewer

A solids-free sewer is a network of small-diameter pipes that transports pre-treated and solids-free wastewater (such as septic tank effluent). It…

Community and Camp Water Supply

When dealing with large groups of people, water emergencies might require small-scale centralised water treatment and supply systems to provide…

Surface Irrigation

Surface irrigation is mainly divided in basin, border, and furrow systems. It is widely utilised and therefore a well-known system, which can be…

Manual Irrigation

Manual irrigation systems are very simple, but effective methods for making water available to crops. Manual irrigation systems are easy to handle…

Automatic Irrigation

An automated irrigation system refers to the operation of the system with no or just a minimum of manual intervention beside the surveillance. Almost…

Sprinkler Irrigation

Sprinkler irrigation is a method of providing rainfall-like irrigation to the crops. Water is distributed through a system of pipes usually by…

Drip Irrigation

Drip irrigation is a technique in which water flows through a filter into special drip pipes, with emitters located at different spacing. Water is…

Subsurface Drip Irrigation

Subsurface drip irrigation is a variation from conventional surface drip irrigation techniques. By minimising evaporation it uses water more…

Spate Irrigation

Spate irrigation is a crop irrigation technique consisting of diverting seasonal stormwater from valleys, rivers, riverbeds and gullies by gravity…

Crop Selection

Different crops need different type of soils, different types and amounts of nutrients, and different types and amounts of water. The amount of water…

Water Purification in Emergencies Overview

Compost Filter

The compost filter is a fairly new method for pre-treating wastewater. There are two different methods: two chamber compost filters or compost filter…

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