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Page 1: 1/ DSWAPLaboratoire de Chimie Physique et Microbiologie pour l’Environnement/ LCPME Technical University Dresden Catholic University Consejo Superior de Investigaciones Científicas

PRIMA - Funded Projects 2018 | 36 PRIMA - Funded Projects 2018 | 37

Coordinating institution

Agricultural Research

Organization - ARO

Institute of Soil, Water and

Environmental Sciences Volcani

Center

Scientific Coordinator:

CYTRYN, Eddie

[email protected]

Project

Decision support-based approach for sustainable water reuse application in agricultural production

Coordinating country

Israel

Participating countries/ 7

Partners/ 10

fluent discharge to aquatic environments, to systems designed for waste-

water reuse. DSWAP will overcome the sanitary doubts associated with

wastewater reuse practices and will bring innovative technological solu-

tions to societal challenges relating to water shortages and demand for

irrigation, and the need for safe and sustainable agricultural production.

By providing safe (for the public and environment) crop irrigation water

at lower operational costs and investments, DSWAP will help support local

agriculture and the regional implementation of water recycling policies /

regulations, which will have a significant added value in the economy of

countries trying to establish solid water balances.

Context

Wastewater treatment requirements for effluents used for irrigation are

considerably different from those of effluents discharged to aquatic envi-

ronments. For example, nitrogen and phosphorus are essential elements

for plant cultivation and therefore exhaustive processes for reducing

nutrients (i.e. denitrification and phosphate removal) are not imperative

in wastewater reuse for irrigation. Conversely, the potential association

between chemical and microbial contaminants in effluents and irrigated

crops, makes them a potential public health hazard, and the detrimental

long-term effects of soil salinity on soil structure and crop yield in treated

wastewater irrigated fields (especially in clay-rich soils) suggests that salt

removal may be crucial when irrigating with effluents. This project adopts

a circular economy approach that aims for the safe and sustainable val-

orisation of sewage for irrigation with minimal ecological and agronomic

impacts.

Objective

The overall objective of this project is to develop modular, de-centralized

wastewater treatment/irrigation networks coupled to a decision support

tool that enable coupling/decoupling of modules for microbial/chemicals

of emerging concern/salinity removal as a function of measured param-

eters to ensure cost-effective optimal water quality for irrigation and

long-term sustainability of irrigated soils. Individual modules within these

networks (compiled based on specific requirements) will be coupled to

alternative energy sources to reduce costs and greenhouse gas emissions.

Expected impacts

The project is expected to result in a paradigm shift from conventional

wastewater treatment approaches that are specifically designed for ef-

GERMANY

FRANCE

SPAIN

CYPRUS

PORTUGAL

ISRAEL

ITALY

Agricultural Research Organization

Fluence Corp./ FLC

University of Cyprus S.K. Euromarket Ltd

Laboratoire de Chimie Physique et Microbiologie pour l’Environnement/ LCPME

Technical University Dresden

FRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCEFRANCE Catholic Universityof Portugal/ UCP

Consejo Superior de Investigaciones Científicas APRIA Systems

Università di Salerno

Thematic area

Water Management

Section I

Topic 1 - Water reuse and water

desalination for agricultural and

food production

Budget

2,000,000 €

Duration

36 months

1/DSWAP

ENVIRONMENTAL IMPACTS

Encourage the reuse of waste water to reduce the consumption of conventional water resources in agriculture

Increase environmental and agronomic security

Reduce environmental impacts of water treatment processes of the plants

SOCIAL IMPACTS

Protect public health from risks related to irrigation with treated water

Implement standards and regulations of water recycling policies

ECONOMIC IMPACTS

Support the local agriculture economy especially in countries characterized by chronic water scarcity

Reduce operating and investment costs of waters treatment facilities

WASTE WATER

75 %

630 million m3/yearwater reused in agriculture

in Israel*