Periodic Reporting for period 2 - SUBSOL (bringing coastal SUBsurface water SOLutions to the market)
Période du rapport: 2017-03-01 au 2018-08-31
The efficiency of subsurface water solutions to enable a reliable freshwater supply and management, stimulating water reuse, was evaluated in SUBSOL from technological, economical and stakeholders perspectives, using experiences and data from field reference pilots and full-scale implementations in the Netherlands. Additionally, the worldwide applicability of SWS was explored at a number of replication sites in Denmark, Greece, the Netherlands and Mexico, showing perspectives for SWS under different hydrogeological, societal and regulatory frameworks. To share knowledge and experiences on SWS, SUBSOL has developed a knowledge environment, including a knowledge base with descriptions of technologies and references, a toolbox with SWS tools to support application, design and operation of SWS technologies, as well as a market place, to enable a market breakthrough of SWS. Finally, a number of missions were carried out to investigate opportunities for SWS replication and implementation in coastal zones worldwide.
In the Netherlands, SWS have found the way to the market and are now being implemented by water utilities, (greenhouse) farmers and in cities to secure freshwater supply and promote water reuse. In Greece, the potential use of an alternative water course for large scale SWS has been identified by Athens’s Water and Sewerage Company. The dedicated missions have shown a large interest of regional and local stakeholders in the practical applicability of SWS, but also revealed potential market uptake barriers including permitting. There is a strong need for local proof of concept, and proposals to initiate new pilots have been submitted together with key stakeholders in Brazil, Vietnam and Cyprus.
The Denmark replication site showed that SWS implementation in a karstic aquifer system is not as straightforward as in (unconsolidated) sedimentary aquifers. Pilot test site and field studies (pumping and tracer tests) were completed successfully, yet also revealed the complicated hydrogeology of the local system. SWS replication in Greece has provided first practical experiences with treatment, infiltration and recovery in a typical Mediterranean coastal aquifers. As a spinoff of this pilot, the potential use of an alternative water course for large scale SWS in the Marathon area has been identified in collaboration with Athens’s Water and Sewerage Company. In Mexico, first steps have been set to upscale reclaimed water use to sustain food production and export in the salinized Maneadero Valley. A solid stakeholder strategy is key to bringing this case from first piloting to full-scale in the future, building from the network of local farmers organizations, authorities and knowledge institutes. Finally, the Dinteloord (the Netherlands) replication has been one of the project’s highlights. Wastewater from the food industry is reused as irrigation water by famers after aquifer storage. Within 3 years, the system has evolved from pilot into in a full-scale system, collectively owned by greenhouse farmers who cover costs by a pay-per-use system. The system is an example of hybrid grey and green infrastructure, demonstrating how SWS can contribute to water reuse in the circular economy.
To share knowledge and experiences on SWS, SUBSOL has developed a knowledge environment, including a knowledge base with descriptions of technologies and references, a toolbox with SWS tools to support application, design and operation of SWS technologies, as well as a market place, to enable a market breakthrough of SWS. The toolbox builds on the experiences and knowhow from the reference sites, which have been formalized in practical, step-by-step implementation guides. The knowledge base includes, among others, various policy briefs to acquaint policy and decision makers with SWS. Knowledge sharing, capacity building as well as trust building activities (promotion events, workshops) were carried out in different target regions worldwide, These dedicated missions have shown a large interest of regional and local stakeholders in the practical applicability of SWS, but also indicated potential market uptake barriers including permitting. There is a strong need for local proof of concept, and as such to develop local field pilots. It was found crucial to actively involve policy makers and other stakeholders in setting up pilots, such that questions and issues related to policy and regulations are addressed from the very beginning.
In Greece, the potential use of an alternative water course for large scale SWS has been identified by Athens’s Water and Sewerage Company. The dedicated missions have shown a large interest of regional and local stakeholders in the practical applicability of SWS, but also revealed potential market uptake barriers including permitting. There is a strong need for local proof of concept, and proposals to initiate new pilots have been submitted together with key stakeholders in Brazil, Vietnam and Cyprus.
SUBSOL has introduced a new thinking in water resources management, and current policy and regulations are not always (yet) suited to evaluate these innovative concepts. SUBSOL partners are dedicated to actively share results and experiences with policy makers, at national and European levels, and to involve policy makers and other stakeholders in further development of subsurface water solutions and related regulations and policies (e.g. Water Framework Directive, EU water reuse requirements).