SubsidieMeestersDEMONSTRATION OF A COST-EFFICIENT SOLUTION TO PREVENT EVAPORATION LOSSES, ENSURE WATER QUALITY AND PRODUCE RENEWABLE ENERGY IN AGRICULTURAL WATER RESERVOIRS
The LIFE H2OLOCK project aims to develop a cost-efficient solution for agricultural water reservoirs that reduces evaporation by up to 90%, suppresses algae growth, and generates renewable energy.
Projectdetails
Introduction
Agricultural water reservoirs (AWR) play a significant role in agricultural irrigation systems in Europe. In countries where water scarcity is a critical issue, such as the south of Spain, farmers save water in those AWR. However, they remain open to the atmosphere most of the time, which just in the Segura basin leads to annual losses of 78 Hm3.
Water Loss Minimization
To preserve scarce natural water resources, water loss must be minimized. Nevertheless, existing solutions are not cost-efficient for agriculture.
Energy Demand in Agriculture
On the other hand, the demand for energy in agriculture has grown due to the installation of more efficient irrigation systems. This is leading to the installation of solar panels on AWR to produce clean energy as a means of balancing the electricity costs.
Collateral Effects of Solar Panels
As a collateral effect, the panels partially cover AWR, contributing to reduce evaporation. However, they are not cost-efficient for evaporation purposes.
Project Objectives
The LIFE H2OLOCK project main objective is to demonstrate a versatile and cost-efficient solution, specifically designed for medium to large AWR, that will ensure:
- Water evaporation performance up to 85-90% (vs. 80% of existing solutions)
- Suppression of algae growth without the use of algicides (after 15-30 days of use)
- Production of renewable energy for irrigation systems, meeting the water requirements of the reservoir while maximizing power production.
Innovative Solution
This will be achieved by the novel combination of floating modules, floating blankets, and flexible solar cell panels integrated in floating blankets.
Contribution to Sustainability
This solution will contribute to the LIFE programme by helping to reduce the pressure on water bodies/resources, promoting sustainable water management. Additionally, the project strives for energy efficiency, contributing to the transition of agriculture to a sustainable, renewable energy efficiency, and climate-neutral paradigm.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 1.067.257 |
| Totale projectbegroting | € 1.782.370 |
Tijdlijn
| Startdatum | 1-9-2022 |
| Einddatum | 31-10-2025 |
| Subsidiejaar | 2022 |
Partners & Locaties
Projectpartners
- ARADA INGENIERIA SLpenvoerder
- ARANA WATER MANAGEMENT SOCIEDAD LIMITADA
- COMUNIDAD DE REGANTES DE LORCA
- FUNDACION CENTRO TECNOLOGICO DE COMPONENTES
- AVIPE-ASSOCIACAO DE VITICULTORES DO CONCELHO DE PALMELA
- GLOBAL FACTOR INTERNATIONAL CONSULTING SL
Land(en)
Vergelijkbare projecten binnen LIFE
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
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Innovative cost-effective water reuse approach in compliance with the new European regulation framework for agricultural irrigation (WAter Reuse adaptation RegulatIOn agRo)
LIFE WARRIOR aims to demonstrate a cost-effective water reclamation system for agricultural irrigation in compliance with EU regulations, enhancing water availability and promoting a digital marketplace for membrane reuse.
Sustainable drinking and irrigation water production from saline alternative water resources
LIFE SALTEAU aims to enhance the use of alternative water resources through innovative technologies, reducing costs and energy consumption while increasing EU water supply and critical material recovery.
Modular wireless sentinel of water percolation, water potential, soil texture, salts, pH, and nutrients in depth, to reduce water use and energy and optimise fertilization in crops
The LIFE HYDROSTICK project aims to enhance sustainable agriculture through a modular IoT solution for real-time soil monitoring, promoting water efficiency and fertilizer use in farming.
Eco-efficient system for wastewater tertiary treatment and water reuses in the Mediterranean region
LIFE BIODAPH2O aims to scale up an eco-efficient nature-based wastewater treatment system to produce reclaimed water for agricultural reuse and improve freshwater ecosystem quality in Mediterranean regions.
Futureproof farming water management
The project aims to optimize water usage in EU agriculture through precision farming technology, deploying 450 sensors to help 150 farmers adapt to increasing droughts and enhance sustainability.
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Wateragro application
Het project onderzoekt de haalbaarheid van een AI-gestuurd systeem om watergebruik in de landbouw met 30% te verminderen.
CO2-Free Agriculture for the Mediterranean region
The CO2-FrAMed project aims to deploy 12 innovative, battery-free photovoltaic irrigation systems, reducing CO2 emissions and costs for farmers while enhancing agricultural productivity and sustainability.
Save Cool
Het SAVE COOL project ontwikkelt een duurzame koelwaterbehandeling door innovatieve technologieën te combineren, met als doel water- en chemicaliënverspilling te verminderen en de markt te betreden.
Crops4Drops
Het project ontwikkelt een innovatieve softwareapplicatie voor het ontwerpen van optimale zonne-energie irrigatiesystemen, gericht op het aanpakken van watertekorten in de landbouw.
Circular Clean Water System
Het project ontwikkelt een innovatief Circulair Clean Water System voor de tuinbouw dat water volledig zuivert en real-time kwaliteit meet, om voedselveiligheid en efficiënt watergebruik te waarborgen.