The proposed innovation is an integrated system which combines already well known and commercialized products such as rain-water-harvesting and solar pumps. Rainwater will be collected from the roof and other and impervious surfaces and collected.
Our innovation addresses the climate-related hazard of droughts, focusing on the critical issues impacting agricultural sustainability. Specifically, it aims to solve the following problems:
- Instability of Durum Wheat Crop Production: By developing advanced techniques and strategies, we aim to stabilize and enhance the yield of durum wheat crops under drought conditions.
- Lack of Water for Emergency Irrigation: We implement efficient water management systems to ensure that water is available for emergency irrigation, thereby protecting crops during critical periods.
- Unsustainable Use of Water and Energy Resources: Our solution promotes the sustainable use of water and energy resources, optimizing irrigation practices to conserve these vital resources.
This innovation is poised to significantly improve the resilience of agricultural practices to droughts, ensuring more stable crop production and resource sustainability.
See more information about this level and the TRL and SRL levels.
The system’s main components have been individually tested, and an initial integration has been completed.
The proposed innovation combines multiple technologies with the aim to collect rainwater from roofs and impervious surfaces, to store it in reservoirs and to use it for emergency irrigation of durum wheat fields. To pump the irrigation water, solar pumps will installed, ensuring the sustainable energy use and production.
Was developed indepandently
The amount of collected water is limited to the impervious area available. if few impervious surfaces are available, a small amount of water is colectable and ready for use.
The proposed innovation is an integrated system which combines already well known and commercialized products such as rain-water-harvesting and solar pumps. Rainwater will be collected from the roof and other and impervious surfaces and collected.
Our innovation addresses the climate-related hazard of droughts, focusing on the critical issues impacting agricultural sustainability. Specifically, it aims to solve the following problems:
- Instability of Durum Wheat Crop Production: By developing advanced techniques and strategies, we aim to stabilize and enhance the yield of durum wheat crops under drought conditions.
- Lack of Water for Emergency Irrigation: We implement efficient water management systems to ensure that water is available for emergency irrigation, thereby protecting crops during critical periods.
- Unsustainable Use of Water and Energy Resources: Our solution promotes the sustainable use of water and energy resources, optimizing irrigation practices to conserve these vital resources.
This innovation is poised to significantly improve the resilience of agricultural practices to droughts, ensuring more stable crop production and resource sustainability.
The main components of the system have been tested separately, and an initial integration exercise has been conducted.
The proposed innovation combines multiple technologies with the aim to collect rainwater from roofs and impervious surfaces, to store it in reservoirs and to use it for emergency irrigation of durum wheat fields. To pump the irrigation water, solar pumps will installed, ensuring the sustainable energy use and production.
Was developed indepandently
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