Sustainable water saving and soil enrichment
Sea2Soil
Sustainable water saving and soil enrichment
About Sea2Soil
Our Mission
Our Products
Our Mission
Our mission is to create sustainable solutions for irrigation and soil improvement in arid regions. By leveraging innovative technologies such as seawater desalination, biomass cultivation, and biochar production, we tackle water scarcity, enhance soil quality, and promote CO₂ sequestration. Our projects are based on a circular economy model, offering farmers cost-neutral opportunities to increase their yields and to save significant amounts of water. Together, we contribute to climate protection, sustainability, and food security.
Through our “Agrohotel” concept, we merge our agricultural expertise with our experience in real estate development to bring the vision of Sea2Soil to life. This unique approach—combining agro-tourism with a forward-looking agricultural model—represents a groundbreaking initiative for Andalusia, rooted in the region’s two foundational pillars: agriculture and tourism.
On the agricultural side, the concept focuses on high-quality olive cultivation and olive oil production, premium wine-growing, and citrus fruits. In addition, innovative crop solutions tailored to the region’s arid conditions—such as agave—are also integrated into the model.
Our Team
Our Products
Our Mission
The management team at Sea2Soil consists of experienced professionals in the fields of engineering, law, economics, and environmental sciences, specializing in sustainable projects. With over 20 years of extensive experience in applying and implementing EU programs, more than 30 years in the execution of renewable energy projects on both the technical and commercial sides, and 25 years in investment banking, the team brings comprehensive expertise in financing, renewable energy, pyrolysis, and soil improvement.
The team is further supported by specialists such as agricultural scientists, environmental engineers, and legal experts. Their work is complemented by external consultants who develop business plans and conduct research to engage investors and other stakeholders effectively.
Our Products
Our Products
Our Products
Combatting Water Scarcity – Innovative Technology for Sustainable Irrigation!
Our approach revolutionizes agriculture in dry regions. Through seawater desalination powered by renewable energy, we create an affordable and eco-friendly water source for farmers – a solution that effectively addresses water scarcity while protecting the environment.
Improving Soil Quality – The Power of Biochar!
Agricultural waste (green cuttings) is transformed into a valuable product: biochar. This natural miracle improves water retention, optimizes nutrient availability, and revitalizes the soil with microorganisms – ensuring more fertile soils and sustainable agriculture.
CO₂ Sequestration – Climate Protection Through Soil Revolution!
Our biochar production sets new standards in the fight against climate change. CO₂ is bound in the soil long-term while agricultural productivity is simultaneously increased. Together, we shape a carbon-neutral future!
Higher Yields – Significant Productivity Increases!
Through cutting-edge irrigation techniques like drip irrigation and the use of biochar, we maximize agricultural yields – all without additional costs for farmers. Sustainability meets profitability!
Take your agriculture to the next level – innovative, sustainable, and future-oriented!
All about water
The climate change
The Importance of Water in Spain's Dry Regions
Water is a vital resource in Spain's dry regions, such as Andalusia, where hot climates, low rainfall, and prolonged droughts severely limit its availability. These areas rely heavily on agriculture, which consumes a significant portion of the water supply to grow fruits, vegetables, and olives—key economic assets for the country.
Water scarcity is exacerbated by climate change, leading to more frequent droughts and declining groundwater levels. At the same time, demand for water is increasing due to tourism and a growing population.
Innovative solutions such as seawater desalination, efficient irrigation techniques, and sustainable water management are crucial to preserving water resources and ensuring sustainable development in these regions. Without these measures, economic, environmental, and social challenges are inevitable.
Desalination of Seawater
Seawater desalination is a process that removes salt and other minerals from seawater to produce fresh water suitable for drinking, agriculture, or industrial use. There are two primary methods: reverse osmosis and thermal desalination.
- Reverse osmosis uses semi-permeable membranes to filter out salt by applying pressure to seawater.
- Thermal desalination involves heating the water to create vapor, which is then condensed into fresh water.
Seawater desalination provides a reliable solution to water scarcity, particularly in arid regions. However, it requires significant energy, making the integration of renewable energy sources such as solar or wind power crucial to reducing its environmental impact.
Modern desalination plants not only secure water supplies but also explore innovative ways to utilize byproducts like brine, enhancing the sustainability of the process.
Efficient Irrigation
Drip irrigation is one of the most efficient methods of water use in agriculture. It delivers water directly to the plant roots, minimizing evaporation losses and reducing water consumption by up to 50%. This precise technique ensures optimal water supply, even in dry regions.
Biochar enhances this effect by significantly improving the soil's water retention capacity. Its porous structure stores water and releases it slowly to plant roots, making soils in arid areas more resilient to drought and ensuring consistent hydration for crops.
The combination of drip irrigation and biochar provides a sustainable solution that conserves water resources, increases efficiency, and significantly boosts agricultural yields in dry regions.
All about soil
Pyrolysis
Pyrolysis is a thermochemical process in which organic materials, such as agricultural waste, are heated in the absence of oxygen. This process produces three main outputs: biochar, pyrolysis gas, and pyrolysis oil. Biochar is used as a soil enhancer and stores water and CO₂ long-term. A side product is heat. This process transforms biomass into valuable products, contributing to the circular economy and decarbonization.
Soil Enrichment
Biochar significantly enhances soil quality by improving its structure, nutrient availability, and water retention. Its porous structure increases soil aeration and microbial activity, promoting a healthier soil ecosystem. Biochar acts as a natural fertilizer enhancer, binding nutrients and releasing them gradually, reducing nutrient loss and the need for chemical fertilizers. Additionally, it improves water retention, particularly in sandy or arid soils, ensuring better water availability for plants and increasing agricultural resilience in dry regions. This makes biochar a powerful tool for sustainable soil management.
Green Waste
Using green waste, such as clippings or agricultural residues, as input for pyrolysis offers several benefits. First, it enables the sustainable utilization of waste that would otherwise be discarded or left unused, reducing methane emissions from decomposition and contributing to climate protection. Second, it transforms this waste into valuable biochar, which can be used as a soil enhancer. This promotes a circular economy, minimizes waste volume, and provides a sustainable alternative to traditional waste disposal methods.