The Smallops project has made significant progress beyond the current state of the technology in several key aspects. The main impacts of the results obtained and the key needs to ensure greater adoption and success are described below:
Optimization and Cost Reduction:
- Impact: The optimization of the OPS nanoparticle production process has resulted in a 33% reduction in production costs, as well as a 25% increase in product quality. This advance allows for a more competitive and efficient product to be offered on the market.
Innovative Product Format:
-Impact: The change from suspension to powder format with 20% moisture has improved handling and reduced transportation costs. This new format facilitates dosing and storage of the product in industrial plants.
Efficiency in H2S Prevention:
-Impact: OPS have proven to be highly effective in preventing H2S production, maintaining stable levels of this gas in anaerobic digesters for extended periods. This offers a considerable advantage over traditional iron salts, such as ferric chloride.
Economic Savings:
-Impact: The reduction in ferric chloride dosage has resulted in significant savings for users, with real savings of €5,500 per year, not counting the additional income from increased biogas production, which is around €60,000 per year depending on energy prices.
Treatment of Contaminated Water:
-Impact: Tests have shown that OPS nanoparticles can remove up to 50% of contaminants from the aquatic environment in 120 minutes. This opens up new opportunities in the water treatment sector.
Development of New Markets:
-Impact: Smallops technology has shown potential for application in new sectors, such as the treatment of organic waste from the wine industry and slurry. Although initial results with slurry were not satisfactory, this work has directed research towards other wastes with greater viability.