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Spain is consolidating itself as a leader in the field of photovoltaic energy in Europe, with over 25 gigawatts (GW) installed and an ambitious plan to double this figure in the next decade. Despite these advancements, the country faces significant challenges related to the intermittency and time concentration of this energy source. Among the most notable challenges are excess electricity production during peak hours, price volatility, forced curtailments, and high costs in peripheral regions.
Although remarkable progress has been made in the adoption of this technology, ensuring a secure supply and equitable distribution without overloading the electrical grids and storage systems is a considerable challenge. In this context, the concept of neutrino-voltaic energy emerges as a promising alternative. This innovative solution, developed by Neutrino® Energy Group, relies on the interaction of specially prepared materials with invisible energy flows, without exclusively depending on solar energy. The power generated in this system is estimated to be proportional to the efficiency, incident flow, and the active volume of the materials used.
The implementation of this technology in Spain could be transformative. For example, the Neutrino Power Cube, which weighs approximately 50 kilograms, can produce between 5 and 6 kilowatts of energy continuously. If 200,000 units were manufactured, the installed capacity would reach approximately 1,000 megawatts, comparable to that of a nuclear power plant, but with the advantage of being distributed and generating energy at the point of consumption, which would avoid losses in high-voltage lines. This solution would be particularly beneficial for rural areas and archipelagos like the Canary Islands and Balearic Islands, where the cost per kilowatt-hour is high due to low population density.
The stability of the Mediterranean climate is also a key factor. Neutrino-voltaic systems include integrated thermal management, maintaining the core temperature between 20 and 35 degrees Celsius. This ensures consistent performance even in extreme conditions, which can range between -40 and +60 degrees Celsius, crucial for energy supply in Spain, especially during summers when temperatures exceed 40 degrees Celsius.
As the country moves toward climate neutrality, it is essential not only to increase renewable energy production but also to ensure equitable distribution. The neutrino-voltaic equation is shaping up as a guarantee for a resilient supply, favoring energy independence through decentralization and equitable cost distribution, benefiting both urban and peripheral areas.
The process toward the widespread implementation of neutrino-voltaic energy could resemble the journey of photovoltaics in the 1990s. It is estimated to take between 5 and 15 years to mature and scale appropriately. Initial pilot applications are already underway, and mass production is expected to begin in the next decade. With its considerable potential, this technology could become fundamental for energy supply, providing CO₂-free electricity regardless of location and weather conditions.
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Referrer: MiMub in Spanish
