Designed to adapt to changing sunlight levels, this innovation eliminates the need for costly batteries, offering an efficient and sustainable solution for clean water in regions lacking reliable power or freshwater.
Desalination, the process of removing salt from water, is a critical technology for areas with limited freshwater resources. Conventional desalination systems often rely on steady power from the grid or batteries to operate. Solar-powered desalination, while an attractive alternative, presents challenges due to the natural variability of solar energy throughout the day. Existing systems require batteries to store energy, adding cost and complexity. The MIT team sought to overcome these limitations by designing a system that can directly respond to changes in sunlight without the need for energy storage. Researchers from MIT have developed a desalination system powered entirely by solar energy.
Their design, which adapts to the natural fluctuations of sunlight, promises a new way to provide clean water, especially in areas where access to traditional power grids and fresh water is limited. The new solar-powered desalination system adjusts its output in real-time based on sunlight intensity. As solar energy increases during the day, the system accelerates desalination, and when sunlight decreases, such as when clouds pass, it slows down. This design allows the system to maximize solar energy usage without relying on additional batteries or power from the grid. The researchers tested a community-scale prototype in New Mexico for six months. This prototype could desalinate up to 5,000 liters of water daily, utilizing over 94% of the electrical energy generated by the solar panels. This efficiency remained consistent despite varying weather conditions and solar intensity.
The team mentions that by continually varying power consumption in sync with the sun, our technology directly and efficiently uses solar power to make water. This advancement is particularly significant because it eliminates the need for battery storage, a costly and complex component of previous systems. The system is primarily designed to desalinate brackish groundwater, a saltier type of water found in underground reservoirs. This resource is more abundant than freshwater and offers significant potential for areas where freshwater resources are scarce. The team envisions this technology being especially useful for inland communities that rely on brackish groundwater as their primary source of drinking water. The engineers are working on scaling the system to serve larger populations, aiming to supply entire communities with solar-driven clean water. Their efforts will also focus on further reducing costs and improving reliability, with plans to launch a company based on this technology soon.