CUSTOMIZABLE MULTISTAGE FILTER ASSEMBLY WITH REUSABLE SELF-CONTAINED FILTER HOUSING ENABLED WITH DATA REPORTING

Smart overview of the Invention

The customizable multistage filter assembly introduces an innovative approach to filtration, emphasizing sustainability and efficiency. Utilizing recycled materials and advanced technology, the device excels in contaminant filtration, including desalination. Users can tailor filter settings to optimize performance based on environmental conditions and preferences. The design includes self-cleaning features, reducing waste and manual upkeep while enhancing overall efficiency. Integration with Artificial Intelligence and Machine Learning allows for real-time monitoring, adaptive filtering, predictive maintenance, and remote management.

Design and Functionality

The device features a reusable housing made from recyclable materials, aiming to reduce the carbon footprint compared to disposable filters. It incorporates a barrier or membrane to prevent spillage during filtration. The system offers customizable multistage filters targeting specific contaminants like heavy metals or non-metals. The filtration process also supports additive dispersal, enriching water with flavors, vitamins, or pharmaceuticals to enhance consumption experiences.

Desalination Process

The filtration device employs a combination of filtration and reverse osmosis for desalination, removing salt from seawater or brackish water. The process involves pre-treatment to eliminate large particles, followed by chemical mixing to generate heat for boiling saltwater. Distilled water is collected from the vapor, and further filtration ensures purity. This chemical and thermal approach provides an innovative solution for fresh water in areas with limited clean water access.

Applications

The filter assembly can be adapted for various uses, including water refrigeration systems, point-of-use systems like faucets, air filtration systems, and beverage dispensers. Its versatility allows it to address specific community needs by offering targeted contaminant reduction options. The device's eco-friendly design encourages reduced use of disposable plastic bottles, contributing to less environmental pollution.

Societal Impact

Access to clean water is crucial for human health and economic development. Polluted water poses significant health risks, particularly in economically disadvantaged communities. By providing an efficient filtration solution, this device supports better health outcomes and economic opportunities by ensuring safe water access. It addresses the fundamental need for clean water in various sectors such as education, healthcare, and industry.