Avatar Dragons

In this blog post, I will share the details of an innovative water filter that I have designed for large water bodies. This water filtration system utilizes coagulation, granular activated carbon, and reverse osmosis to effectively filter large bodies of water, such as lakes. The unique feature of this filter is its integration with an artificial intelligence (AI) system, allowing for automated monitoring and control. Let’s delve into the specifics of the design and functionality.

The water filter is a substantial cylindrical structure with a water tank positioned on top. The tank is filled through a pipe directly connected to the lake, while a massive cylindrical chamber underneath houses the water flow and machinery responsible for the filter’s operation. At the very bottom, another pipe releases the purified water back into the lake.

The filtration process begins with the water entering a coagulation chamber. Coagulants are introduced, and the flood doors are sealed. The water rotates at 20 bpm, creating coated water. The clean water then proceeds through two granular activated carbon (GAC) chambers and an electrical pump before passing through the reverse osmosis filter. If the water meets the required standards, it is released back into the lake. Otherwise, it undergoes the process again until it reaches the desired purity.

The system incorporates a manual override accessible via a screen on the left side of the filter. This allows for easy adjustments and modifications if necessary. Each chamber has doors for convenience, enabling modifications or repairs without disrupting the entire system.

To enhance the efficiency of the filtration process, three key chemicals—poly aluminum chloride, chlorine, and sulfur sulfate—are introduced. These chemicals ensure thorough purification, and any depleted components can be easily replenished by opening the hatch on the left side and adding the required substances.

To power the filter, a connection to a nearby hydroelectric dam is essential. However, in cases where proximity is an issue, the system can be linked to a generator or charged using a solar battery for nighttime operations. While the development of a sophisticated AI system may take time, the components such as the pump, coagulation chamber, and filter are relatively straightforward to create.

In conclusion, the designed water filter is a promising solution for cleaning up large bodies of water, providing an efficient and automated process. The integration of AI, coupled with its adaptable design and sustainable power options, makes it a viable solution for environmental conservation.