Aranya Dweep
Lake rejuvenation system
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Treatment of waste water is by the part of the island that is above the water line of water body. The plants used in the island are any forest species which thrive in a water rich area . Number of Islands will be decided based on flow and space in water body. Typically each 1 sqm island = 2KLD. Water body will be used for recreation and the forest islands will host forest birds and animals. No outside earth will be used only excavated earth from the pond which will increase the holding capacity of the water body.
The innovative approach to wastewater treatment involves a distinctive method that not only addresses environmental concerns but also fosters the flourishing biodiversity of islands within the water body. Primarily situated above the water line, these islands act as natural filters, employing a diverse array of forest plant species adept at thriving in water-rich environments. The design and distribution of these islands are determined by careful considerations such as the flow dynamics and available space within the water body. Each island's size, generally 1 square meter, is optimized to accommodate a capacity of approximately 2,000 liters per day (2KLD) for efficient treatment purposes.
This modular approach allows for scalability and adaptability, with the number of islands adjusted to meet the specific demands of the water flow and available space. The intention behind this method extends beyond mere wastewater treatment. It envisions the transformation of the water body into a multifunctional space, harmonizing ecological conservation with recreational usage. By integrating these forest islands, not only is the wastewater treated naturally, but the islands also serve as habitats for a diverse range of forest birds and animals, fostering a thriving ecosystem within the water body.
An essential aspect of the initiative's sustainability lies in its reliance solely on excavated earth from the pond itself, eschewing the use of external resources. This practice not only minimizes the environmental impact but also augments the water body's holding capacity, contributing to its overall health and resilience. This innovative approach to wastewater treatment stands as a testament to the integration of ecological conservation, sustainable practices, and recreational utility. It encapsulates a holistic vision where the enhancement of the water body's functionality and health intersects seamlessly with the nurturing of biodiverse ecosystems, ultimately benefiting both the environment and the community it serves.
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