'different available topologies'

A hybrid solar power system combines the benefits of both on-grid and off-grid solar configurations, offering flexibility and reliability. Here's how the system functions: Sunshine Hours Operation: During daylight, solar energy is used to power the electrical loads directly. Excess Energy Management: If the solar energy generated exceeds the energy required by the loads, the surplus charges the batteries. Any additional energy beyond the battery's capacity can be exported to the utility grid, provided the grid is available. While grid availability (e.g., BESCOM) is necessary for exporting energy, it is not needed for running the loads or charging the batteries. Supplemental Energy Sources: If solar energy is insufficient to power the loads, the system can draw the remaining energy either from the grid or from the batteries. This is programmable, allowing for customization of energy sourcing. If the grid is available, it can provide the additional power; if not, the batteries supply the difference. The system can be configured to draw a specified percentage from the battery and the remainder from the grid. Non-Sunshine Hours Operation: During non-sunshine periods, the system can be programmed to draw energy either from the grid or the battery, based on user settings. Grid Independence: When the grid is unavailable during non-sunshine hours, the entire power demand is met by the batteries. Energy Trading with the Grid: Excess energy generated and exported to the grid can be traded with the utility company. At the end of the billing cycle, if the net exported energy is positive, the utility company compensates the consumer at the prevailing tariff. Conversely, if net energy has been imported, the consumer pays the utility company according to the applicable rates. This hybrid configuration is highly versatile, allowing users to tailor their energy usage, prioritize battery use, manage energy flow, and optimize savings through potential energy exports. It offers the resilience of off-grid systems combined with the added advantage of grid connectivity for energy trading and backup.

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Rainwater Harvesting: Efficient, Simple, and Sustainable Rain is one of the cleanest and most renewable resources available. Rooftop rainwater harvesting is the most direct way to capture this gift and reduce dependence on external water sources. It is simple, cost-effective, and eco-friendly—ideal for homes, industries, and communities. How Our System Works A. Collection – Rainwater is captured from the roof through PVC/UPVC gutters or pipes. B. First Rain Separator (FRS) – The initial dirty runoff (carrying dust and debris) is flushed out. C. Sedimentation Tank (Rain Barrel) – Acts as an extension of the FRS. Here, the initial rain is temporarily stored so heavier particles settle down. This water is safe for non-potable use (gardening, cleaning, washing). D. Overflow & Filtration – Excess water passes through a gravel + charcoal filter before entering a sump or recharge well. E. Potable Use (Optional) – For drinking, additional treatment such as boiling or UV filtration ensures safety. Key Features 1. Simple & Low-Maintenance – Easy to install, understand, and operate with minimal upkeep. 2. Reliable – Provides clean, usable water year-round with optional potable-grade filtration. 3.Eco-Friendly – Reduces dependence on municipal supply and groundwater extraction. 4. Cost-Effective – Cuts water bills and builds resilience against shortages. 5. Groundwater Recharge – Overflow water is directed back into the earth, replenishing aquifers for long-term sustainability. Addressing Concerns 1. Water Quality – The combination of FRS + Sedimentation Tank ensures that debris, dust, and larger particles are removed upfront. Cleaner water then flows into filters and storage. The sedimented water itself is safely used for non-potable needs, maximizing efficiency. 2. Maintenance – Regular cleaning of the sedimentation tank and filters keeps the system efficient. 3. Safety – For potable use, only an additional step (boiling/UV filtration) is required. Conclusion Rooftop rainwater harvesting is simple technology with big impact. By collecting, settling, filtering, storing, and recharging rain where it falls, we conserve resources, reduce costs, and secure water for the future. “Catch the rain where it falls—clean, efficient, and sustainable.”

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