Solar Solutions
On Grid System
An “on-grid” system is one in which the solar System is connected directly into the electrical grid maintained by the local utility Company. The Electricity generated by solar is first consumed at home or customer premises and then sending the extra electricity to the utility system. Consumers can also utilize energy from the grid at night time and get the net bill of what the amount of power they consumed and what they generated.
- Quick, Reliable and affordable to set up.
- Provide commercial and residential customers with a chance to passively profit from the energy their systems produce in excess.
- According to a study in the Economic Times, installing PV rooftop systems on private, commercial, or industrial buildings qualifies them for an “Accelerated Depreciation Benefit” of 80% in a single year.
Hybrid Solar System
Hybrid solar energy systems take a combination of both grid-connected and off-grid setups. The utility grid provides electricity for typical building loads in a hybrid system, and the meters control how much electricity is used.
However, like an off-grid system, hybrid systems store the surplus energy in a battery bank for later use. Solar panels, a controller, solar inverters, batteries, meters, and the utility grid are the primary parts of a hybrid solar energy system.
- Hybrid solutions are less expensive than off-grid solar systems.
- They make it possible to regulate electricity effectively and be completely independent of the power grid.
- Hybrid systems allow you to use energy even during high-demand times.
- Less power from the grid is needed thanks to these methods.
OFF Grid Solar System
An off-grid solar system is made to meet the power needs of medium- to large-size homes. In contrast to grid-connected solar systems (on-grid), which may draw power from the utility grid throughout the day, off-grid systems generate all the energy they need on their own, with just a small battery bank for use during load shedding.
In order to produce usable electricity, solar panels must first use the photovoltaic (PV) effect to transform sunlight into a direct current (DC). Next, the DC electricity is either stored in a battery or transformed by a solar battery converter into AC power for use by household appliances.
- In regions without access to the availability of a traditional power system, this is the only reliable source of electricity.
- Creates long-term sustainability for consumers and allows them to become “energy independent.”
- The batteries in such system would need to be upgraded every two to three years (depending upon the type of battery used).
