What are the features and components of grid tied solar system?
A grid-tied solar system is designed to work in conjunction with the local utility grid to provide a reliable and efficient source of renewable energy. This system generates electricity from sunlight through solar panels, which are then converted into usable alternating current (AC) by an inverter. The AC electricity powers household appliances and any surplus energy is fed back into the utility grid, earning the homeowner credits through a process called net metering. During times when solar production is insufficient, such as at night or on cloudy days, the home seamlessly draws electricity from the grid.
Features of Grid-Tied Solar System
Connection to Utility Grid: Allows for the seamless integration of solar power with the local utility grid, enabling electricity to flow both to and from the grid.
Inverter: Converts the direct current (DC) produced by solar panels into alternating current (AC) that can be used by household appliances and fed into the grid.
No Battery Storage: Eliminates the need for expensive battery storage systems since the grid acts as a virtual battery.Reduces maintenance requirements and costs associated with battery systems.
Continuous Power Supply: Ensures a continuous power supply by drawing electricity from the grid during nighttime or cloudy days when solar generation is low.
Energy Savings: By generating your electricity and sending excess power back to the grid-tied solar system, you can significantly reduce your electricity bills.
Monitoring and Control: Many systems come with monitoring capabilities that allow homeowners to track energy production and consumption in real time.
Scalability and Flexibility: Systems can be easily expanded by adding more panels to meet growing energy needs. Suitable for various types of installations, including residential, commercial, and industrial applications.
Environmental Impact: Utilizes solar energy, a clean and renewable resource, reducing dependence on fossil fuels.Lowers greenhouse gas emissions and contributes to environmental sustainability.
Enhanced Property Value: Homes equipped with solar systems often have higher property values and attract environmentally-conscious buyers.
Compliance with Regulations: Designed to comply with local electrical codes and standards, ensuring safety and reliability.
Components of a Grid-Tied Solar System
Solar Panels: These are the primary components that capture sunlight and convert it into direct current (DC) electricity. They are typically made from silicon cells and come in various types like monocrystalline, polycrystalline, and thin-film.
Inverter: Converts DC electricity generated by the solar panels into alternating current (AC) electricity that can be used by household appliances and sent to the grid.
Mounting System: Structures that securely attach the solar panels to the roof or ground. They ensure the panels are positioned at the optimal angle and orientation for maximum sunlight exposure.
Monitoring System: Measure the amount of electricity produced by the solar system and monitor energy consumption. Provides real-time data on system performance, energy production, and usage, often accessible via a web portal or mobile app.
Bidirectional Meter: A utility meter that measures electricity flow in both directions — how much electricity is drawn from the grid and how much excess solar electricity is sent back to the grid.
Electrical Panel: The main electrical service panel in the home, where the solar-generated AC electricity is distributed to the household circuits.
Utility Grid Connection: The physical and regulatory connection between the solar system and the utility grid, allowing for the exchange of electricity.
DC and AC Disconnects: These are installed to allow safe disconnection of the solar system from the grid and the home for maintenance or in case of an emergency.
Wiring and Cabling: Carry electricity from the solar panels to the inverter, from the inverter to the electrical panel, and from the panel to the grid.
Combiner Box: Combines the output of multiple solar panel strings into a single DC output that is sent to the inverter.
How Does a Grid-Tied Solar System Work?
A grid-tied solar system operates by harnessing sunlight to generate electricity and integrating seamlessly with the local utility grid. Here’s a step-by-step explanation of how it works:
Solar Panels Capture Sunlight: Solar panels, composed of photovoltaic (PV) cells, absorb sunlight and convert it into direct current (DC) electricity. The cells are usually made from silicon and work through the photovoltaic effect, where sunlight knocks electrons loose, creating an electric current.
DC to AC Conversion: The DC electricity generated by the solar panels is sent to an inverter. The inverter converts the DC electricity into alternating current (AC) electricity, the standard form of electricity used in homes and on the grid.
Powering Home Appliances: The AC electricity is fed into the home’s electrical panel (breaker box), where it is distributed to power household appliances and lighting.
Excess Energy Sent to the Grid: If the solar system produces more electricity than the home consumes, the excess energy is sent back to the utility grid. This process is facilitated by a bidirectional meter that measures the flow of electricity to and from the grid.
Drawing Power from the Grid: When the solar panels do not generate enough electricity to meet the home’s needs, the system automatically draws electricity from the grid to ensure a continuous power supply.
Grid-tied Solar System Price
The price of an on-grid solar system in India varies based on several factors, including the system size, quality of components, and installation location. The cost of an on-grid solar system per kilowatt typically ranges between INR 50,000 to INR 60,000. This price includes solar panels, inverters, mounting structures, wiring, and installation charges.
For a typical household installation of a 3 kW Solar system, the total cost would be around INR 1.4 lakh to INR 1.8 lakh. Larger systems, such as those for commercial or industrial purposes, will have a higher upfront cost but can benefit from economies of scale, potentially reducing the per-kW price.
Conclusion — A grid-tied solar system represents an innovative and efficient solution for harnessing renewable energy. By seamlessly integrating with the utility grid, it provides homeowners with a reliable and sustainable way to generate electricity. The system’s ability to produce clean energy, reduce electricity bills through net metering, and contribute to environmental conservation makes it an attractive option for modern households.