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What is Solar PV system and how it works?

Written by Ankit Javeri | 9/27/24 12:13 PM

Solar power is no longer a futuristic concept it’s a practical solution for home and business owners alike. By leveraging the sun's abundant energy, solar photovoltaic (PV) systems offer an efficient, eco-friendly alternative to traditional power sources. But what exactly is a solar PV system, and how does it work?

In this blog post, we’ll unravel the mysteries of solar PV systems, exploring their mechanics, types, and the economic and environmental impacts they bring. By the end, you'll have a comprehensive understanding of how these systems can benefit you and our planet.

What is a Solar PV System?

A solar PV system converts sunlight directly into electricity using solar panels made of semiconductor materials. This electricity can be used to power homes, businesses, and various electrical devices, reducing reliance on conventional energy sources.

Things to Consider Before Solar Panel Installation

1. Analyze Your Electricity Bill:

Before installing solar panels, first review your electricity bills to estimate your energy consumption in kilowatt-hours (kWh). This information will serve as the basis for determining the size of the solar energy system you'll need.

2. Determine Solar System Size:

After estimating your energy consumption, determine the solar system size needed. Factor in the wattage of your electrical appliances and how many hours they'll run each day.

3. Make Equipment Checklist:

Create a checklist of essential equipment for a solar energy system. This usually includes Solar PV modules, AC & DC wires, Earthing cables, batteries (for off-grid systems), and more.

4. Prepare Your Space:

Before installing solar panels, make sure the area gets plenty of sunlight throughout the day. Trim overhanging branches or remove any obstructions that could cast shadows.

5. Choose Solar Panel Supplier:

Choose a trusted solar panel manufacturer for your installation. Consider factors like the range of models, cost, warranty options, and customization to meet your specific needs.

6. Conduct a Technical and Feasibility Study Report:

Before installation, assess your building's structure rooftop area, and energy consumption profile. Consider factors like appliances in use, number of occupants, and solar radiation at your location.

7. Budget Planning:

Estimate the cost of installing solar panels by assessing your energy consumption and equipment needs. Factor in additional costs like inverter capacity, earthing, battery storage (if applicable), warranties, maintenance, and the number of panels required to achieve your energy targets.

8. Grid Connection:

Determine whether you want to integrate your solar system with the electrical grid (on-grid system) or operate independently (off-grid system). This decision will influence the type of inverter and battery storage you'll need.

9. Obtain Permits and Grants:

Once you've finalized your installation plan, obtain the necessary permits to legalize the installation. Additionally, explore potential subsidies or incentives for solar panel installation available in your area.

How Does a Solar PV System Work?

Step 1:Sunlight Strikes the Solar Panels

The process begins when sunlight hits the solar panels. These panels contain materials like silicon that react to incoming photons. This reaction dislodges electrons, initiating a flow of electricity known as direct current (DC). Essentially, the panels act as a giant photon sponge, absorbing sunlight and converting it into electric energy.

Step 2:The Inverter Changes DC to AC

While the panels generate DC electricity, most homes and appliances operate on alternating current (AC). An inverter is crucial because it transforms the DC power into AC power. This conversion ensures that the electricity generated is compatible with your everyday electrical devices, making the power usable in real-world applications.

Step 3: Electricity Flows to Your Electrical Panel

Once the DC power is converted to AC, it travels to your electrical panel. The panel distributes this electricity throughout your home, powering everything from your lights to your refrigerator. This seamless integration allows for a constant supply of clean energy to meet your daily needs.

Step 4: Meter Tracks Energy Use (and Savings!)

Your electric meter plays a critical role in monitoring power use. It measures both the energy consumed and the energy produced by your solar system. Often, solar panels produce excess electricity, which can be sent back to the grid. This process, known as net metering, can earn you credits that offset your electricity bills.

Step 5: Batteries for Backup (Extremely Important!)

One of the standout features of modern solar systems is the inclusion of batteries. These batteries store excess energy produced during the day, providing power during night-time or emergencies. By storing unused energy, batteries maximize your solar investment and ensure a continuous supply of electricity even when the sun isn't shining.

According to solar insure As of 2024, there are an estimated 105–126 million solar panels on residential roofs in the United States.

What Are the Different Types of PV Systems?

Off-Grid/Stand-Alone Systems

Off-grid systems are ideal for remote areas where connecting to the grid is not feasible. These systems include battery storage to provide power during non-sunlight hours. Despite requiring a battery, which can increase initial costs, off-grid systems are often more affordable in the long run due to their independence from utility companies.

Grid-Tied Systems

Grid-tied systems are connected to the local utility grid. These systems offer increased design flexibility since they do not need to power all of a home's loads. They require minimal maintenance and are highly efficient because they do not include batteries. If your system generates more electricity than you use, the excess is fed back into the grid, often earning you financial credits.

Hybrid Systems

Hybrid systems combine the features of both off-grid and grid-tied systems. Electricity generated is routed to a hybrid inverter and battery. Once the battery is full, the excess energy is sent to the grid. Although the system design is more complex and the initial costs are higher, hybrid systems offer multiple power sources, making them extremely reliable and versatile.

The most common and special types of solar panels used

Solar Cell Type Efficiency Rate Advantages Disadvantages
Monocrystalline Solar Panels (Mono-SI) ~20% High-efficiency rate; optimized for commercial use, high lifetime value Expensive
Polycrystalline Solar Panels (p-Si) ~15% Lower price Sensitive to high temperatures; lower lifespan & slightly less space efficiency
Thin-Film: Amorphous Silicon Solar Panels (A-SI) ~7-10% Relatively low costs; easy to produce & flexible Lower lifespan
Concentrated PV Cell (CVP) ~41% Very high performance & efficiency rate Solar cooling system needed (to reach high-efficiency rate)

Source- Greenmatch

U.S. utility-scale electricity generation by source, amount, and share of total in 2023

Energy Source Billion kWh Share of Total
Wind 425 10.2%
Hydropower 240 5.7%
Solar(total) 165 3.9%
Photovoltaic 162 3.9%
Solar thermal 3 0.1%
Biomass(total) 47 1.1%
Wood 31 1.1%
Landfill gas 8 0.2%
Municipal solid waste (biogenic) 6 0.1%
Other biomass waste 2 0.1%
Geothermal 16 0.4%
Renewables (total) 894 21.4%

Source- U.S. Energy Information Administration

The Economic and Environmental Impact of Photovoltaic (PV) Systems

Environmental Benefits

• Reduction of Greenhouse Gas Emissions

One of the most significant environmental benefits of solar PV systems is the reduction in greenhouse gas emissions. Unlike fossil fuels, solar energy does not produce harmful pollutants, contributing to cleaner air and a healthier planet.

• Minimal Water Usage

Solar PV systems require almost no water for maintenance, unlike traditional power plants that consume vast amounts of water for cooling. This makes solar energy a more sustainable option, especially in areas facing water scarcity.

• Reduction in Air and Water Pollution

Using solar power reduces the need for burning fossil fuels, which in turn decreases air and water pollution. Less pollution means fewer health problems and a safer environment for all living beings.

Economic Impact

• Reduction in Electricity Bills

One of the most immediate benefits of installing a solar PV system is the reduction in electricity bills. By generating your power, you become less reliant on utility companies and more resilient to fluctuating energy prices.

As per Forbes, The solar industry hopes to generate 30% of electricity by 2030.

• Increased Property Values

Homes and businesses with solar PV systems often see an increase in property value. Prospective buyers recognize the long-term savings and environmental benefits, making solar-equipped properties more attractive in the real estate market.

• Incentives and Financial Support

Various incentives and financial support options make solar energy even more appealing. For instance, New York offers several solar incentives and credits, such as the Federal solar tax credit, net metering, and the NY State Solar Energy System Equipment Tax Credit. These incentives can significantly offset the initial installation costs, making the switch to solar more affordable.

Conclusion

Solar energy technology presents numerous advantages for both individuals and society. It's a renewable resource that does not produce greenhouse gas emissions or other pollutants, offering energy independence and sustainability. With advancements in technology, solar panels have become more efficient and cost-effective, making them a viable option for many.

At NY Engineers, we specialize in designing Solar Photovoltaic Systems that seamlessly integrate with your building’s infrastructure. Our expertise helps clients achieve energy efficiency and sustainability, contributing to a greener future.

Are you ready to power your life with solar energy? Contact us today to learn more about our services and how we can help you make the switch to solar.