How Does Solar Power Work on a House?
How Does Solar Power Work on a House?
Here’s a step-by-step overview of how home solar power works:
When sunlight hits a solar panel, an electric charge is created through the photovoltaic effect or PV effect (more on that below)
The solar panel feeds this electric charge into inverters, which change it from direct current (DC) into alternate current (AC) electricity
The AC electricity runs through your electrical panel and is distributed throughout your home — just like grid energy
Excess solar energy is stored in batteries or pushed onto the grid to power local systems (like your neighbor’s house!)
Through net metering, solar owners get credit for the excess energy they put on the grid to offset the grid energy they pull off the grid when their panels aren’t producing
With battery storage, solar owners can store excess production to power their homes at night
How does solar power work? The photovoltaic effect explained
Solar panels turn sunlight into electricity through the photovoltaic (PV) effect, which is why they’re often referred to as PV panels.
The photovoltaic effect occurs when photons from the sun’s rays hit the semiconductive material (typically silicon) in the cell of the solar module. The photons activate electrons, causing them to free themselves from the semiconductive material.
The free electrons flow through the solar cells, down wires along the edge of the panel, and into a junction box as direct current (DC).
This current travels from the solar panel to an inverter, where it is changed into alternative current (AC) that can be used to power homes and buildings.
How is solar energy used to power your home?
Most home solar systems are “grid-tied” meaning that the solar system, home electrical system, and local utility grid are all interconnected, typically through the main electrical service panel.
Connecting these systems means you can power your home with solar electricity during the day and grid electricity at night. It also means your solar system can push excess electricity onto the local grid to power surrounding systems, like your neighbor’s house.
Through net metering, you earn credit for excess solar production that can be used to offset the grid electricity you use at night.
Home solar with battery storage
Home solar with battery storage works similarly to the process above, but intsead of pushing excess solar production onto the grid, it’s first stored in batteries in your home or garage.
Pairing solar and battery is especially handy for:
Off-grid solar systems
Backup electricity during power outages
Areas without net metering policies
Powering your home on 100% clean and renewable energy
What types of material are used in solar panels?
The most common residential solar panels contain monocrystalline or polycrystalline monocrystalline or polycrystalline (also called multicrystalline) solar cells.
Both types of cells produce electricity when exposed to sunlight, however there are some key differences between the two:
If space is limited on your roof or project site, a higher-efficiency, monocrystalline panel may be preferred, and could result in a better return on investment. Alternatively, a lower-cost, slightly less efficient, polycrystalline panel may do the job just as well if you have ample roof space on your home.
Many panel manufacturers also build panels containing both mono and polycrystalline wafers to form solar cells, capable of harvesting energy from a wider spectrum of light.
Be sure to ask what type of cell (“mono or poly”) your home solar system design contains, This distinction may affect the aesthetics and economics of your project.
How does sun exposure affect solar panel efficiency?
It is important that your solar panels receive good insolation (sun exposure) throughout the day and are free from as much shading from trees or neighboring obstructions as possible.
There are a number of factors that influence solar panel efficiency. They include:
Temperature — Solar panels operate best in temperatures between 59 and 95 degrees Fahrenheit
Type of solar panel — Solar panels typically range from 15-20% efficient, with the best panels pushing 23%.
Shading — Solar panels perform best in wide-open sun. Even partial shading can substantially reduce the efficiency of a panel
Orientation and angle — Solar panels perform best when they are directly facing the sun and are often tilted to increase efficiency
Solar engineers use satellite imagery to determine which panels and placement will provide optimum solar panel efficiency for you home.
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