2PCS Bifacial 450 Watt Monocrystalline Solar Panel

06 May.,2024

 

2PCS Bifacial 450 Watt Monocrystalline Solar Panel

Solar panels can be connected in series or in parallel to meet your electrical circuit size and power demand. Connecting solar panels in series will have the effect of adding up their operating voltage output, while system current output will be the same as that for one panel. While, connecting solar panels in parallel will have a different effect; individual panels operating current output will add up to be the system output current, while system output voltage will be the same as the output voltage of one solar panel. To meet the optimum power output and system rating for your power system, you can use both parallel and series connections.

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How Much Electricity Does A Solar Panel Produce?

Solar power is a great way to offset your energy bills. But just how much electricity do solar panels produce, and how many panels will you need to cover your electric bill?

We’ll take a look at what determines the power output of a solar panel, how much they produce, and how many you’ll need to cover your home, business, or farm’s energy bill.

Determining How Much Electricity Your Panels Produce

There are a few factors that will impact how much energy a solar panel produces. They include:

  • The solar panel's power rating (efficiency + size)
  • The type of the solar panel
  • Environmental factors

Here’s how each plays a role in your solar production.

Solar Panels' Power Rating

A solar panel’s power rating is the measurement of the amount of electricity a solar panel will produce. Most solar panels on the market today have a power rating of around 300 to 500 watts.

What determines a solar panel’s power rating? It is impacted by how efficient and how large the solar panel is. 

Solar panel efficiency is a measure of the percentage of the sun’s energy that the solar panel can convert into electricity. Today, many high-quality panels are around 20% efficient or more.

Higher efficiency panels mean you can produce more electricity with the same amount of panels, making them a great option for properties with limited space. However, they also come with a higher price tag.

Solar panels historically came in two sizes: 60-cell and 72-cell. With the current half-cut module technology in use by most manufacturers, this is typically 120-cell or 144-cell today.  These represent the number of solar cells in each panel. The larger panels have a higher power rating, whereas the smaller panels produce less electricity. 

To get a solar panel with the highest power rating, you’ll probably have to opt for a high-efficiency 144-cell panel. These panels can have power ratings of upwards of 500 watts. Smaller 120-cell options will likely come in at around 350 to 400 watts.

Environmental Factors

The last factor to consider when evaluating how much power a solar panel can produce is its environment.

The power rating of your solar panel is based on its performance under standard testing conditions. Standard testing conditions are when all variables that impact production are standardized across the industry, allowing for the equal comparison of different solar panels. 

However, rarely will standard testing conditions reflect the actual environment your solar panel is exposed to. Everything from shading to your local weather patterns to the angle it’s installed can impact power production. 

One of the most important factors for the power output of your solar panel system is the amount of sunlight it receives. More hours of direct sunlight means more production. But if clouds or shade get in the way, the amount of energy your panels produce will decrease.

There are also consistent seasonal differences. In the northern hemisphere, the days are longer in the summer and shorter in the winter. That means your production will peak near the summer solstice and will be at a low when the days are the shortest in the winter. 

Other installation factors can also impact how much power a solar panel can produce. This includes the angle at which they’re tilted.

To optimize production, most panels do best when they’re oriented south and installed at an angle that roughly matches the degree latitude of that location. For example, if you live in the Mid-Atlantic area, that could range from 36 degrees for Southern Virginia to 45 degrees for Northern New York.

However, if your roof isn’t pitched to that exact degree or your south-facing roof can’t accommodate enough solar panels, you can still install a cost-effective system. These changes can be relatively modest and made up for by adding just a few extra solar panels.  

How Much Power Can a Solar Panel Produce Per Day, Month, and Year?

A 144-cell solar panel on a sunny day in June will produce more than a 120-cell panel on a cloudy day in the winter. However, that’s not the most helpful answer.

Because we’re here to help, we will share some averages for various panels. Just note that these numbers are broad estimates and won’t reflect every situation.

Panel Power Rating

Average Daily Output

Average Monthly Output

Average Yearly Output

300 watts

1 kWh

30 kWh

360 kWh

325 watts

1.08 kWh

32.5 kWh

390 kWh

350 watts

1.15 kWh

35 kWh

420 kWh

375 watts

1.23 kWh

37.5 kWh

450 kWh

400 watts

1.31 kWh

40 kWh

480 kWh

450 watts

1.5 kWh

45 kWh

540 kWh

How Many Solar Panels Do You Need?

The above chart reflects how much electricity just one solar panel can produce. But if you’re looking to install a solar energy system, you’ll have more than one panel. 

The size of your solar system will vary depending on your electric bill, the area you have available to install it in, and your specific energy goals. However, here’s an estimate that shows how many solar panels you may need to offset your electricity bill based on the solar panel’s power output.

Solar Panel Power Output

5 kW System ($50/mo electric bill)

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10 kW System ($120/mo electric bill)

20 kW System ($240/mo electric bill)

50 kW System ($600/mo electric bill)

100 kW System ($1,200/mo electric bill)

200 kW System ($2,400/mo electric bill)

300 watts

15

29

58

145

290

580

325 watts

14

27

54

134

268

536

350 watts

13

25

50

125

249

497

375 watts

12

24

47

115

232

464

400 watts

11

22

44

109

218

435

450 watts

11

22

44

111

222

444

As you can see, a system composed of panels with a lower power output can get quite large. And while they may be less expensive on a per-panel basis, you’ll have to buy significantly more. You’ll also have to have a place to install all those panels physically.

Your solar installer will find the right balance between panel amount and panel cost during your system’s design.

Using Solar to Offset Your Electricity Bill

It’s essential to know just how much electricity your solar system will produce. However, because there are so many variables to consider, this blog gives a broad overview of the type of production you can expect to see.

With a quote from an experienced solar installer, you’ll get a much more specific look. They’ll measure all the variables and consider for critical your energy and financial goals to design your optimal system. They should also provide a breakdown of the cost and cash flow so you can see exactly how beneficial a solar investment can be.

If you're located in the mid-Atlantic region of the US, have our team of solar experts design a system for you that best fits your needs. Click the 'Get A Quote' button above to get started. 

Originally posted on October 10, 2019. Updated May 2024.

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