Know the technology of bi-facial solar panels

Most solar panels collect sunlight from the front side that faces the sun.
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The bi-facial solar panels are based on innovative technology that makes them produce current from both sides.

The front face collects the direct sunlight and, the back face captures the reflected sunlight from the ground.

In this way, the bi-facial solar panels generate up to 30% more power than a comparable mono-facial solar panel.

The bi-facial solar panel technology is in existence for decades but was not available commercially due to its expensive production cost.
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The drop in the manufacturing cost with time has made this technology available for people.  

A few top bi-facial solar panels manufacturers

There are many manufactures who make bi-facial solar panels.

I am listing a few:

1) Canadian Solar: BiKu (Bifacial Dual cell PERC Module)

Some of its features:

• Power range: 290 watts ̴ 400 watts.
• Up to 30% more energy from the rear side.
• Low NMOT of 41 °C +- 3 °C
• LID and LeTID losses are less than 2%.
• Better shading tolerance.
• Lower hot spot temperature.
• Canadian Solar offers 30 years performance warranty on its bifacial solar panels.
• The BiKu models have 2mm heat-strengthened glass on both sides of the module, making them more durable.

2) LG: NeON 2 Bifacial 
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• Power range: 340 ̴ 405 watts
• These panels perform well even when it snows
• LG uses N-type cells that have very less effect of light-induced degradation on its performance.

3) Waaree: AHNAY Series (Mono PERC)
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• Power Range: 380 watts ̴ 400 watts
• Both sides are glass with anti-reflective coating to improve light transmission
• These panels are salt, mist, ammonia, and hail resistant
• PID resistant

The technology of Bi-facial solar panels

The bifacial solar modules can be manufactured using monocrystalline silicon cells and polycrystalline silicon cells.

We know that monocrystalline solar cells are made from silicon wafers that have less resistance than polycrystalline solar cells and we get more current.

Another hand, the polycrystalline silicon cells are manufactured using the fragments of the silicon cell. They are less efficient but they are cheaper too.

Manufacturers are combining the latest technologies to improve the efficiency of the solar cells like pasting a reflective layer at the back of the monocrystalline cells known as PERC technology.
​This layer reflects that part of sunlight that passed undeviated from the solar cell, making it available again for solar photo-voltaic effect.

And

​You get more current.

For constructing the bifacial solar modules, the manufacturers encapsulate both sides of the solar cell in a glass, enabling the front and the back sides to capture the sunlight.

The other way is to use glass in the front and transparent polymer for the backside of the solar module.

Using glass on both sides makes the solar panel more durable for rain, wind, and other environmental hazards.

In a way, the dual glass coating makes the bifacial solar cells resistant to Potential Induced Degradation.

The power rating of bi-facial solar panels

Like all other mono-facial solar panels, the bifacial solar panels have power ratings such as 250 watts, 300 watts, or 400 watts.
This value represents the power of the front side under standard test conditions.

The Standard Test Conditions are:

• Solar Irradiance: 1000 W/m²
• Air Mass: 1.5
• Cell Temperature: 25 °C

 As the rear side of the bifacial solar panels also conducts, they are assigned a second power rating known as bifacial gain.

It is the ratio that compares the power produced by the rear side to the front side, measured under standard test conditions.

• Bifacial Gain = Pmax (rear)/Pmax (front) x 100%

This is a part datasheet of the BiHiKu model by one of the reputed Solar manufacturers Canadian solar.

Factors affecting the bi-facial gain

Please check in the above datasheet that the Bifacial gain can be between 5% to 30%.

This gain depends on various factors like:

• Mounting structure
• Height of the solar panels from the ground
• The Tilt of the panels
• The Albedo of the ground

a) Mounting Structure

The traditional fixed racking structures are designed to support mono-facial solar panels.

These mounting structures usually cover the back of the solar panels.

For bi-facial solar panels, specially designed mounting structures are made that eliminate or minimize the elements used that can shade the rear of the bi-facial solar panels.

Also, in bi-facial solar panels, the junction box is fitted at its periphery on the contrary it is fitted at the back of the traditional mono-facial solar panel in

In this way, the shading effect is minimised.

The use of Single-axis trackers (up and down movement of the panels) and dual-axis trackers (left-right and up-down movement) can increase the power output form the bifacial solar panels but they are costly.

A proper cost-benefit analysis is to be done before deciding the use of trackers.

b) Height of the solar panels from the ground

The closer the bifacial panels are installed to the roof; the less reflective light will strike their rear side.

To get the maximum reflected light on the rear of the module, install them at the optimum height.

This optimum height also depends on the tilt angle of the bifacial solar panels.

c) The Tilt Angle

​If the tilt angle is more, the rear of the panels is farther from the
ground and it can easily capture the reflected light even if installed at less height from the ground.

On the contrary, the small tilt angle brings the rear of the panels close to the ground, making difficult for the reflected light to strike the back of the module. Hence less current is produced.
 
Therefore, to capture the reflected light the panels should be installed a higher point than was case with big tilt angles.

You cannot play with tilt angles, these are calculated based on the location.

If you are living near the equator, install them at a lower tilt angle to capture the maximum sunlight.

d) The Albedo Effect

We know that light surfaces reflect more heat than dark surfaces.

This is called the Albedo effect.

The light surfaces show more Albedo effect than the darker ones.

The light-colored roofing will reflect more light to the rear of the panel.

Albedo of some roofing materials:

1. White Paint: 0.5 – 0.9
2. Brick and Stone: 0.2 – 0.4
3. Red or Brown tile: 0.1 – 0.13
4. Concrete: 0.1 – 0.35
5. Corrugated Roof: 0.1 – 0.16
6. Tar and Gravel: 0.08 – 0.20

• Reflected Sunlight = Albedo x Incoming Solar Radiations

If you already have light-colored roofing, the Albedo gain would be more and the rear side of the panel will produce more current.

And

If it is not, the question is does it financially feasible to spend money on light-colored roofing and the increased Albedo effect would payback profitably?

Kindly discuss this with your solar installer.

The system designing

Due to the bifacial gain, the current produced by the bifacial solar panels is more than their traditional counterparts.

Kindly see that with the increase in the bifacial gain, the Imp (Maximum Operating Current) and Isc  (Short Circuit Current) are also increasing.

Kindly do the sizing considering the bi-facial gain.

The sizing without considering the increase in current output due to the bifacial gain may damage the wires and the other components connected to the panel.

In this case, taking Isc = 14.48 A instead of 11.14 Amp is the right way for sizing the wires and other solar components.

Pros of bi-facial solar panels

• The bifacial solar PV system has several advantages over its conventional counterparts.
• You need fewer modules to produce the same amount of power as traditional modules.
• They occupy less area and hence can produce power in the limited space.
• The fewer modules lead to less cost of installation.
• The temperature-related power losses are less. Because the cells are operating at a lower temperature than the traditional solar panels.
• They are more tolerant to water permeability, and hence PID losses are minimised.

Cons of bi-facial solar panels

• They are costly
• The output of the rear of bifacial solar panels depends on the light reflected by the roof surface.
• You need a special mounting system to boost the bifacial gain They should be installed at a proper height

Cost benefit analysis

The bi-facial solar panels give you a power boost up to 30% more than their traditional solar panels of comparative power rating.

It comes at a cost

You need to have a specially designed mounting structure if you are going for a fixed one.

The single-axis and the dual-axis tracker installed further helps in capturing power from both sides, installing the solar trackers is costly and their automatic machinery needs care and maintenance often.

The point is simple if the percentage increase in the power from the bifacial solar panels is more than the percentage increase in the cost; go ahead with them, you will get more return than the mono-facial solar panel.

If not;

Be satisfied with mono-facial solar panels 🙂

It is better first to get the system design and know its payback before going for solar power installation.

• Solar Feasibility Spreadsheet: An Amazing tool to Solar Design and finding the Payback

Conclusion

• Bifacial solar panels produce current from both sides.
• They produce up to 30% more power than traditional solar panels.
• They need to be installed at a certain height normally 1.5 feet to 3 feet above the roof to capture the reflected light from the roof.
• The light-colored roofing is preferred to get the maximum benefit of the high Albedo effect.
• They need special mounting structures that do not have elements that shade the backside of the bifacial solar panels.
• Their cells operate at a lower temperature than the traditional solar panels.
• They are durable and costly.
• They require less space.

Have you installed bifacial solar panels?

Yes,

Do share your experience in the comment section.