Why aren't magnifying glasses used in conjunction with solar panels?

[her209]

Now, granted the solar panel would need to follow the sun as it moves across the sky, it would concentrate a large area of the sun light onto a small array of solar panels. Am I missing something?

 

[FleshLight]

robably because the cost/benefit ratio is minimal.

edit: And they just increase the W/m^2. But the net w/m^2 is still the same.

 

[Epic Fail]

Then you are back to using the same surface area.

 

[darkswordsman17]

They do something similar using mirrors where they focus the reflection on certain points. It might not actually be with solar panels, I think it was with a natural steam generator.

 

[her209]

Originally posted by: FleshLight
edit: And they just increase the W/m^2. But the net w/m^2 is still the same.

Ummm, what?

 

[Kaervak]

Originally posted by: darkswordsman17
They do something similar using mirrors where they focus the reflection on certain points. It might not actually be with solar panels, I think it was with a natural steam generator.

Yep, it's with solar panels. There's a show called Invention Nation on the Science Channel where they were showing a solar reflector/collector setup. It was computer controlled to track the position of the sun to get maximum exposure. Worked quite well.

 

[Goosemaster]

Originally posted by: her209

Originally posted by: FleshLight
edit: And they just increase the W/m^2. But the net w/m^2 is still the same.

Ummm, what?

more lenses = greater W/m^2 on the surface projected upon.

more lenses also equals more surface area.

 

[Tiamat]

they do something like that already, this is how the solar panels see multiple 'suns'.

Unrelated, but this is a cool pic: Text

 

[her209]

Originally posted by: Goosemaster
more lenses also equals more surface area.

Eh?

 

[IronWing]

Look up solar concentrators. Frensnel lenses are being used.

Here's one:
http://www.ida.net/users/tetonsl/solar/solarhom.htm

IIRC, the cell is different than the ones on normal systems, able to make use of the intense light.

Another one:
http://www.treehugger.com/file...08/rising_star_eff.php

 

[Eli]

What exactly would be the point?

It's probably more beneficial and cheaper to just use the surface area for more panels, rather than smaller panels and a bigger lens.....

 

[Tiamat]

Originally posted by: Eli
What exactly would be the point?

It's probably more beneficial and cheaper to just use the surface area for more panels, rather than smaller panels and a bigger lens.....

The current materials in solar panels are rare and very expensive. This is why they are not implemented all over the place, and have low efficiency. Recent research into integrating cadmium quantum dots looks pretty promising though.

 

[IronWing]

Mirrors are cheaper per area than solar cells.

 

[Eli]

Originally posted by: ironwing
Look up solar concentrators. Frensnel lenses are being used.

Here's one:
http://www.ida.net/users/tetonsl/solar/solarhom.htm

IIRC, the cell is different than the ones on normal systems, able to make use of the intense light.

Another one:
http://www.treehugger.com/file...08/rising_star_eff.php

What?

Solar concentrators are used to heat water..

However, you could use one to run a steam turbine generator....

Edit: That second one you linked to is pretty cool, using the heat to run a sterling engine/generator setup... I've seen that page before somewhere.

 

[Goosemaster]

Originally posted by: her209

Originally posted by: Goosemaster
more lenses also equals more surface area.

Eh?

I meant with respect to cost...

 

[Goosemaster]

Originally posted by: ironwing
Mirrors are cheaper per area than solar cells.

I did not know that🙂

 

[IronWing]

Originally posted by: Eli

Originally posted by: ironwing
Look up solar concentrators. Frensnel lenses are being used.

Here's one:
http://www.ida.net/users/tetonsl/solar/solarhom.htm

IIRC, the cell is different than the ones on normal systems, able to make use of the intense light.

Another one:
http://www.treehugger.com/file...08/rising_star_eff.php

What?

Solar concentrators are used to heat water..

However, you could use one to run a steam turbine generator....

Edit: That second one you linked to is pretty cool, using the heat to run a sterling engine/generator setup... I've seen that page before somewhere.

Further down was what I was aiming at. Sorry about the first link, my bad.
http://www.solfocus.com/product.php?pid=4

 

[Eli]

There are probably diminishing returns. A doubling of light intensity isn't going to double output, I don't think.

Then you have to worry about heat.. panels already get hot enough.

 

[SagaLore]

Originally posted by: Eli
What exactly would be the point?

It's probably more beneficial and cheaper to just use the surface area for more panels, rather than smaller panels and a bigger lens.....

Much cheaper to produce reflector arrays or lenses, than ultra-efficient solar cells.

 

[0roo0roo]

lenses also take space. space is a problem for solar since each panel doesn't make much.

 

[Eli]

Originally posted by: ironwing

Originally posted by: Eli

Originally posted by: ironwing
Look up solar concentrators. Frensnel lenses are being used.

Here's one:
http://www.ida.net/users/tetonsl/solar/solarhom.htm

IIRC, the cell is different than the ones on normal systems, able to make use of the intense light.

Another one:
http://www.treehugger.com/file...08/rising_star_eff.php

What?

Solar concentrators are used to heat water..

However, you could use one to run a steam turbine generator....

Edit: That second one you linked to is pretty cool, using the heat to run a sterling engine/generator setup... I've seen that page before somewhere.

Further down was what I was aiming at. Sorry about the first link, my bad.
http://www.solfocus.com/product.php?pid=4

Hmm.. Very interesting. That's pretty cool.

 

[Mark R]

They are used.

However, there are additional complexities - the lenses/reflectors are expensive and more difficult to maintain than flat panels. Additionally, they need precise alignment, and PVs exposed to concentrated light need some form of cooling - usually water cooling - to prevent damage.

This approach is used with very high efficiency PV cells - which are exceedingly expensive. However, these super efficiency cells can be operated at 500 suns intensity, so a 1 sq inch cell is almost as powerful as a sq yard flat panel, but is much cheaper - allowing the money to be spent on the optics - and because these multi-layer cells are 3x as efficient as conventional cells, the total collection area can be 1/3 the size.

There is one big disadvantage though: flat panels, by virtue of their area pick up a lot of scatter and diffuse light - e.g. blue light scattered in the sky, or light diffused by clouds - this may be as much as 30% of total output. Diffuse light cannot be focused, and concentrator cells get no significant output from scatter. So while, flat panels may offer 20-30% output even in overcast conditions, a concentrator will offer no useful output.

 

[SagaLore]

I'm still waiting for us to invent organic cells. Think spirulina could survive in a nutrient gel constantly flowing current produced by their own reaction to sunlight? (spirulina + viral injection of electric eel genes)

 

[darkswordsman17]

Originally posted by: Kaervak

Originally posted by: darkswordsman17
They do something similar using mirrors where they focus the reflection on certain points. It might not actually be with solar panels, I think it was with a natural steam generator.

Yep, it's with solar panels. There's a show called Invention Nation on the Science Channel where they were showing a solar reflector/collector setup. It was computer controlled to track the position of the sun to get maximum exposure. Worked quite well.

Yeah that would allow them to get optimal sun exposure to overcome the changing position of the sun.

I do remember the other thing with the steam. They had a tower that was filled with water, and then they had it surrounded by mirrors which heated it up and turned the water to steam which turned some generators or something as it rose. The temperature they get was pretty astounding.

 

[Eli]

Originally posted by: Mark R
They are used.

However, there are additional complexities - the lenses/reflectors are expensive and more difficult to maintain than flat panels. Additionally, they need precise alignment, and PVs exposed to concentrated light need some form of cooling - usually water cooling - to prevent damage.

This approach is used with very high efficiency PV cells - which are exceedingly expensive. However, these super efficiency cells can be operated at 500 suns intensity, so a 1 sq inch cell is almost as powerful as a sq yard flat panel, but is much cheaper - allowing the money to be spent on the optics.

There is one big disadvantage though: flat panels, by virtue of their area pick up a lot of scatter and diffuse light - e.g. blue light scattered in the sky, or light diffused by clouds - this may be as much as 30% of total output. Diffuse light cannot be focused, and concentrator cells get no significant output from scatter. So while, flat panels may offer 20-30% output even in overcast conditions, a concentrator will offer no useful output.

Very interesting.

:thumbsup: