Jones Beene
Sun, 04 May 2008 14:48:02 -0700
It is perhaps possible to provide a *stationary* Fresnel array which has "virtual" tracking. Imagine a fixed, stationary array of Fresnel lens and underlying photocells, somewhat as in this image: http://www.sinosolargroup.com/en/images/toushe33.JPG ... and, with such a panel sited on a south-facing roof, exactly the same way as a normal fixed solar-panel would be sited - except that this one is requiring 500 time less area of actual photocells than the normal array. This site lists the advantage of 500:1 concentration: http://www.emcore.com/solar_photovoltaics/terrestrial_concentrator_photovoltaic_arrays Needless to say, since Nanosolar gives only perhaps a 5-to-1 cost advantage with their printed cell, and it is a far less-efficient cell, the comparative advantages of any kind of concentrator array, in cost, would be *huge* - except- for the one issue. That issue being the need, added complexity and aesthetics (for home use) which 2-axis tracking demands. Here is how to overcome most of that added (tracking cost) and other issues, while still keep the solar array fixed and stationary. It is not a unique idea, as it has been suggested for other uses, but it may be unique when it is combined with a Fresnel concentrator, especially the kind of Fresnel which itself is already combined with an angled cone secondary. These are called "self-focusing" but that is a misnomer. They are also called "non-imaging" http://en.wikipedia.org/wiki/Non-imaging_optics This type of optics has some added loss, but it seems to provide a great deal more latitude than a normal Fresnel. It will self-focus (in the patent claims at least) within plus or minus 30 degrees of direct focus (or better). With an initial south facing placement, the use of non-imaging optics will allow you to dispense with one axis of tracking, just as with the parabolic trough; but still requires the one axis for early morning and late evening. OK - the further enhancement is to implement this type of limited self-focusing along with a "mirrored-slat louver array", which lays above the Fresnel array. The mirrored slats are long, thin polished metal, and are all operated in unison to track the sun on one axis from a single stepper motor, but there are huge advantages to being both thin and tracking on *one axis* only. Since the slats can be thin polished aluminum, but otherwise similar to louvered shades, they would only add a modest increase in thickness to the fixed array, even it they are protected with another layer of glass. They should be enclosed so that they are protected from weather and storms; and that external layer of glass also protects the plastic Fresnel layer - which can then be the thinest and cheapest variety that Michael Foster can make ;-) It should be noted that many window manufacturers now provide (for shade) steerable louvers placed between two panes of glass during manufacture without too much added cost. As mentioned: glass, Fresnels lens, and mirrors have a cost structure that is hundreds of times less (per unit of surface area) than silicon or even printed photocells; consequently, even with what may seem at first to be a more complex hybrid arrangement - the "net cost" per watt of output should be much less than anything out there - and less than the dollar-per-watt claim of Nanosolar... ...or so it would seem. Jones
