Michael Lorrey writes:
> Solar power generating stations suffer from one serious fault: peak
> demand incompatibility. being able to store power from this intermittent
> source for supply to the grid at periods of peak demand (when the power
> is also worth the most) is of utmost importance.
Peak demand is during daytime, where -- nice coincidence -- photovoltaics performs best. Local spikes can be averaged out if power is dumped into the grid. So basically all you need is to provide a basal PV/electrolyzers/hydride or (buckytube) pressure storage/fuel cells capability to make it through the worst-case nighttime. Seasonal variations should be taken care by fossil/nuke power plants (fine-grain decentralized, to limit thermal lossage for power/thermal coupling) for now, but PV and photosynthetics (both biorenewables and future engineered/de novo processes) is really the only viable long-term option.
> As for the amount of power it generates, the area of Arizona should see
> a solar flux level equivalent to over 250 terawatts. Given that the only
> solar technology currently available which has any kind of near-market
Maybe thin-film amorphous Si would be not the only technology available if the field has been properly funded for a decade or so (but, oh, no market demand, since energy is very cheap, particularly in the US. After 4 weeks of near-L.A. smog, one cannot fail to notice that people will adapt to any conditions for absolutely irrational reasons). Novel materials like CuInSe and polymer ('last all summer long') are in theory perfectly possible and economical once we need them. Of course people would have to pay a lot for chemical feedstock once easily accessible fossils are depleted, being restricted to fixed atmospheric carbons and hydrocarbon imports from space, unless the Singularity intervenes.
> cost effectiveness is thin film amorphous, which has a conversion
> efficiency of around 10%, we are talking about 25 terawatts of generated
> power. Accounting for DC to AC inveting and distribution losses, we are
> talking about 20 terawatts of power. This is a significant amount, but
> not a significant percentage of the world power demand.
DC/AC inverting is not a problem, you can synthesize such power directly by dynamically combining individual cells (controllers demostrated), distribution lossage nonexistant if produced in situ, which also takes care of centralism/landscape optical pollution.
I suggest you revise your assumptions, as they are unnecessary pessimistic.
ciao,
'gene