> (a solar panel in my sunless basement has the same nameplate capacity as the same panel installed in the Sahara desert).
Isn't latitude taken into account by grid operators for determining their expected peak output? The owners would otherwise be installing bigger (more expensive) converters than needed, so they'd know this value at least roughly. Even smarter would be to include the angle etc. but not sure what detail it goes into compared to latitude which is a very well-known and exceedingly easy to look up value for an area
I certainly see your point about it not being apples to apples, but on a cloudless summer day, the output afaik genuinely would be the stated figure (less degradation and capacity issues). The country is small enough that it's also not unlikely that we all have a cloudless day at the same time
One might well expect some sun in summer and put some of the used-in-winter gas works into maintenance or, in the future, count on summer production of hydrogen— although hacks are likely a transient issue so I wouldn't foresee significant problems there
Isn't latitude taken into account by grid operators for determining their expected peak output? The owners would otherwise be installing bigger (more expensive) converters than needed, so they'd know this value at least roughly. Even smarter would be to include the angle etc. but not sure what detail it goes into compared to latitude which is a very well-known and exceedingly easy to look up value for an area
I certainly see your point about it not being apples to apples, but on a cloudless summer day, the output afaik genuinely would be the stated figure (less degradation and capacity issues). The country is small enough that it's also not unlikely that we all have a cloudless day at the same time
One might well expect some sun in summer and put some of the used-in-winter gas works into maintenance or, in the future, count on summer production of hydrogen— although hacks are likely a transient issue so I wouldn't foresee significant problems there