DC-AC conversion is pretty well understood, as is electrical protection, grid frequency matching inverters are available “off the shelf” for small units and are made to order in the MW range.
In NZ we have a DC link between the islands, there have been equipment failures over the years disabling the link, but grid frequency events are not an issue. The link has been in place for almost 60 years.
Also the distributed nature of generation makes cascade failure extremely unlikely. If you have an issue in one solar farm; another solar farm a few km away is extremely unlikely to have the same issue.
This is a solved problem.
DC-AC conversion is pretty well understood, as is electrical protection, grid frequency matching inverters are available “off the shelf” for small units and are made to order in the MW range.
In NZ we have a DC link between the islands, there have been equipment failures over the years disabling the link, but grid frequency events are not an issue. The link has been in place for almost 60 years.
Also the distributed nature of generation makes cascade failure extremely unlikely. If you have an issue in one solar farm; another solar farm a few km away is extremely unlikely to have the same issue.