Liander said its new plan may result in savings ranging from ‚ā¨1.4 billion to ‚ā¨1.8 billion. Possible losses for PV power producers are estimated at a maximum of 3% of their electricity production per year. If implemented, this new measure would push PV project developers to rely on underdimensioned inverters.
August 14, 2020
Dutch power company Liander has implemented several measures in recent months to increase grid capacity in several Dutch regions afflicted by grid constraints, which are preventing more renewable energy plants from coming online. These include the deployment of two giant tranformers and the application of congestion management to a bottleneck in the grid.
This week, it also announced its intention to connect only solar parks to 75% of their peak capacity. ‚ÄúIn this way, we can connect more producers of green electricity and save up to ‚ā¨400 million euros in social costs in our service area,‚ÄĚ Liander stated. ‚ÄúBy connecting solar parks to 75% of their peak capacity, we can use the electricity grid much more efficiently.‚ÄĚ
The company added that if it had to expand the grid to host more solar, investments ranging between ‚ā¨1.4 billion and ‚ā¨1.8 billion would be needed. It further explained that these high investments would provide relatively little advantages in solving the grid congestion issues.
Liander estimates possible losses for PV power producers at a maximum of 3% of their electricity production per year.
Dutch solar analyst Peter Segaar told pv magazine that Liander‚Äôs plan, which would apply only to newly connected solar parks, is related to the widely practiced ‚Äúunderdimensioning‚ÄĚ of the inverters‚Äô AC connected power with respect to the DC generator capacity beyond the inverter units. ‚ÄúThis is logical because of cost reduction, need for less powerful inverters than necessary,‚ÄĚ he said. ‚ÄúCompletely new, however, is the grid operator‚Äôs wish to fix beforehand the ratio between AC and DC ratings of the projects planned.‚ÄĚ
It remains uncertain exactly how this plan could be implemented, he added. ‚ÄúIt would imply that it is strictly forbidden to go beyond the planned DC capacity of the generator, or investors must already know beforehand what exactly their AC capacity of the inverter battery will be,‚ÄĚ he stated. ‚ÄúAnd they usually don‚Äôt know.‚ÄĚ
Segaar explained that the plan can only be implemented if the current SDE+ program for large-scale renewables were modified. ‚ÄúThese rules, however, are already far too complex for many smaller investors, and making them more complicated would not be ideal.‚ÄĚ
In late May, the Dutch government said that grid operators were not obliged to compensate the owners of solar rooftops whose arrays are disconnected due to problems with grid capacity and voltage quality. According to Segaar, solar system disconnections are frequent only in densely populated areas when systems feature cables that were designed for consumption only. ‚ÄúMany PV systems on such lines cause voltage increases, incidentally above the set norm,‚ÄĚ Segaar said at the time.
In late January, Liander and grid operator Enexis said there was limited capacity available for renewables projects ‚Äď mainly large scale solar ‚Äď in parts of those northeastern provinces.
Liander expects to have around 6 GW of solar capacity on its grid by 2023.