| It seems the correlation between the article title ("Getting the Grid to Net Zero") and the subject that is actually discussed (maintaining a power grid stability in presence of inverters) is very weak. Don't get me wrong: the article is very interesting. I really learnt something: I discovered "system inertia", I was not aware of stability issues linked to inverters, and did not know about grid-forming & grid-following inverters, and the research about finding the minimal amount of grid-forming to keep a power-grid stable in case of an issue in a given power plant. All of these topics are very interesting. But making a connection between inverters and ecology through the "net zero" terms seems either off topic, misleading or irrelevant. First because this "net zero" term is heavily criticized as it means carbon are still emitted but companies are paying for carbon credits (that are not compensating at all the carbon emitted for many reasons [1]). Here building solar panels, wind turbines & batteries emits CO2, and their lifespan is relatively short (at most 10 years for batteries, ~25 years for wind turbines & solar panels, compared to hundreds of years for a dam[7]). Second because climate change is not the only concern about ecology, there are concerning questions about mineral resource extraction, like lithium[2] that is heavily used in batteries, but more generally, we are already extracting the whole Mendeleev periodic table[3]: we don't have alternative mineral resources for batteries or other technologies, the only solution is to extract, produce & consume less. Third, if your only goal is to reduce carbon dioxide equivalent (eqCO2), you should advertise nuclear power plant as the solution. Depending on studies, they produce the same amount or less eqCO2 compared to a wind turbine without batteries[4]. Of course, often eqCO2 is not the only important subject here (being renewable/sustainable is also important, and uranium is a limited resource). And finally, the fact we use renewable energy more and more did not lead to a worlwide energy transition, but an addition. Having a transition will require way more than technologies[5], something that is also not discussed here. Speaking about solutions to pack a higher percentage of Intermittent renewable energy sources (IRES)[6] in a power-grid through the help of batteries and inverters would have been more accurate in my opinion. Maybe "Why we were not able to achieve 100% renewable energy before?" if you want to be catchy, and it's not perfect, as you are still hiding that you rely on lot of batteries, that are far from being renewable. As a conclusion, I would say it would be great to be careful when engineers (here IEEE) discuss specific technologies (here power-grid inverters) to not draw conclusion too quickly (having a positive environmental impact), as it's far from being obvious. I know they want to be read, I know that the title must be catchy to attract readers, but it's not an excuse as illustrated above. [1]: https://demandclimatejustice.org/wp-content/uploads/2020/10/... [2]: https://www.cnbc.com/2023/08/29/a-worldwide-lithium-shortage... [3]: https://www.euchems.eu/euchems-periodic-table/ [4]: https://www.edfenergy.com/media-centre/news-releases/over-it... [5]: https://www.sciencedirect.com/science/article/abs/pii/S22146... [6]: https://en.wikipedia.org/wiki/Variable_renewable_energy [7]: https://www.power-technology.com/data-insights/power-plant-p... |