According to wikipedia (and I assume the linked source), the 6 new EPR will be done under the newer version called EPR 2. Great naming schemes and all.
Those 6 new one was the news from 2020. The one we see in the article is unspecified and could be a reference to the 6 EPR 2 or something else. Same is true for the 150 Chinese plants being planned.
The biggest fault in the old EPR design process seem to be the mid-construct patch that occurred in 2012 as a result of the Fukushima accident. Other issues seems to be related to goals like "world’s highest-output nuclear plant". They decided to use rather exotic form of steel, within the upper limit of what can be created. Given the decision of making the highest-output nuclear plants, and there are only a few places in the world that can create and work the kind of steel that the design require, the budget did not work. In addition, the exotic nature of the material makes it difficult to weld correctly.
The open questions I see is if EPR 2 also require similar exotic materials, if the exotic materials has improved in availability and price, and if the experience in welding it has improved to the point where fewer mistakes are done. It is also possible that by not trying to achieve new world records in plant size and output, the budget might be more reasonable. The world largest and highest wind turbine might be a nice research goal, but building one at the limit of current material would not be my first choice if costs were a priority.
Those 6 new one was the news from 2020. The one we see in the article is unspecified and could be a reference to the 6 EPR 2 or something else. Same is true for the 150 Chinese plants being planned.
The biggest fault in the old EPR design process seem to be the mid-construct patch that occurred in 2012 as a result of the Fukushima accident. Other issues seems to be related to goals like "world’s highest-output nuclear plant". They decided to use rather exotic form of steel, within the upper limit of what can be created. Given the decision of making the highest-output nuclear plants, and there are only a few places in the world that can create and work the kind of steel that the design require, the budget did not work. In addition, the exotic nature of the material makes it difficult to weld correctly.
The open questions I see is if EPR 2 also require similar exotic materials, if the exotic materials has improved in availability and price, and if the experience in welding it has improved to the point where fewer mistakes are done. It is also possible that by not trying to achieve new world records in plant size and output, the budget might be more reasonable. The world largest and highest wind turbine might be a nice research goal, but building one at the limit of current material would not be my first choice if costs were a priority.