It seems still a big challenge to modify the grid in order to be ready for the future. But I am glad that people are working and developing in order to make the energy shift possible.
How much Liquid Nitrogen is required to keep 1km of HTS below the critical temperature for 1 hr? In other words, what is the cost of cooling, and do they factor this into the losses?
It seems still a big challenge to modify the grid in order to be ready for the future. But I am glad that people are working and developing in order to make the energy shift possible.
How much Liquid Nitrogen is required to keep 1km of HTS below the critical temperature for 1 hr? In other words, what is the cost of cooling, and do they factor this into the losses?
And what if it boils in those pipes during a fault current