More than 60% of the energy generated for the US's power infrastructure is lost between the generator and the user.
SIXTY percent.
But that might be changing, due to one company's efforts to reduce loss by tuning the wavelength of the energy being transmitted, to make it more efficient, at different locations in the transmission network.
THIS is very cool. (And also somewhat speculative... but a very cool approach to addressing our weak and inefficient energy generation, transmission, and storage infrastructure.)
The article never really backs this up. The article talks only about consumption and not additional losses in generation, transmission, or distribution.3DFS contends that the waste DOE clusters under the nebulous term “conversion losses” is in fact spread out across the grid, in generation, transmission, distribution, and consumption.
Thanks for commenting. I was hoping you'd weigh in! My understanding is that ANY transmission line is susceptible to the chaotic data they were showing in their graphs. And, by extension, installing a device to "tune" the stream to be less chaotic, showed the increase in efficiency and drop in overall power draw. The extrapolation I took away from his data center power-tuning example, was that this same method could work anywhere in the system - generation, transmission, distribution - to increase efficiencies at all points, thereby decreasing the overall load on the system.
I took away that while they could correct at the transmission or distribution level, the losses and increased efficiency still occur at the load level. There could be science here that's beyond me, so I might be missing where the efficiency gain in the transmission and distribution is. There just aren't many active components to see many losses from bad power quality. Most power quality issues, and from what I can tell that includes the ones the article discusses, don't travel far on the wires. The transmission and distribution has a lot of series inductance and shunt capacitance. The distortion is higher frequencies, and inductive impedance goes up with frequency while the shunt capacitance goes down as frequency increases. This acts to both block and bleed off the distortion. They probably have a point on the load, though, and I don't mean to be completely skeptical.
I'd say it sounds like a power quality active filter on steroids.