[SunkenCiv]

We could obviate the need for these pie in the sky ideas if the power grid were more efficient. That would also enable us to sell power to tranoceanic markets using high temperature superconducting trunklines on the ocean floor. That would also work our way, so that Europe could sell their off-peak capacity to east coast markets during peak usage there, just as (earlier in the day) the US sold off-peak capacity to Europe's peak usage time. Currently (heh) the superconducting trunkline projects in the US have been confined to urban areas (such as Detroit, if you can believe it) because of the need for refrigeration.

high temperature superconductor:

Google

See also hyperconductor and MetGlas.com.

[SunkenCiv]

Down in Motown
by Peter Fairley
July/August 2001

A gritty section of Detroit surrounds one of the city's oldest electric power stations. But the technology that Detroit Edison is installing at the Frisbie substation is pure 21st century—underground superconducting cables that can transmit immense currents of electricity with near perfect efficiency.

While increasing energy demands are putting more and more stress on the nation's long-distance power transmission network, cities are suffering their own version of electric gridlock; in many locations, underground transmission lines are fast reaching capacity and are literally burning up. Superconducting cables, like the ones being installed in Detroit, could safely triple the power moving through existing conduits, avoiding the need to dig up the streets—even making room for fiber-optic communications lines.

The Frisbie demonstration marks a milestone in electricity know-how—one of the first commercial applications of high-temperature superconductors. These ceramics, first fashioned by IBM researchers in 1986, now transmit alternating currents with nearly zero resistance at temperatures as high as -139 °C (the materials can be cheaply cooled to that temperature using liquid nitrogen). In contrast, conventional copper cables dissipate as much as 10 percent of the power they carry because of resistance; that lost power escapes as heat, which limits just how much juice can flow before the cable melts.

A Smarter Power Grid
by Peter Fairley
July 2001

"European engineering giant Siemens has just installed the world's most sophisticated high-power switch. If things get really hot this summer, the ability of the specialized chips inside the device to route electricity exactly where it's needed just might save New York City's cool."

Power to the People
by Peter Fairley
May 2001

"Systems like these 'microturbines,' along with fuel cells that extract electrical power from fuel without burning it, are changing the rules in the power game. No longer must you rely on a monopolistic utility that can take you -- and your power needs -- for granted."