Towards a world wide web of electricity

It has been a while since we mentioned P2P-related energy developments.

In a recent report by IBM, the authors predict and call for a Participatory Energy Network, that is centered around the need of newly empowered energy consumers.

Michael Powers has a more radical proposal for a global web of electricity, which we reproduce here.

Michael Powers:

“By connecting regional electricity grids around the world into a global network, it will be possible to tap new renewable resources and phase out our worst polluting coal-fired power
plants,” Powers said.

Pointing out that the Earth receives “12,000 times more energy” from the sun everyday than is used by civilization worldwide, Powers said the problem confronting mankind is not “insufficient energy,” but “too much energy of the wrong kind, in the wrong place, at the wrong time” As a result, he said, the energy challenge is “not a supply problem but a distribution problem.”This, he said, is where the global network comes in.

Most cities need for electricity changes drastically throughout the day, Powers explained — from a low after midnight to an afternoon peak (which is usually 50% or higher than the low point).

Currently about 2,800 power plants in the U.S. must constantly be turned on and off to meet local energy needs. Together, they produce 40% of the U.S. carbon dioxide emissions, along with 18% of the nitrogen oxide and 60% of the sulfur dioxide.

“The alternative is for power companies to move excess power from one time zone to another because that’s often cheaper than turning generators on and off just to meet peak demand,”Powers said, pointing out that over 35% of all power sold in the U.S. is now composed of bulk power transfers.

With a larger and more robust “backbone”for energy transfers, such trading could happen at the global level “ for instance, between time zones in the U.S. and in China. Studies show China is set to pass the U.S. as the largest emitter of CO2 in the world and is building the equivalent of a new 1,000 MW power plant per week “ all coal-fired.

“Instead of running all of the world’s generators™ half the time “ which is very inefficient “ we are talking about running half the world’s generators all the time” much more efficient,â”Powers said.

It is a common misconception that long-distance energy transfers are impractical, Powers said, explaining that in the 1930’s there was a transmission limit of 350 miles. “hat limit grew to 1,500 miles in the 1960’s and is now well over 4,000 miles using Ultra-High Voltage and High-Voltage Direct Current (HVDC) technology,” he said.

In fact, southern California gets a hefty portion of its electricity from 1,000 miles away ” via a single HVDC line connecting it to hydro power from Oregon, enough to run 2-3 million homes. “Distance is not a barrier,” he asserted.

A far larger barrier is the state of the electric utility industry. “The industry is mainly regional in scope, highly-regulated throughout its history and with no incentive to invest in new transmission lines or long-distance infrastructure,” Powers said.

Despite this fact, well over half of the transmission systems for a global energy network are already in place, Powers said, and new international grid connections throughout the world are gaining in momentum.

“2006 was a banner year for global interconnections,”Powers noted, reeling off a list of new trading partners for electricity such as Russian and China, China and Vietnam, Kenya and Ethiopia, and a new Mediterranean power pool which will reportedly link the countries of Egypt, Jordan, Syria, Turkey, Libya and Iraq.

“Even countries lacking diplomatic connections can still see the advantage of electrical connections,” Powers explained. “Or, at least, their power engineers clearly do.”

A key connection still to be built is the “East-West Energy Bridge” which would connect Alaska to Siberia via two 20-mile links across the Bering Straits. “This is the crucial gateway to the 11 time zones of the former Soviet Union and also the new powerhouse of China.”

Closer to home, the California Solar Initiative (CSI) plans to bring thousands of new solar energy systems online during the next 10 years and each of these systems represents a “new node on the global network,” Powers said. “We are creating a new market segment of “˜pro-sumers™ “ energy producers during the daytime and consumers at night,” he said, He argues that this will launch a whole new industry of to supply equipment and software for managing this energy and tracking renewable energy transactions.

“Imagine an energy version of ˜Napster,” Powers said. “We’re talking about peer-to-peer energy trading… where a solar homeowner in San Jose can capture kilowatts from the sun “ and sell them to a homeowner in Shanghai “ instantaneously. That’s the future.”

Powers said the concept of a global energy network was first proposed by Dr. R. Buckminster Fuller “ the inventor of the geodesic dome, among other things “ at a series of simulation workshops called “World Games” conducted in the 1970s.

“As Fuller and his students pointed out during the World Games, electricity is the basis of our modern standard of living but even today, almost 2 billion people do not have access to any electricity,” Powers explained. “As a result, 18,000 children die from preventable starvation daily“ that’s about equal to the enrollment of Stanford University, every single day,” he said.

“The vision offered by a global energy network is a reduction in poverty and hunger, a way to stabilize population growth, to turn back the clock on global warming and to phase out fossil fuels” while increasing trade, cooperation and peace between nations” he concluded.

Also of interest: this description of a solar-electric future.

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