Advanced Invention

A new energy concept called a solar tower could generate enough electricity for 200,000 homes. Looking like a giant smokestack, it would release no noxious fumes — just sun-heated air.

Demonstrated more than 20 years ago, the basic design calls for solar collectors to warm the air near Earth’s surface and then channel it up the tall central tower. Turbines placed at the bottom make electricity from the updraft.

“It’s a combination chimney, windmill, greenhouse,” said Kim Forté of EnviroMission Limited in South Melbourne, Australia.

EnviroMission has designed a kilometer-high solar tower (0.62 miles) and is now looking at possible sites in the southwestern United States.

Solar-stack
The solar tower is an updated version of a solar chimney — a centuries-old technique for providing ventilation to a home by creating a natural updraft from sun-heated air.

A massive neutrino observatory deep underground near Sudbury, Ontario, Canada

Some have been heralded as the largest undertakings since the building of the pyramids.

Others have been likened to a new set of wonders of the world.

From a science perspective at least, here are our picks for the largest projects on Earth: running, under construction, and on the drawing-board…

1. Large Hadron collider at CERN

Billed as the world’s largest science project, the LHC was unveiled to unearth the so-called “God particle”. Early blogs and articles surmised that the device wielded so much energy that it might create a black hole (though scientifically inaccurate, it hinted at the awesome energy waiting to be unleashed.)

Here’s how it works: Two beams of subatomic particles called ‘hadrons’ (protons or lead ions) travel in opposite directions inside the circular accelerator, picking up more and more energy with every lap. Physicists from around the world will then use the LHC to recreate the conditions found just after the Big Bang by smashing the two beams head-on at very high energy and they analysing the collisions. (more…)
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2. Next-stop, cold fusion?: The International Thermonuclear Experimental Reactor (ITER)

This first-ever demo-level fusion reactor will be built in southern France and promises to deliver the world’s first sustained fusion reactions; In layman’s terms: more bang for your buck. And at a projected cost of CDN $14.4 billion, it better.

When the eight-year construction project is complete (scheduled for late 2015), ITER will generate 500 MW of fusion power for extended periods of time.

For those not in the physics know-how, fusion is exceptionally difficult to achieve - and is the subjects of many controversial experiments. That fusion reproduces our sun’s energy, without the greenhouse gas emissions and radioactive waste of other methods.

3. The finished International Space Station, circa 2011

When completed in 2010 (though that will likely slip to 2011) the International Space Station will be the largest multinational engineering project of all time.

With an estimated final pricetag of a tenth of a trillion dollars, the finished structure - with its outstretched solar arrays - will be the size of a football field. A far cry from the Mir space station, which had interior space comparable to the space shuttle.

Though pundits have cast doubts in recent years over the ISS’s ability to perform useful science experiments, the addition of the outpost’s second major lab (the Japanese Kibo module, along with the U.S. Destiny lab) will allow a crew of 3-6 people to conduct experiments only possible from orbit that will benefit life on Earth, as well as serving as a jumping-off point for missions to the Moon and, eventually, Mars.

4. A 3,000-foot-tall “Solar tower” in the Australian outback

Dubbed the “Solar Mission Project”, this scientific feat takes solar energy to new heights.

Solar tower technology employs the sun’s radiation to heat a large body of air, which is then forced by laws of physics (hot air rises) to move in the form of a hot wind through large turbines to generate electricity.

When complete in the far western New South Wales region of the Australian outback, it will stand a full-kilometre (3,280 feet).

When fully-functioning, will generate up to 200 MW of clean emission-free electricity - enough to power about 200,000 homes.