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Far-out Ideas for Saving the World

March 19, 2007

March madness generally applies to the NCAA basketball tournament, but last week Associated Press writer Seth Borenstein made me wonder if the madness isn’t spreading. Borenstein wrote an article, picked up by a lot of papers, that described several of the more far-out ideas being proposed to cope with global warming [“Using Smoke, Mirrors, and Faux Trees to Tackle Global Warming,” 15 March 2007].

“Crazy-sounding ideas for saving the planet are getting a serious look from top scientists, a sign of their fears about global warming and the desire for an insurance policy in case things get worse. How crazy? There’s the man-made ‘volcano’ that shoots gigatons of sulfur high into the air. The space ‘sun shade’ made of trillions of little reflectors between Earth and sun, slightly lowering the planet’s temperature. The forest of ugly artificial ‘trees’ that suck carbon dioxide out of the air. And the ‘Geritol solution’ in which iron dust is dumped into the ocean.”

Besides being “crazy,” these ideas are also very expensive to implement, especially since no one is sure they will actually work or what unintended consequences could arise if they were implemented. Borenstein reports that critics are worried that if such ideas are taken seriously people will see them as the silver bullet solution and put off reducing harmful carbon emissions. Borenstein describes four ideas that are being taken more seriously than others. The first Borenstein calls the Geritol solution:

“A private company is already carrying out this plan. Some scientists call it promising while others worry about the ecological fallout. Planktos Inc. of Foster City, Calif., last week launched its ship, the Weatherbird II, on a trip to the Pacific Ocean to dump 50 tons of iron dust. The iron should grow plankton, part of an algae bloom that will drink up carbon dioxide from the atmosphere. The idea of seeding the ocean with iron to beef up a natural plankton and algae system has been tried on a small scale several times since 1990. It has both succeeded and failed. Planktos chief executive officer Russ George said his ship will try it on a larger scale, dumping a slurry of water and red iron dust from a hose into the sea. ‘It makes a 25-foot swath of bright red for a very short period of time,’ George said. The concept gained some credibility when it was mentioned in the 2001 report by the authoritative Intergovernmental Panel on Climate Change, which cited it as a possible way to attack carbon emissions. Small experiments ‘showed unequivocally that there was a biological response to the addition of the iron,’ the climate report said. Plankton used the iron to photosynthesize, extract greenhouse gases from the air, and grow rapidly. It forms a thick green soup of all sorts of carbon dioxide-sucking algae, which sea life feast on, and the carbon drops into the ocean. However, the international climate report also cautioned about ‘the ecological consequences of large-scale fertilization of the ocean.’ Tim Barnett, a marine physicist at the Scripps Institution of Oceanography, said large-scale ocean seeding could change the crucial temperature difference between the sea surface and deeper waters and have a dramatic effect on marine life. [Ralph] Cicerone, a climate scientist who is president of the National Academy of Sciences and advocate for more geoengineering research, called the Geritol solution promising. However, he noted that such actions by a company, or country, can have worldwide effects. George, Planktos’ CEO, said his company consulted with governments around the world and is only following previous scientific research. He said his firm will be dropping the iron in open international seas so he needs no permits. Most important, he said, is that it’s such a small amount of iron compared to the ocean volume that it poses no threat. He said it’s unfair to lump his plan in with geoengineering, saying his company is just trying to restore the ocean to ‘a more ecologically normal and balanced state.’ ‘We’re a green solution,’ George said. Planktos officials say that for every ton of iron used, 100,000 tons of carbon will be pulled into the ocean. Eventually, if this first large-scale test works, George hopes to remove 3 billion tons of carbon from the Earth’s atmosphere, half of what’s needed. Some scientists say that’s overstated. Planktos’ efforts are financed by companies and individuals who buy carbon credits to offset their use of fossil fuels.”

Borenstein points out that billionaire Richard Branson has offered a $25 million prize to the first feasible technology to reduce carbon dioxide levels in the air. That should stimulate more interest in this subject. Borenstein describes another carbon reducing idea that hopes to be in the running. He calls them Artificial trees:

“Scientifically, it’s known as ‘air capture.’ But the instruments being used have been dubbed “artificial trees” – even though these devices are about as treelike as a radiator on a stick. They are designed to mimic the role of trees in using carbon dioxide, but early renderings show them looking more like the creation of a tinkering engineer with lots of steel. Nearly a decade ago, Columbia University professor Klaus Lackner, hit on an idea for his then-middle school daughter’s science fair project: Create air filters that grab carbon dioxide from the air using chemical absorbers and then compress the carbon dioxide into a liquid or compressed gas that can be shipped elsewhere. When his daughter was able to do it on a tiny scale, Lackner decided to look at doing it globally. Newly inspired by the $25 million prize offered by Richard Branson, Lackner has fine-tuned the idea. He wants to develop a large filter that would absorb carbon dioxide from the air. Another chemical reaction would take the carbon from the absorbent material, and then a third process would change that greenhouse gas into a form that could be disposed of. It would take wind and a lot of energy to power the air capture devices. They would stand tall like cell phone towers on steroids, reaching about 200 feet high with various-sized square filters at the top. Lackner envisions perhaps placing 100,000 of them near wind energy turbines. Even if each filter was only the size of a television, it could remove about 25 tons of carbon dioxide a year, which is about how much one American produces annually, Lackner said. The captured carbon dioxide would be changed into a liquid or gas that can be piped away from the air capture devices. Disposal might be the biggest cost, Lackner said. Disposal of carbon dioxide, including that from fossil fuel plant emissions, is a major issue of scientific and technological research called sequestration. The idea is to bury it underground, often in old oil wells or deep below the sea floor. The Bush Administration, which doesn’t like many geoengineering ideas is spending hundreds of millions of dollars on carbon sequestration, but mostly for power plant emissions.

There’s a big difference between 100,000 artificial trees (which some designer could undoubtedly make aesthetically pleasing) and the 300+ million needed to make the U.S. carbon neutral. Still, as an alternative to buying carbon credits, capturing and sequestering carbon emissions does have some appeal. The next two ideas discussed by Borenstein deal with counteracting global warming by cooling the earth. The first he calls the Man-made volcano:

“When Mount Pinatubo erupted 16 years ago in the Philippines it cooled the Earth for about a year because the sulfate particles in the upper atmosphere reflected some sunlight. Several leading scientists, from Nobel Laureate Paul Crutzen to the late nuclear cold warrior Edward Teller, have proposed doing the same artificially to offset global warming. Using jet engines, cannons or balloons to get sulfates in the air, humans could reduce the solar heat, and only increase current sulfur pollution by a small percentage, said Tom Wigley of the National Center for Atmospheric Research. ‘It’s an issue of the lesser of two evils,’ he said. Scientists at the Center for Atmospheric Research put the idea into a computer climate model. The results aren’t particularly cheap or promising, said NCAR scientist Caspar Ammann. It would take tens of thousands of tons of sulfate to be injected into the air each month, he said. ‘From a practical point of view, it’s completely ridiculous,’ Amman said. ‘Instead of investing so much into this, it would be much easier to cut down on the initial problem.’ Both this technique and the [next idea to be described the] solar umbrella while reducing heating, wouldn’t reduce carbon dioxide. So they wouldn’t counter a dramatic increase in the acidity of the world’s oceans, which happens with global warming, scientists said. It harms sea life, especially coral reefs. Despite that, Calgary’s David Keith is working on tweaking the concept. He wants to find a more efficient chemical to inject into the atmosphere in case of emergency.”

Many environmentalists argue that we are already in an emergency, but few of them would argue pumping chemicals into the atmosphere sounds like a good idea. The second cooling idea, that Borenstein calls the Solar Umbrella, doesn’t sound any more practical.

“For far-out concepts, it’s hard to beat Roger Angel’s. Last fall, the University of Arizona astronomer proposed what he called a ‘sun shade.’ It would be a cloud of small Frisbee-like spaceships that go between Earth and the sun and act as an umbrella, reducing heat from the sun. ‘It really is just like turning down the knob by 2 percent of what’s coming from the sun,’ he said. The science for the ships, the rocketry to launch them, and the materials to make the shade are all doable, Angel said. These nearly flat discs would each weigh less than an ounce and measure about a yard wide with three tab-like ‘ears’ that are controllers sticking out just a few inches. About 800,000 of these would be stacked into each rocket launch. It would take 16 trillion of them – that’s million million – so there would be 20 million launches of rockets. All told, Angel figures 20 million tons of material to make the discs that together form the solar umbrella. And then there’s the cost: at least $4 trillion over 30 years, probably more. ‘I compare it with sending men to Mars.I think they’re both projects on the same scale,’ Angel said. ‘Given the danger to Earth, I think this project might warrant some fraction of the consideration of sending people to Mars.'”

I assume Angel also has a multi-trillion dollar plan for removing the solar umbrella if the earth starts entering another ice age! Borenstein obviously selected these particular ideas because they were proposed by credible people but sound outlandish. It’s easy to make light of “out there” ideas, but they are dealing with a serious subject and the people offering their ideas understand they are making themselves a subject of ridicule. That’s takes a great deal of courage, especially if you’re a legitimate scientist. Those are the kind of people we are looking for to get involved with the Institute of Advanced Technologies for Global Resilience. If you’re interested go to the Web site and learn more.

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