SA Forum
Scientific American
The price of oil has plummeted from more than $100 a barrel in July to . Meanwhile the U.S. has become the world’s of natural gas, helping the country become more self-sufficient on energy. Will this abundance of fossil fuels derail the world’s shift to renewable sources of energy, such as wind and solar power? And what does this shifting energy landscape mean for the role of fossil fuels in the U.S. energy mix? And what about nuclear power—should concern of the safety of nuclear waste trump the benefits of exploiting this noncarbon-polluting source of energy?
Right now renewable electricity is roughly 13 percent of total electricity generated in the U.S. Half is hydropower and the other half is mostly wind energy, with some solar, biomass and geothermal. Renewable energy costs have come down significantly. Even if natural gas, which is the cheapest form of electricity generation today, stays at $4 per million Btus [British thermal units], wind without subsidy is almost as inexpensive.
Electrical generation in the sunnier parts of the U.S. is also approaching equality with a new natural gas power plant. The cost of wind and solar is anticipated to decline for at least a decade or two. Perhaps in a decade, renewables will be competitive with any new form of energy in many parts of the U.S.
What do you think is the biggest energy problem today?
As renewable energy becomes an increasingly larger fraction of the total energy, the cost of standby electricity and storage becomes part of the cost of renewables. Sometimes the wind does not blow and the sun does not shine.
There are countries that have about 25 percent intermittent energy integrated over the year. One of the challenges is—how do you go from 25 to 50 percent and higher? It means you have to balance loads over wider areas, because the larger the area you collect energy, the more you can even things out. But at the 50 percent level you’ll need energy storage as well.
Germans call the switch from fossil fuel and nuclear to renewables the [energy transition]. Is the world really on this path?
In Germany about 30 percent of their electricity comes from renewables—10 percent biofuels and the rest wind and solar. Virtually all of the wind is in the northern part of Germany and electricity has to be transported to heavy industrial areas in the southern part, and some people don't want the transmission lines in their line of sight. Germany has to figure out how to deal with this issue.
China also is moving—it has now set goals to cap carbon emissions and coal use, and be 20 percent renewable by 2030 or earlier. It is a very good sign when a developing country like China says that clean energy is an important goal, regardless of whether there’s a U.N. agreement or not. For them to say, “We’re going to go ahead and do this,” is a very big deal.
What are the most interesting scientific advances right now that have the potential to transform clean energy?
There are also new battery and supercapacitor chemistries and structures. A supercapacitor can accept and deliver much more power per unit volume than a battery and a modest-size supercapacitor will allow full energy recovery during the braking of vehicles. I am particularly excited about nanostructured batteries and graphene-based supercapacitors. Energy-efficiency technologies are also improving: Cars of equal performance are able to go twice as far on a gallon of gas as automobiles of 40 years ago and a Boeing 787 uses only 30 percent of the fuel of a Boeing 707 per passenger mile. Efficiency improvements are part of the transformation.
Do you agree with experts who say that electric cars can make an important contribution to solving our energy problems?
The energy density of batteries is getting better—today there are batteries about 60 percent higher in energy density—i.e., with more energy for a given weight and volume—than the batteries of 15 to 20 years ago. Within this decade the energy density is likely to double.
The clean-tech community is split. Some believe nuclear has to be a key part of the mix, others think that with nuclear waste storage still untested it’s even worse than fossil fuels. What’s your take on this?
Disposing of the waste is an issue because many people do not want it in their backyard. But that’s mostly where it is a political issue rather than a scientific one. There are geological sites that are very stable, and where nuclear waste can be stored safely. For example, in the U.S. we have large salt deposits that have been stable (no water intrusion) for millions of years, and would provide safe geological confinement of spent fuel.
And we can’t really abandon fossil fuels before the first half of this century because they are needed for backup power. We need to invent a method to transform very inexpensive electricity into cost-competitive liquid hydrocarbon fuels that can be shipped by tanker and stored around the world. After that we can begin to wean ourselves from fossil and fission nuclear energy.
For example, take climate change. The climate is changing and there is very strong evidence much of the change is due to humans. While there are large uncertainties as to what will happen in the future, there are huge risks unless we greatly decrease carbon emissions. The proper political debate would be how to deal with these risks, but it makes no sense to say, “Unless science can prove unequivocally that very bad things will happen, we can continue on our present course.” Science cannot predict who will get lung cancer if they smoke. With a half a century of hindsight we now know that the risk is 25 times greater than for nonsmokers. Prudent risk management does not use uncertainty as an excuse for inaction, and fire and health insurance make sense. We need leaders who are scientifically well-informed and willing act in the long-term best interests of their countries.
Chomsky: We Are All – Fill in the Blank.
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