Depending on your point of view, the journey of EE Times/EE Life editorial director Brian Fuller across America in a Chevy Volt was either a great adventure or the cushy assignment of the year. In my view, it represented EE Times’ most significant investment thus far -- thanks to the sponsorship of Avnet -- in perhaps the most important technology of the 21st century: electric power storage, specifically in the form of long-life batteries.
Fuller and his videographer brother Kirk, driving coast-to-coast in an electric car with internal-combustion backup, was something of a leap of faith. They faced swathes of America in which there exist no power stations to plug in their Volt and recharge the juice in the vehicle’s 288-cell, 16-kilowatt hour battery pack. Right now, 48 of 50 states, according to Car and Driver, have fewer than 10 such stations each. This left Brian and Kirk using the Volt’s cute backup 83hp internal combustion engine a lot more than they might have preferred. Indeed, after the switch from battery (range 35 miles) to gasoline power (an additional 300-odd miles), the Volt averages around 30 miles per gallon. This isn’t bad, but, compared to, say, a 1972 Honda Civic, it’s embarrassing.
When I heard about Brian’s “Drive for Innovation” experiment, I found myself focusing not on the current Chevy Volt’s limitations, but on the surprising speed of its development. When I first read about Volt prototypes less than two years ago, I understood that an operating, affordable consumer Volt was still far, far away. It wouldn’t hit the market, in any substantial volume, within the decade.
That prediction was over cautious. Today, there are enough Volts on the road -- along with competitors like Nissan’s Leaf, various hybrids, and an electric Ford Focus due out in limited production next year -- that it might be safe to suggest that the electric car is here to stay.
Advancing the cause is the federal government’s commitment to R&D in power storage technology, batteries in particular. It started with a $69-billion clean-energy package and the revival of General Motors (creator of the Volt). There’s a $7,500 tax credit to purchasers of electric cars, and the Obama administration has invested in battery development throughout America’s 20 National Laboratories. In the current issue of Washington Monthly, Eric D. Isaacs, director of the Argonne National Lab., notes that his team pioneered the technology in the 2011 Volt battery, which was licensed for manufacture by Korean chemical giant LG Chem.
Perhaps the most encouraging facet of the Volt and its overly large, short-range, too-expensive ($10,000) lithium-ion battery pack is Isaacs’ lament that researchers have until now failed miserably in producing an air-cathode battery. If this technology could be conquered, it would multiply tenfold the storage capacity of long-life batteries -- from the Volt’s 35-mile range to 350 miles.
Good comments, William. We seem to be at the beginning of a major transition in technology and materials related to energy consumption. I would imagine we'll go in every which direction for some years to come. Ultimately, like it of not, coal will continue to be a big part of our future, especially in developing countries. But it will be fun to see the flood of new technology -- it already is.
Rob I believe we are after the same goals. I've no stick-to-it-iveness to any technology when innovations abound, but as you know, oil and gas is much bigger than the fluids -- it is entire economies that support and surround it. My adverse reaction is to calls for conversion to electric vehicles because they don't burn fossil fuels and are therefore "free", when it comes to energy consumption. It sounds ridiculous to scientists and engineers, but to a general voting public who thinks the moon landing was staged in California and big business is hiding the technology to the flux capacitor, the rhetoric can be disastrous.
I like your transitional approach that may include super-efficient ICEs. I'm rooting for efficient electric motors and transmission systems that are powered by super-efficient on-board turbine generators --- much like a Diesel Locomotive. I spent a few years working in the Fuels and Lubrication Division of the US Air Force Power and Propulsion Directorate... Advanced Turbine Composites and innovations such as the Trapped-Vortex Combustor would go a long way to hybridizing our fossil fuel economy with more efficient use of electricity, all while avoiding an increased reliance on Coal spurred by a political push for rechargeable electric vehicles...
Benj rides again! Great to see your byline here at DN. Thanks for the clear, concise summary of the state of battery technology and the more human side of the politico-social environment that forms a backdrop to developments in this area.
Rob, I'm with you on getting free from oil, but I can't support alternative--or any--internal combustion engine designs. To me, the key word is "combustion," as in, burning.
China uses even more coal than North America. They get 68 percent of their electricity from coal, and goes into the same air we eventually breathe. I've got it in the back of my head that tremendous gains could be made by creating a super-efficient, super lightweight internal combustion engine. And while technology that makes oil use more efficient may be a big step forward in reducing consumption, I really can't see sticking to oil in order to support the industry. I'm glad we didn't support buggy makers or typewriter manufacturers.
Jerry, thanks for the correction. I've used the 50% coal number for a while now, as a Google search returns values of 57%, 54%, and 45% (an average of 52%), but I'm happy to use the www.eia.gov values of 45% from Coal, 24% from Natural Gas (69% fossil fuels). I'm not sure I would count Zinc/Air and Aluminum/Air reaction as 'batteries', but I'll go with fuel cells. The only difficulty being that electrolysis powered from our 69% fossil fuel grid is required to reduce the oxidized Zinc and Aluminum ore into new, battery cells which are non-rechargeable.
I'm happy to learn the off-peak production level of the grid can be utilized to charge 50M EV's, but I'm concerned that would lead to running at 100% peak capacity 24/7. I'm not sure for how long our current infrastructure could handle that duty cycle without failure...
WW, you are so leading us straight to financial ruin. Feel free to keep burning that oil but you pay for it and all it's other costs which we pay in our taxes of about $1T/yr for oil wars, pollution, corporate welfare, balance og payments, etc.
Oil won't slow just because of EV's but instead from slowing demand from higher oil prices and dropping RE costs. So don't blame EV's for FF job losses.
Coal hasn't been 50% for w while now and dropping like flies as they should because they kill 30k, hospitalize 150k/yr in just the US amoung much other costs. Coal, oil get the profits, yaxpayers get the shaft. By the time any number of EV's are on the road coal plants will be far less, about 20-25% of the cleanest, most eff ones.
And Ev's will be the battery pack of the grid allowing it to balance out without having to run costly generators in case of peak demand, saving enough in fact to charge 50M EV's according to utility studies without increasing capacity.
For those who don't know I've been driving EV's at 25% of an ICE's cost or 15 yrs at about 250-600mpg equivalent. So keep paying your oil masters if you want. I'll pass.
Nukes are not being built because they are way overpriced. Not until gen 4-5 smaller, far safer, more cost effective modular reactors come online will it be viable here.
Back to batteries, we already have 2 'air' batteries available techincally. They are Zinc and Alum/air batteries. They are good for about 1k miles/charge, then you have the insides replaced. Trails worked well but no one wanted to build enough and the charging plants to make them work.
I really (really) tried to consume this article from a neutral position, but too many buzzwords and cliches set off my political alarms. Kissing BP and OPEC goodbye? -- so we can embrace GE, GM, and Korea-based LG Chem? Simply changing the name of the organizations that provide energy fixes nothing, other than the spelling of the current boogeymen. We already have a battery that 'breathes in' oxygen from the air. It's called an internal combustion engine. And the hydrocarbon fuel it uses is the product of millions of years of photosynthesis. And the distribution network is already in place and provides countless thousands of jobs. Make it "game over for gasoline" and then figure out how to accommodate all of the displaced careers from exploration, drilling, refinement, transportation, pipeline infrastructure, and convenience stores and gas stations to name a few.
"By extending the technology of power storage beyond car batteries into 'green' areas of solar, wind, and biomass...we will...reduce the suffocating impact of carbon emissions..." Wow. Confusing "Power Production" for "Power Storage" is a common problem in the non-technical media. If all Americans switched to Chevy volts tomorrow, our currently 50% Coal-fired electricity grid will need to charge all of the batteries --- and with no new Nuclear Reactor permits, no unsightly wind turbines off Nantucket and the demise of Solyndra, I can only predict that the electricity shortfall needed to power all of the batteries will necessary come from burning more coal and building more oil-fired power plants. Again --- the theme of Redistribution sucks up all of our debate time, rather than passionately arguing for Innovation.
Here, here!! David, I applaud your strong call to arms to get the private sector and government research dollars behind battery development. I agree that it's a short-sighted view to squash investment here due to lingering concerns about the economy and the still all-out push to promote budget austerity. I love your comment, "We should be glad to pay up, if only for the sake of kissing BP and OPEC goodbye." Ok, maybe not a complete break-up, but it's certainly time in the relationship to start "seeing other people."
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