We are all enamored by the advanced technologies at work in vehicles today. And why wouldn’t we be? The incredibly efficient cars we have today, and the even more efficient models coming in the years ahead, are testament to a process that combines ingenuity, market competitiveness, and government mandate in bringing ever more efficient vehicles to our highways.
It’s been a long and evolutionary process. I remember clearly when PZEV (Partial Zero Emission Vehicle) technology was first introduced in the early 1990s, a breakthrough that brought near-zero tailpipe emissions from gasoline internal combustion engine vehicles. That move was led by Honda and Nissan, with others quickly following. Then there were the first hybrids – Honda’s Insight and Toyota’s Prius – that arrived on our shores at the end of that decade. Both technologies brought incredible operating efficiencies that drastically reduced a vehicle’s emissions, increased fuel economy to unexpected levels, or both.
Of course, there were first-generation battery electric vehicles in the mid-1990s that foretold what would become possible years later. That first foray into EV marketing was deemed by many a failure, yet it set the stage for the advanced and truly impressive EVs we have today. Those vehicles may not yet be cost-competitive with conventionally powered vehicles due to very high battery costs, but that doesn’t diminish the genius engineering that’s brought them to today’s highways.
Even conventionally-powered cars today are achieving fuel efficiency levels approaching that of more technologically complex hybrids. Who would have imagined popular cars getting 40 mpg or better, like the Dodge Dart, Chevy Cruze, Mazda3, Ford Fiesta, and many more in a field that’s growing ever larger each year?
VW and Audi have proven that clean diesel technology can also achieve 40+ mpg fuel efficiency while providing press-you-back-in-your-seat performance, and importantly, doing this while meeting 50 state emissions criteria. That’s saying something considering diesel has historically had a tough go of it meeting increasingly stringent emissions standards in California and elsewhere. Yet, with elegant engineering by these automakers and their diesel technology supplier Bosch – plus this country’s move to low-sulfur diesel fuel late last decade – ‘clean’ diesel was born.
I would be remiss if I didn’t mention natural gas vehicles. There was a time when quite a few automakers were exploring natural gas power in the U.S., but that faded and left Honda as the lone player in this market with its Civic Natural Gas sedan. Now others are joining in with dual-fuel natural gas pickups and vans, benefitting from advanced engine technologies, better natural gas tanks, and a sense that with increasing natural gas reserves in the U.S., demand for natural gas vehicles will grow. As Honda has shown with its Civic, it’s possible to operate on this alternative fuel while also netting admirable fuel efficiency.
All this advanced powertrain technology is important. It makes air quality and petroleum reduction goals achievable, even ones like the ethereal 54.5 mpg fleet fuel economy average requirement that looms for automakers by 2025. There’s no doubt that advanced technologies come at a cost and reaching a 54.5 mpg average will require the full range of efficiency technologies available, from better powerplants and transmissions to greater use of lightweight materials, aerodynamic design, and answers not yet apparent. But I’m betting we’ll get there in the most efficient way possible.
Ron Cogan is editor and publisher of Green Car Journal and editor of CarsOfChange.com
I am an electric car fan, always have been since I drove my first electric car – the experimental Sears XDH-1 – back in the mid-1970s.
Over the years I’ve driven many battery electric vehicle prototypes and all production EVs in the U.S., spending a year living with a GM EV1. I have also spent time behind the wheel of many electric car conversions from small and hopeful new EV companies ranging from U.S. ElectriCar to those founded by entrepreneurs like Malcolm Bricklin and Miles Rubin. Test drives took place on highways and test tracks on multiple continents, sometimes for short drives out of necessity and sometimes for weeks at a time. Electric cars were my beat as feature editor at Motor Trend in the 1990s, by choice. I’ve been a vocal advocate for electric cars since the first issue of Green Car Journal 20 years ago…sometimes very vocal.
Time has a way of tempering not only perspective but expectations. One example: Over two decades of following battery development, I recall clearly the high expectations many have had that battery breakthroughs would come. Affordable and energy-dense batteries would be the enabling technology that could encourage full-function battery electric cars to market, making them cost competitive with internal combustion and readily displacing cars that for 100-plus years have relied on petroleum, a commodity that has grown costlier and in tighter supply.
That battery breakthrough has yet to occur. Yes, we have batteries with better chemistry and advanced designs. But they don’t represent the breakthrough that’s been widely anticipated and they remain quite expensive, so much so that battery electric cars must still be federally subsidized because of their high battery cost and retail price. In a normal world, a compact electric SUV should not cost $50,000, nor should a four-door electric sedan be $40,000, or a small electric hatchback priced over $30,000. Yet they are. And yes, there are a few electrics priced under $30,000, but as internal combustion models they would typically be priced $10,000 to $15,000 less while offering greater functionality.
It’s understandable why electric cars are being pushed so hard. Historically, EVs have spoken to a lot of needs. States have included them in State Implementation Plans as a way to show how their state would meet air quality standards under the Clean Air Act. Electric utilities see them as a pathway to selling electricity as a motor fuel. Government agencies often view electric vehicles as a panacea for (you choose) improving air pollution, mitigating petroleum use, decreasing CO2 emissions, and enhancing energy security. Automakers realize the dramatic impact that electric propulsion can have in helping achieve increasingly higher fleet fuel economy averages in coming years. Thrifty and eco-minded consumers understand the value of a smaller environmental impact by driving oil- and emissions-free, at a low cost per mile.
I remain an electric car enthusiast. But as a seasoned auto writer and industry analyst I’m also obliged to focus on reality. Today’s reality is that if we’re to make a real difference in petroleum reduction and environmental impact, battery EVs are not the short-term answer. While important and deserving of continuing development and sales, they are just one part of the solution, along with advanced gasoline, clean diesel, alternative fuel, hybrid, plug-in hybrid, and extended-range electric vehicles that create on-board electricity to provide full functionality. That’s the way forward.
Ron Cogan is editor and publisher of the Green Car Journal and editor of CarsOfChange.com
It should be no secret that electric vehicles are pricey because of the extraordinarily high cost of their advanced lithium batteries. Yet, most folks still wonder why the purchase price of a battery powered vehicle is so high. Here’s a clue: Ford’s CEO Alan Mulally has now shared that the cost of the lithium-ion batteries used in the $39,200 Ford Focus Electric – Green Car Journal’s 2011 Green Car Vision Award winner – is $12,000 to $15,000 per vehicle.
Obviously, this kind of battery cost is limiting the number of electric vehicles automakers are willing to make since building them is just one part of the equation. The other important part is selling them…and that means either convincing buyers to step up to their higher price or relying on federal or internal subsidies, or both.
We’ve been through this before. During the test marketing of battery electric vehicles in the 1990s, people wondered why electric cars couldn’t be a success. We pointed out then, as we are again now, that the batteries in the EVs of the day – the GM EV1, Honda EV Plus, Toyota RAV4 EV, and others – were likely $20,000 to $30,000 per vehicle. The latter figure was confirmed to us by the late Dave Hermance of Toyota’s electric vehicle program some years ago.
So what really killed the electric car back then? The cost of batteries. We’re just hoping that battery development costs for a new generation of electric car batteries – whether lithium-ion or other technologies – can be overcome to provide the momentum needed by the emerging electric vehicle market.