Jeremy Michalek says the biggest electric vehicle subsidies are going to the wrong cars. After studying the life cycle of electrified cars -- from the first moment of raw material mining to the final day in the car's life -- Michalek and fellow researchers have concluded that hybrids with smaller batteries pollute less than pure EVs.
That, of course, flies in the face of everything we now believe. Today, cars with bigger lithium-ion batteries receive three times as much in federal subsidies than hybrids with smaller batteries. Those subsidies, however, are based on the idea that big-battery EVs pollute less, which may not necessarily be so, Michalek says.
A battery electric vehicle (shown as "BEV240") could be responsible for more social damage in the form of emissions than a plug-in hybrid, largely as a result of battery size. (Source: Carnegie Mellon University)
"As the battery pack gets larger, the emissions associated with manufacturing can be quite significant," Michalek, an associate professor of mechanical engineering and public policy at Carnegie Mellon University, said in an interview. "You have to look at the entire supply chain. Some of the emissions come from the facility where the battery is assembled, but a portion of it is upstream. Some of it comes from the powerplants used to create the electricity that runs the equipment."
Michalek's conclusions were recently published in an article in Issues and Science and Technology, a publication of the National Academies. They were also unveiled in a separate study titled "Valuation of plug-in vehicle life-cycle air emissions and oil displacement benefits," in 2011. For both papers, Michalek teamed with researchers from Arizona State University and the Rand Corporation.
The gist of the studies' conclusions is that there's more to emissions than what comes out of the tailpipe. This is especially so when it comes to vehicles with big lithium-ion batteries. According to the studies, a battery-electric car with a 240 km (144 mile) range is responsible for between $4,000 and $5,000 worth of "social damages" over its lifetime. The figure is similar to conventional gas-burning vehicles, but higher than that of hybrids.
A plug-in hybrid with a 20 km (12 mile) all-electric range, for example, comes in at less than $4,000. In arriving at the numbers, researchers considered emissions caused by vehicle operation, as well as by electricity production, gasoline production, battery production, and vehicle production.
The bottom line of the study is that smaller battery size is important. Although the studies didn't mention any specific vehicle models, their findings indicate that a Prius PHV plug-in hybrid with a 4.4 kWh battery would emit less than a Chevy Volt with a 16 kWh battery. Similarly, a Volt would emit less than a pure electric car with a big battery.
This makes sense, Chuck. Unlike the EV, the hybrid charges itself instead of taking electricity off the grid. Given that so many grids are generating electricity from coal, I can see where a hybrid would produce less carbon than an EV.
It is good to hear that full EVs are bad for the environment, to some degree. I assumed the battery fabrication was fairly high prices already. As I have been hoping for the day of owning a complete EV and avoiding the pump, now I see I will need a transitional vehicle until battery tech makes the footprint smaller. Plug in Prius on the way...
However, do you think this will inhibit development on EVs in the future?
I doubt this will change anything in the short term, Cabe. There's no window right now for making changes to policy. What it will mean in the future is anyone's guess. Regarding the Prius: Toyota has a plug-in called the Prius PHV and it has a relatively small, 4.4-kWh battery.
As for EVs, Cabe, it looks like automakers are making deep investments in their EVs. They may break through with cost-saving technology. As for the coal-burning grid, that may change as well over coming years as grids move to cheap natural gas and renewal sources of electricity.
Yes, I can see that, Chuck. This whole notion of whether EVs are producing carbon by using the grid will likely change as our grids generate electricity in cleaner ways.
I wonder if the analysis took into account that as more EVs are produced and their life cycle exhausted there will be a larger supply of recycled materials for the batteries? This too will reduce the foot print for EVs.
Unless we are going to build a large number of nuclear power plants the energy we generate isn't going to get much cleaner. Solar and Wind are extremely energy entensive when all costs are included. Manufacturing (including materials), maintenance, transmission losses, are all extremely high for all the "green" energy sources.
The nuclear waste issue could be mostly resolved with GenIV and breeders, but it is unlikely that the government will permit that, so all the discussion about "green" energy is so BS.
The real problem is not the car, nor the driver, nor the way the car is driven, but the way the energy is produced that is used to produce the battery and other components, and to recharge the battery. So clearly the solution, once again (as always to many of the world's problems -- GW, meltdowns, oil spills, etc.) is renewable energy for all. There would be no question the EVs are the way to go in that case. The price (and presumably the carbon footprint) of EV batteries is fully expected to plummet over the next few years in any case. Somehow, I suspect this "fact" was ignored. What this article presents is a call for more renewable energy, NOT a call to slow the conversion to EVs! After Sandy, those with pure EVs were able to power their refrigerators for days off their car battery (with an inexpensive converter that every EV owner will want to have). That's another savings that probably didn't get included but could become significant as we remove large old "base line" electrical generators from the grid and some people worry about "grid instability."
This is quite heartening to see....... I believe one of the posters here mentiooned the hybrid as a "transitional" vehicle which I believe is dead one right. The big mistake being made is forcing this EV technology before it's time. The hybrid is the most logical and the best step to increasing efficiency of personal transportaiton. It is , in my view, the bridge technology, towards further imporvements. It generates it's own electricity (captured in the regenerative braking mode) and stores it in the smaller battery system and yet relies only on the ICE when needed (and for which the infrastructure already exists). One cannot argue the energy density of fossil fuel for transportation simply cannot be matched by these "green sources".
Plus (and I know this will raffle lots of feathers), this absolute madness and hysteria of pending dome from global warming ...(er... sorry, climate change) and unrealistic and arguably beneficial CO2 emission reduction targets, perhaps can be mitigated a bit, by some actual factual and rational analysis of costs and benefits.
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