DETROIT (July 12, 1:30 p.m. ET) — The price of automotive lithium ion batteries is expected to fall dramatically by the end of the decade and even further by 2025, according to a McKinsey study released July 11.
In a “should cost” model that researchers developed, the consulting firm says the price for a “complete automotive lithium ion battery pack” could drop from $500 to $600 per kilowatt hour today to about $200 by 2020 and $160 by 2025. A kilowatt hour is a measure of energy storage.
How would lower prices affect the price of the Chevrolet Volt's 16 kilowatt hour battery pack? Assuming a current cost of $500 per kilowatt hour, the Volt battery today costs $8,000.
At $160 per kilowatt hour, the same battery would cost $2,560 in 2025, assuming no inflation.
The report says nearly 30 percent of the cost reductions — much of them achievable by 2015 — will come from manufacturing, with improvements in manufacturing processes, standardizing equipment and spreading fixed costs over higher unit volumes.
As a result, future battery plants could be more productive than those built before 2010-2011, according to the report.
Lower battery prices will make electric vehicles more accessible to consumers and could spur advancement in other technologies such as variable valve timing or dual clutch transmissions, said John Newman, an associate McKinsey partner in San Francisco. Newman coauthored the report with McKinsey partner Russell Hensley in Detroit and Matt Rogers, director of McKinsey's San Francisco office.
Newman said the electric vehicle industry is experiencing growing pains that are no different from any other emerging industry.
He said consumer demand is going to be small initially, but if battery costs remain where they are today, “it's a tough proposition” to see broad acceptance of EVs.
The report indicates that “lower components prices” could account for around 25 percent of the price reduction, and much of the savings could be captured by 2020.
Suppliers are expected to trim costs by moving operations to places where costs are optimal and boosting manufacturing productivity, the study said.
In addition, advancing cathode, anode and electrolyte technology could raise battery capacity by 80 to 110 percent by 2020-25 and help cut battery prices by 40 to 45 percent, according to the study.
Hensley said a variety of factors will determine the market success of electric vehicles.
They include the gap between the price of oil and electricity; increasingly stringent carbon emissions regulations; technological advances; and vehicle market segments that are being targeted.
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