Government forecasts predict U.S. energy intensity (primary energy used per dollar of real GDP) will continue to decline roughly two percent annually through 2040, but that the drop will be steepest in automobiles.
Motivated in part by more stringent fuel economy standards coming down the pipeline, lightweighting—the core of the new “platform fitness” approach, which focuses on optimizing a vehicle’s structure first before addressing propulsion technology and fuel source—has been the industry’s hottest strategic trend for several years (see “Battling America’s Automotive Obesity Epidemic,” page 28). In short, the auto industry is finally beginning the fundamental change we’ve been advocating since 1991. And as automakers and government adopt RMI’s fitness-first, ultralighting-focused strategy, they’re finding that making costly batteries or fuel cells fewer rather than cheaper can make electric cars more affordable with less time, cost, and risk. This can save severalfold more oil than the government forecasts, use 80 percent less autobody manufacturing capital, de-risk automaking, and save (in the U.S. alone) half an OPEC’s worth of oil.
Meanwhile, U.S. autos’ four percent average asset utilization—that is, they sit idle 96 percent of the time—is driving remarkable new carsharing and ridesharing programs, smartphone apps, and emergent automaker business models based on leasing mobility services rather than selling autos. These developments, adopting Natural Capitalism’s powerful “solutions economy” business model, could profoundly reduce the need for autos to yield the same or better mobility and access at lower cost.
At the same time, efficient use of electricity—which is used three-fourths in buildings, one-fourth in industry—is finally starting to pull out of its decades-long doldrums. That’s a big deal for saving capital and climate, because producing and delivering electricity is extraordinarily capital intensive, and classically uses two to four units of fuel at the power plant to deliver one unit of electricity. Much of RMI’s work focuses on this effort, as the late Ray C. Anderson put it, to “turn stumbling blocks into stepping stones.” Efforts like RMI’s RetroFit initiative—whose toolkit, portfolio challenge, and training efforts are steadily gaining adherents—are key levers for scaling adoption by asset owners, financiers, tenants, designers, installers, and communities.
Initial returns are coming in. Electric intensity (electricity consumed per dollar of real GDP) fell in all but two years since 1996, drifting down by a total of 19 percent, but in 2012 alone, before correcting for weather, it fell by an unprecedented 3.7 percent. Spending on energy efficiency programs is way up and expected to keep climbing. Between 2006 and 2010, spending on utility energy efficiency programs more than doubled from $2 billion to $4.8 billion. Lawrence Berkeley National Laboratory and the American Council for an Energy-Efficient Economy forecast spending to double again by 2025, to $9.5–$10.8 billion under a medium scenario that merely maintains current energy efficiency policies. More aggressive efforts could see spending climb to $15.6–$16.8 billion. Increasingly propelled by utility- and customer-financed efficiency efforts (with utilities incented by changed rules that in 15 states for electricity and 20 for natural gas already reward utilities for cutting customers’ bills rather than for selling them more energy), stagnant or declining electricity demand is emerging as the “new normal,” according to The Brattle Group and Deloitte.
Just the new building codes that entered force in 2011–12 in half the states could about offset previously forecast electricity sales growth. And electricity demand could consistently shrink, dropping by one-fourth by 2050 despite a 2.6-fold bigger U.S. economy, if the lucrative efficiency gains described in Reinventing Fire were adopted over 20 years to the extent already achieved in the Pacific Northwest states. In sum, 2050 could see tripled U.S. energy productivity, on top of the more-than-doubling already achieved since 1975. That prize is worth trillions of dollars, with handsome financial returns—plus even bigger non-energy benefits we didn’t count.
Renewables Continue to Boom
The business of installing solar modules is booming. Germany took it to scale, 8 GW a year, and installed more PVs in a single month in 2011 and 2012 than the U.S. added all year. That volume also cut the German installed system cost to half ours, even though we all buy the same equipment. If the U.S. did that too, it’d have really cheap solar power, since Germany gets about as much sun as Alaska and far less than the mainland U.S. But even so, U.S. solar prices are now low enough that photovoltaics on your roof, financed with no down payment, can beat your utility bill in over a dozen states. In fact, solar accounted for 49 percent of new electric capacity installed during Q1 2013 and all new utility electricity generation capacity added to the U.S. grid during this March, according to SEIA and FERC.
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The bottom line: windpower added 45 GW of global capacity in 2012, PVs about 32. These and other nonhydro renewables are continuing to win a quarter-trillion dollars’ private investment per year globally (more than all fossil and nuclear generation got) and may hit $500 billion per year or more in the foreseeable future. This is no longer a fringe activity: it’s the core of the global market and increasingly central to the United States’ energy landscape. Even so, fossil fuels enjoy hundreds of billions in global investment annually and $1.9 trillion annually in subsidies, according to IMF, so the transition is far from a foregone conclusion. But the tide may be turning.
Coal lost 28 percent of its U.S. market share to gas, renewables, and efficiency just in the past seven years, 19 percent in the past two years. “Booming” natural gas, meanwhile, saw renewable energy run a close second for new installed capacity through the first half of 2012, and in the second half of the year, new installed wind capacity alone pushed natural gas into second place. In such places as California and Texas, renewables are supplying increasingly significant amounts of electricity to the grid—in California last year, the state’s three largest shareholder-owned utilities generated 19.8 percent of their electricity from renewables, according to CPUC; Texas, leading the nation in installed wind capacity with nearly 13 GW by the end of 2012, generated more than 10 percent of its electricity from renewables in 2012, according to ERCOT, and in early 2013 was nearing 30 percent.
Continue reading “Amory Lovins: Three Major Energy Trends to Watch”
