Monday, March 13, 2017

Why California's Push for a 100 Percent Carbon Free Grid is the Wrong Way Forward


Although there is a clear lack of will to do much about climate change at the federal level, California is another story.  In a recent poll, 69 percent of California voters backed policies to cut emissions. The latest sign of enthusiasm is a bill introduced by State Senate leader Kevin De León that would completely decarbonize the state's electric grid by 2045. Currently, California state law calls for half of all retail electricity to be produced from renewable sources by 2030, with an intermediate goal of 25 percent by 2016, reached slightly ahead of schedule.

Is 100 percent decarbonization feasible? Anne C. Mulkern, writing for E&E News, reports that several experts she talked to said it was. Utility executives were somewhat more skeptical, but Pedro Pizarro, CEO of Edison International, agreed that 100 percent renewable power was technically possible, while expessing concerns about reliability, and timing.

Even if the goal is technically it possible, though, does it make sense to mandate a goal of 100 percent renewable electric power by a certain date? In my view, it does not. Carbon pricing remains a better tool for reducing California's carbon footprint.

Carbon pricing California style

But, you might say, hasn't California already tried carbon pricing with its flagship cap-and-trade scheme? Yes, and it isn't working very well. However, if we look carefully, we will see that the problems arise from circumstances particular to the state, rather than from any inherent flaw in carbon pricing as a concept.

The economic reasoning behind cap-and-trade is to give companies an incentive to reduce emissions by requiring them to buy a permit for each ton of carbon dioxide they emit. The higher the price of permits, the greater the incentive. Prices are set by monthly auctions supplemented by a secondary market, in which permits can change hands privately.


The problems this policy currently faces in California are both economic and legal. The immediate economic problem is a surplus of permits relative to demand. Recent monthly auctions have seen the price fall to the minimum allowable level, currently just over $13 per ton. In some months, as few as 11 percent of permits on offer have actually been sold. Some optimists bravely maintain that low prices show the program is cutting emissions faster than expected—but even if that is the case, it does not change the fact that low prices mean weak incentives to cut emissions going forward.

The cap-and-trade program’s legal woes are making the problem of low prices worse. Business groups have challenged it in court on the grounds that cap-and-trade is really a tax in disguise, but one that did not receive the two-thirds supermajority in the state legislature that is required for new taxes. If the suit succeeds, the program is likely to expire in 2020. The legal uncertainty adds to the program’s economic problems by undermining the demand for permits, thus keeping prices close to the floor.

Why command-and-control is the wrong solution

The threats to the cap-and-trade program are real, but pure command-and-control regulation, as in De León's latest proposal, would be a step backward. Economists are not the only ones who think so.  Some environmentalists are worried, too. As I have explained elsewhere for the case of auto emissions, excessive reliance on command-and-control regulations, rather than pricing, can enormously increase the cost of reaching abatement goals. The same is true of renewable energy mandates for the power grid.

The main economic problem facing renewable electric power is that of diminishing returns. It is possible to install great numbers of solar panels and wind turbines, and even to achieve economies of scale, measured in terms of the cost per kilowatt-hour of capacity, as the installations get larger. However, the problem remains of getting the power to users where and when it is needed. The output of solar and wind installations is variable, and the timing of output does not always coincide with the timing of demand. As the number of renewable installations attached to the grid goes up, the percentage of the potential power output that can actually be used goes down and the cost per kWh rises.

The problem of timing can be mitigated by building more storage capacity, but storage is expensive, too. The need for storage increases faster than in proportion to the renewable share of generation capacity, so more storage also leads to rising cost per kWh.

Price-based conservation measures like cap-and-trade or pollution taxes are well suited to dealing with the problem of diminishing returns. Putting a price on carbon emissions spreads the incentive to conserve over all types of energy use while giving an incentive to undertake the least-cost decarbonization measures first.

Suppose, just to pick a number, the price placed on carbon emissions is $20 per ton. When the share of renewables on the power grid is low, the cost of saving carbon by building more wind and solar capacity is likely to be less than $20 per ton, so more gets built. By the time renewables reach, say, 80 or 90 percent, the cost of saving one more  ton of carbon will be much higher. Taking low utilization rates and high storage costs into account, it will very likely be far more than $20 per ton.

Somewhere in between, there is a point where the cost of additional carbon reduction through renewable electricity just equals the price of carbon. Although it is not immediately cost-effective to expand renewable capacity, that does not mean an end to decarbonization. The threshold of cost-effectiveness will gradually increase over time as generation and storage technology improve. Meanwhile, decarbonization efforts will turn to other areas—such as the transportation or industrial sector—where it is more cost effective. If the level of emissions is still too high after all cost-effective measures have been taken in of these areas, then they can be driven lower still by raising the price of carbon.

If you want to decarbonize, do it right

For all these reasons, the proper response to the uncertain future of California’s decarbonization efforts should not be a retreat to a purely regulatory approach. Rather, it should be to move forward to a stronger system of carbon pricing.

If the state’s cap-and-trade system were on strong legal footing, it might be enough to restrict the number of permits issued, or raise the minimum price of allowances, or both. However, in the event that the courts declare cap-and-trade to be a tax in disguise, the problem becomes one of assembling the two-thirds majority needed to pass a tax law—perhaps not impossible, if public opinion favors decarbonization as strongly as polls indicate. Such a supermajority could reauthorize the current cap-and trade  system, or better still, replace it with a robust carbon tax.

Should it prove impossible to overcome the legal and political barriers to appropriate carbon pricing, the future of decarbonization will be uncertain. Yes, it might be possible to get a simple majority in the legislature an aspirational goal of 100 percent renewable power by 2045, but doing so would not necessarily produce a happy outcome.

One study compares 100 percent decarbonization to the ramping up of aircraft production from near zero to 330,000 planes per year during World War II, in terms of the political will it would require. How would it be possible to summon up that degree of support for an inefficient command-and-control approach if there is not the will to pass a much less costly carbon tax, or even to put cap-and-trade on a proper legal footing? More likely, a premature effort to achieve 100 percent renewables would lead to missed deadlines, cost overruns, and the discrediting of the whole idea of decarbonization. DeLeón's initiative is not a way forward. It is a blind alley.

A somewhat different version of this post previously appeared on the blog Climate Unplugged. Reposted by permission of the Niskanen Center.

2 comments:

  1. A better approach would be zero net, reducing carbon elsewhere to accommodate some locally, if that important.

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    1. Yes, zero net would make more sense than zero grid. Allowing some slack in the grid for carbon-based peaking would save a lot of the high cost of the "last mile" for reaching 100%.

      IMO,carbon pricing, either through a tax or cap-and-trade, would have the effect you would like to see. It could even allow people to get credit for "buying" reductions out of state.

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