Belfer Center Home > Publications > Policy Briefings, Testimony & Presentations > Policy Briefs > Acting in Time on Energy Policy

EmailEmail   PrintPrint Bookmark and Share

 
"Acting in Time on Energy Policy"

"Acting in Time on Energy Policy"

Policy Brief, Energy Technology Innovation Policy research group, Belfer Center for Science and International Affairs, Harvard Kennedy School and Consortium for Energy Policy Research at Harvard

May 20, 2009

Editor: Kelly Sims Gallagher, Senior Associate, Energy Technology Innovation Policy research group

Belfer Center Programs or Projects: Energy Technology Innovation Policy; Environment and Natural Resources; Science, Technology, and Public Policy

 

OVERVIEW

This policy brief outlines urgent priorities for U.S. energy policy at the dawn of the Obama administration, and recommends specific steps that the U.S. government should take to address the numerous energy-related challenges facing the United States. It is based on the book, Acting in Time on Energy Policy (Brookings 2009), edited by Kelly Sims Gallagher, director of the Energy Technology Innovation Policy research group at the Harvard Kennedy School's Belfer Center.

We concentrate on six topics: climate change policy, carbon capture and storage policy, oil security policy, energy-technology innovation policy, electricity market structure, and infrastructure policy. The United States cannot afford to wait any longer to enact long-term policies on these topics. In fact, acting early is clearly in the longer-term interest of the United States.

The contributors to Acting in Time on Energy Policy and this policy brief are Laura Diaz Anadon, Max H. Bazerman, David T. Ellwood, Kelly Sims Gallagher, William H. Hogan, John P. Holdren, Henry Lee, and Daniel Schrag.

 

KEY FINDINGS AND RECOMMENDATIONS

Higher and stable energy prices would help achieve all the policy objectives in the longer term — improved oil security, lower greenhouse-gas emissions, more efficient operation of the electricity system, more incentives for private-sector innovation in energy technologies, and more incentives for consumers to purchase cleaner and more energy-efficient products. Although there is the legitimate concern that higher energy prices can unfairly burden low-income Americans, there may be creative ways around these problems — notably by using a portion of the revenues for social programs. Taking a carbon tax as an example, polling from 2006 shows that support for a carbon tax level tripled and opposition fell by two-thirds when a large carbon tax was paired with a similarly large income tax cut.

I. CLIMATE CHANGE POLICY

  • The world, and the United States specifically, must first establish a long-term goal for emissions concentrations in the atmosphere. Once there is agreement on this goal a long-term GHG "emissions budget" can be created. An emissions budget is no different from a financial budget in that it simply provides a quantitative limit on emissions (spending for a given time period. Then, policies can be enacted that will enable the United States to stay within its budget.
  • The U.S. government must place an initial price on U.S. greenhouse-gas emissions, either through a cap-and-trade mechanism or a tax. A tax has the advantages of predictability and being simple to implement quickly. (Importantly, such a step could raise revenue, which could be used for investments in clean energy technologies, income tax relief to the middle class, or deficit reduction, etc.).
  • The Obama administration must re-engage internationally, especially with China — the world's largest and fastest-growing emitter — to devise an international solution to the climate change challenge.

II. CARBON CAPTURE AND STORAGE POLICY

  • Carbon capture and storage — an approach to mitigating climate change based on capturing the carbon dioxide emitted from power plants and storing it underground — will be important to both future climate change policy and future energy policy. The reason is that coal is abundant and relatively inexpensive, if one does not include all of the health and environmental costs associated with it.
  • Costs for the first set of capture and storage facilities appear to be high (too expensive to be motivated by relatively low carbon prices), but these costs will come down through further research, development, and demonstration.
  • The federal government should provide subsidies for 10 to 20 commercial-scale CCS projects. To maximize their impact these demonstration projects should employ different capture technologies, different strategies for geologic storage, and they should be spread across different regions of the United States. This program should be implemented immediately, so that knowledge can be acquired about the viability of this technology during the next 5–10 years, and so costs can be brought down to a reasonable level.
  • New federal laws and regulatory policies should be created so that developers and operators of power plants and CO2 storage facilities understand their liability, and know which environmental regulations will apply to CCS projects.
  • The federal government should encourage state and local governments to accelerate permitting processes for CCS projects.
  • The long-term goal should be the adoption of CCS for all large stationary sources.

III. OIL SECURITY POLICY

  • With oil prices set in a global market, the degree of U.S. economic vulnerability is proportional to its total oil dependence, not just import dependence.
  • The oil security problem encompasses four concerns: short-term economic dislocations from sudden increases in oil prices, long-term supply inadequacies, a foreign policy overly constrained by oil considerations, and environmental threats, specifically global climate change.
  • To address these concerns, the growth in world oil consumption and greenhouse gas emissions needs to be reduced. The United States needs to place a price on both imported oil and carbon either through taxes or a cap-and-trade program. By increasing prices, the government sends a strong signal to consumers to use less oil and emit fewer grams of carbon, and it also sends a powerful signal to entrepreneurs and investors who are striving to develop substitutes for imported oil.
  • Congress should consider a variable tax that would be triggered when oil prices reach a certain threshold, for example $90 per barrel, so if oil prices slipped below $90 to $80 per barrel, a $10 tax would be imposed. If the price later rose above $90, the tax would disappear. Politically, this proposal seems unlikely during an era of low oil prices, but we should be prepared to take advantage of this opportunity when oil prices rise again.
  • International cooperation is crucial because a coordinated effort that reduces oil consumption in all the major oil importing countries will be the most effective way to improve oil security.

IV. POLICY FOR ENERGY TECHNOLOGY INNOVATION

  • Energy-technology innovation can both reduce the costs of energy technologies today, as well as improve the menu of options for the future. Current U.S. public and private energy research, development, and demonstration (RD&D) expenditures are small in relation to the economic, environmental, and security stakes, as well as in relation to the opportunities for U.S. businesses.
  • In order to move cleaner and more efficient energy technologies from the laboratory into the marketplace, "market-pull" policies are necessary complements to "technology-push" policies. There should be a much greater coordination between the push and pull policies — and subsequently between the different federal and state actors that play a role in making these policies — than has existed until now. In addition to improved coordination guided by an overall energy-technology innovation strategy, the link between government-funded basic science and applied R&D efforts, and the demonstration and early deployment innovation phases need careful attention.
  • International cooperation in energy RD&D is an essential component of a successful energy innovation strategy because most of the problems and opportunities of energy systems, such as climate change, nuclear proliferation, effects of global energy resource and energy technology markets, and the economic and security benefits of providing modern energy for the poorest one third of humanity, are inherently global, and because international cooperation allows for the sharing of costs and risks of the innovation process. It is necessary to increase funding for international cooperation in energy RD&D as well as to develop a coherent international cooperation strategy.

V. ELECTRICITY MARKET STRUCTURE AND INFRASTRUCTURE POLICY

  • A workable regulatory and market framework is essential if the United States is to have adequate electricity supply or to be able to increase the fraction of renewable electricity in the electricity mix.
  • Without the necessary infrastructure investment, energy policy cannot take effect, and without sound policy, the right infrastructure will not appear — a classic chicken-and-egg problem. Acting in time thus requires that policies are put into place now to support efficient investment in infrastructure so that all the other desirable energy policies can be implemented.
  • Improved scarcity pricing and a hybrid framework for transmission investment are two workable solutions that seem necessary to meet the needs for a long-term approach to infrastructure investment.

The views expressed are solely those of the authors and do not imply endorsement by Harvard University, the Kennedy School of Government, or the Belfer Center for Science and International Affairs.

 

For more information about this publication please contact the ETIP Coordinator at 617-496-5584.

For Academic Citation:

Document Length: 8 pp.

Bookmark and Share

SUBSCRIBE

Receive email updates on the most pressing topics in science and int'l affairs.

<em>International Security</em>

The winter 2013/14 issue of the quarterly journal International Security is now available!

Events Calendar

We host a busy schedule of events throughout the fall, winter and spring. Past guests include: UN Secretary-General Ban Ki-moon, former Vice President Al Gore, and former Russian President Mikhail Gorbachev.