16 Items

Book - Cambridge University Press

Transforming U.S. Energy Innovation

How much should the U.S. government invest on energy R&D, and where should those investments be focused? How can the government work with the private sector to accelerate energy innovation? This book addresses these and other important questions to meet the energy challenge with new analytical methods and data.

Nuclear Fuel Rod Assembly

NEAMS/DOE Photo

Journal Article - Environmental Science and Technology

Expert Judgments about RD&D and the Future of Nuclear Energy

| 2012

Probabilistic estimates of the cost and performance of future nuclear energy systems under different scenarios of government research, development, and demonstration (RD&D) spending were obtained from 30 U.S. and 30 European nuclear technology experts. The majority expected that such RD&D would have only a modest effect on cost, but would improve performance in other areas, such as safety, waste management, and uranium resource utilization. The U.S. and E.U. experts were in relative agreement regarding how government RD&D funds should be allocated, placing particular focus on very high temperature reactors, sodium-cooled fast reactors, fuels and materials, and fuel cycle technologies.

Report - Energy Technology Innovation Policy Project, Belfer Center

Transforming U.S. Energy Innovation

The United States and the world need a revolution in energy technology—a revolution that would improve the performance of our energy systems to face the challenges ahead. In an intensely competitive and interdependent global landscape, and in the face of large climate risks from ongoing U.S. reliance on a fossil-fuel based energy system, it is important to maintain and expand long-term investments in the energy future of the U.S. even at a time of budget stringency. It is equally necessary to think about how to improve the efficiency of those investments, through strengthening U.S. energy innovation institutions, providing expanded incentives for private-sector innovation, and seizing opportunities where international cooperation can accelerate innovation. The private sector role is key: in the United States the vast majority of the energy system is owned by private enterprises, whose innovation and technology deployment decisions drive much of the country's overall energy systems.

A 2011 Nissan Leaf electric vehicle displayed at Plug-in 2010, a plug-in hybrid and electric vehicles conference and exposition in San Jose, Calif., July 28, 2010. The first mass-market electric cars went on sale in December 2010.

AP Photo

Policy Brief - Energy Technology Innovation Policy Project, Belfer Center

Transforming U.S. Energy Innovation

The United States needs a revolution in energy technology innovation to meet the profound economic, environmental, and national security challenges that energy poses in the 21st century. Researchers at Harvard Kennedy School undertook a three-year project to develop actionable recommendations for transforming the U.S. energy innovation system. This research has led to five key recommendations for accelerating U.S. energy innovation.

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News - Energy Technology Innovation Policy Project, Belfer Center

Background: Transforming U.S. Energy Innovation Report

The report, Transforming U.S. Energy Innovation, released on Nov. 22, 2011,is the result of a three-year energy research, development, demonstration, and deployment (ERD3) project of the Energy Technology Innovation Policy (ETIP) research group at Harvard Kennedy School's Belfer Center for Science and International Affairs. The ERD3 project was funded by a grant from the Doris Duke Charitable Foundation to produce and promote a comprehensive set of recommendations to help the U.S. administration accelerate the development and deployment of low-carbon energy technologies.

Report

International Workshop on Research, Development, and Demonstration to Enhance the Role of Nuclear Energy in Meeting Climate and Energy Challenges

| April 2011

Dramatic growth in nuclear energy would be required for nuclear power to provide a significant part of the carbon-free energy the world is likely to need in the 21st century, or a major part in meeting other energy challenges. This would require increased support from governments, utilities, and publics around the world. Achieving that support is likely to require improved economics and major progress toward resolving issues of nuclear safety, proliferation-resistance, and nuclear waste management. This is likely to require both research, development, and demonstration (RD&D) of improved technologies and new policy approaches.

The world's first grid-scale, flywheel-based energy storage plant is being built in Stephentown, N.Y. The plant is being built by Beacon Power Corporation (NASDAQ: BCON) & is supported by a $43 million loan guarantee from DOE.

Beacon Power Corp. Photo

Report - Energy Technology Innovation Policy Project, Belfer Center

Transforming the Energy Economy: Options for Accelerating the Commercialization of Advanced Energy Technologies

"The focus of the workshop was on the demonstration stage of the technology innovation cycle. Current policies do not adequately address the private sector’s inability to overcome the demonstration "valley of death" for new energy technologies. Investors and financiers fear that the technology and operational risks at this stage of the cycle remain too high to justify the level of investment to build a commercial-sized facility."

Conceptual drawing of a single B&W mPower™ nuclear reactor module inside its own independent, underground containment.

Babcock & Wilcox Photo

Report - Energy Technology Innovation Policy Project, Belfer Center

Tranforming the Energy Economy: Options for Accelerating the Commercialization of Advanced Energy Technologies—Framing Statement

"There is broad political consensus that the current energy system in the United States is unable to meet the nation's future energy needs, from the security, environment, and economic perspectives. New energy technologies are required to increase the availability of domestic energy supplies, to reduce the negative environmental impacts of our energy system, to improve the reliability of current energy infrastructure (e.g., smart grid, energy storage), and to increase energy efficiency throughout the economy."