13 Items

U.S. Secretary of Energy Ernest Moniz and Head of the Iranian Atomic Energy Organization Ali Akbar Salehi, left, meet at an hotel in Vienna, July 9, 2015

AP

Analysis & Opinions - Scientific American

How International Cooperation in Research Advances Both Science and Diplomacy

| Apr. 27, 2017

"The partial budget blueprint released by the White House recently will put U.S. leadership in science and technology at serious risk if Congress goes along. In addition to the obvious damage that would result from the proposed $5.8 billion cut at NIH, the $2 billion cut in applied energy R&D, the $900 million cut in DOE’s Office of Science, the abolition of ARPA-E, and the research cuts at NOAA and EPA, a less immediately obvious potential casualty would be U.S. scientific cooperation with a wide variety of other countries on a wide variety of topics."

Report - Managing the Atom Project, Belfer Center

Plutonium Mountain: Inside the 17-Year Mission to Secure a Legacy of Soviet Nuclear Testing

| August 15, 2013

The Belfer Center’s Eben Harrell and Pulitzer Prize-winning author David E. Hoffman for the first time report the details of one of the largest nuclear security operations of the post-Cold War years — a  secret 17-year, $150 million operation to secure plutonium in the tunnels of Degelen Mountain.

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.

President Barack Obama shares the podium with MIT's Susan Hockfield and Paul Holland of Serious Materials during the President's remarks on investments in clean energy and new technology, March 23, 2009, in the Eisenhower Executive Office Building.

White House Photo

Journal Article - Wiley Interdisciplinary Reviews: Climate Change

Trends in Investments in Global Energy Research, Development, and Demonstration

| May/June 2011

Recent national trends in investments in global energy research, development, and demonstration (RD&D) are inconsistent around the world. Public RD&D investments in energy are the metric most commonly used in international comparative assessments of energy-technology innovation, and the metric employed in this article. Overall, the data indicate that International Energy Agency (IEA) member country government investments have been volatile: they peaked in the late 1970s, declined during the subsequent two decades, bottomed out in 1997, and then began to gradually grow again during the 2000s.

- Belfer Center for Science and International Affairs, Harvard Kennedy School Quarterly Journal: International Security

Belfer Center Newsletter Spring 2011

| Spring 2011

The Spring 2011 issue of the Belfer Center newsletter features recent and upcoming activities, research, and analysis by members of the Center community on critical global issues. This issue highlights the Belfer Center’s continuing efforts to build bridges between the United States and Russia to prevent nuclear catastrophe – an effort that began in the 1950s. This issue also features three new books by Center faculty that sharpen global debate on critical issues: God’s Century, by Monica Duffy Toft, The New Harvest by Calestous Juma, and The Future of Power, by Joseph S. Nye.

Visitors look at a Intelligent Energy hydrogen fuel cell motorcycle at the 10th Auto Expo in New Delhi, India, Jan. 6, 2010.

AP Photo

Policy Brief - Energy Technology Innovation Policy Project, Belfer Center

Energy Innovation Policy in Major Emerging Countries

New Harvard Kennedy School research finds that energy research, development, and demonstration (ERD&D) funding by governments and 100 percent government-owned enterprises in six major emerging economies appears larger than government spending on ERD&D in most industrialized countries combined. That makes the six so-called BRIMCS countries—Brazil, Russia, India, Mexico, China, and South Africa—major players in the development of new energy technologies. It also suggests there could be opportunities for cooperation on energy technology development among countries.

Windmills generating electricity for South Africa's electric company Eskom seen near Brackenfell on the outskirts of Cape Town, South Africa,  Jan 29, 2008.

AP Photo

Discussion Paper - Energy Technology Innovation Policy Project, Belfer Center

Governmental Energy Innovation Investments, Policies and Institutions in the Major Emerging Economies: Brazil, Russia, India, Mexico, China, and South Africa

Over the past decade, countries with emerging economies like Brazil, Russia, India, Mexico, China, and South Africa have become important global players in political and economic domains. In 2007, these six countries consumed and produced more than a third of the world's energy and emitted about 35 percent of total greenhouse-gas (GHG) emissions. The changing global energy landscape has important implications for energy technology innovation (ETI) nationally and internationally. However, there is limited information available about the investments and initiatives that are taking place by the national governments within these countries. This paper presents the information available on energy RD&D investments in the emerging economies. 

Report - International Panel on Fissile Materials

The Uncertain Future of Nuclear Energy

    Editor:
  • Frank N. von Hippel
    Authors:
  • Anatoli Diakov
  • Ming Ding
  • Tadahiro Katsuta
  • Charles McCombie
  • M.V. Ramana
  • Tatsujiro Suzuki
  • Susan Voss
  • Suyuan Yu
| September 2010

In the 1970s, nuclear-power boosters expected that by now nuclear power would produce perhaps 80 to 90 percent of all electrical energy globally. Today, the official high-growth projection of the Organization for Economic Co‑operation and Developments (OECD) Nuclear Energy Agency (NEA) estimates that nuclear power plants will generate about 20 percent of all electrical energy in 2050. Thus, nuclear power could make a significant contribution to the global electricity supply. Or it could be phased out — especially if there is another accidental or a terrorist-caused Chernobyl-scale release of radioactivity. If the spread of nuclear energy cannot be decoupled from the spread of nuclear weapons, it should be phased out.