The electricity industry is being challenged on the one hand by restructuring and on the other by the potential of new technologies. Restructuring is proceeding slowly and unevenly, with uncertain national leadership, disputes over the jurisdiction of the Federal Energy Regulatory Commission (FERC), continuing and increasing environmental concerns, and a plethora of state policies and regulations.
Topic:
Energy Policy, Industrial Policy, and Science and Technology
Richard L. Lawson, Donald L. Guertin, Shinji Fukukawa, and Kazuo Shimoda
Publication Date:
11-2000
Content Type:
Policy Brief
Institution:
Atlantic Council
Abstract:
Given the dramatic increases in economic growth, energy use and attendant environmental problems in Asia, it is timely for Japan and the United States to increase their bilateral cooperation and cooperation with other Asian countries in the energy field as an integral part of their efforts to help Asia achieve sustainable development. The magnitude of growth in Asia in energy use is well illustrated, for example, by a projected doubling in China from 1990 to 2020. Projections indicate energy demand in China could triple by 2050, relative to 1990. These increases are not only of great significance to individual Asian economies, but also globally, as projections indicate that most of the growth in energy demand in the next century will occur in Asia (and principally in China and India). Achievement of such growth in energy demand, to improve the living standards of the 3.3 billion Asians that now represent about half of the world's population, is essential from the viewpoint of equity, social development and the economic well-being of people throughout Asia.
Despite the end of the Cold War, nuclear weapons continue to pose the most devastating security threat to Americans. Although the risk of a nuclear war destroying civilization has virtually disappeared, the risk that a single nuclear weapon might be used to destroy a major city has increased, particularly given the erosion of control over nuclear material with the collapse of the Soviet Union. Nothing could be more central to international security than ensuring that the essential ingredients of nuclear weapons do not fall into the hands of terrorists or proliferant states. Effective controls over nuclear warheads and the nuclear materials needed to make them are essential to the future of the entire global effort to reduce nuclear arms and stem their spread. At the same time, ensuring protection of public health and the environment in the management of all nuclear materials—from nuclear weapons to nuclear wastes—remains a critical priority. Appropriate management of both safety and security worldwide will be essential to maintaining nuclear fission as an expandable option for supplying the world's greenhouse-constrained energy needs in the twenty-first century.
Topic:
Security, Energy Policy, Nuclear Weapons, and Science and Technology
Public projections by the International Energy Agency, the US Energy Information Administration and the European Commission suggest that, with present policies, world consumption of gas will roughly double by 2020, taking about 5% of the primary energy market from other fuels. About half this gain will be at the expense of more carbon-intensive fossil fuels, mainly coal, but the other half will replace carbon-free nuclear energy. The net effect on the growth of greenhouse gas emissions will therefore be small. For comparison, gas consumption increased in the past 20 years by almost 80%, at the expense of other fossil fuels. Half the increased gas demand is projected for developing countries, compared with 45% of the increase over the past 20 years and their present share of about a quarter of total world gas consumption.
Topic:
Economics, Emerging Markets, Energy Policy, and Environment
On the evening of March 28, 1979 America experienced the first, and worst, nuclear power plant accident in its history. The crisis began when a valve opened, unnoticed, allowing coolant water to escape from the plant's new Unit 2 reactor. Following a series of technical and human failures, temperatures within the unit rose to more than 5,000 degrees, causing the fueling core to begin melting. During the next tension-packed days, scientists scrambled to prevent a meltdown while public officials, including Governor Dick Thornburgh and President Jimmy Carter, attempted to calm public fears. In spite of these efforts, thousands of residents fled to emergency shelters or left the state, driven by rumors of an imminent CHINA SYNDROME. In the end, only one layer of the containment structure was compromised and the accident never reached the proportions of the 1986 Chernobyl disaster. The accident nonetheless resulted in the release of some radiation, the quantity and effects of which are still debated.
Donald L. Guertin, Richard E. Balzhiser, Christian Gobert, William J. Dirks, Joy C. Dunkerley, and Stephen P. Pettibone
Publication Date:
02-1999
Content Type:
Policy Brief
Institution:
Atlantic Council
Abstract:
Despite the recent global economic slowdown, the demand for energy services is bound to increase over the long term in order to provide improved living standards for growing populations, in particular in developing countries. In recognition of its unique characteristics, the demand for electricity will rise even faster than total energy. Several studies present scenarios that show a doubling of global installed capacity over the next twenty years.