Department of Energy

The Man Who Would Be King

Exelon Chairman, President, and CEO John W. Rowe, on the proposed merger that would create the largest utility in the United States.

Exelon CEO John W. Rowe would head the largest utility in the industry, if a proposed merger with PSEG goes through. By creating a $40 billion market-capitalization utility, the newly formed company would be 60 percent larger than its nearest market-cap peer, and would have total assets of approximately $79 billion, with almost $25 billion in annual revenues and $3.2 billion in annual net income.

A New Solid South

Where Entergy leads, will Wal-Mart follow?

Everyone is talking about Entergy's move to form a single-company RTO-lite across its service territory in Arkansas, Mississippi and Louisiana.

Guns, Butter, or Green?

Utilities will face stark tradeoffs in meeting the next round of emissions controls.

Some utility execs gasp at the shear breadth of environmental proposals being bandied about during the past few weeks. Even the environmentalists are calling "historical" the extent to which different kinds of emissions will be regulated.

Distributed Generation: Who Benefits?

<font color="red">Distributed Generation</font>

Distributed Generation

In the first of three articles, experts at Oak Ridge National Laboratory examine the technical obstacles, deployment, and economic issues surrounding distributed generation.

The existing electric power delivery system is a critical part of this country's economic and societal infrastructure, and proposals to increase the role of distributed energy resources (DER) within this system are welcomed by few in the utility industry.

The Global LNG Gamble

The Geopolitical Risks of LNG

The Geopolitical Risks of LNG

To many energy-industry analysts, 2005 is a make-or-break year for the U.S. gas market. If we don't have at least several liquefied natural gas (LNG) terminals in construction by the end of the year, the country arguably will face serious gas-supply shortages and price spikes beginning in about 2008.1

RPS: Should States Get Credit?

The risks in renewable portfolio standards.

State-mandated renewable portfolio standards are being adopted across the country to facilitate the development of renewable energy projects. Nineteen states have enacted renewable portfolio standards, but significant barriers remain to fulfill the potential of RPS. Will RPS actually result in a substantial amount of new project construction?

The Need for Nuclear Now

States will play a significant role in the resurgence of nuclear power plants in America.

At times, various conditions align and set the stage for achieving goals that may have appeared to be unreachable. Last summer, the Boston Red Sox were all but eliminated from contention, but then won an amazing stretch of baseball games that resulted in a World Series championship.

A similar scenario can be applied to the U.S. nuclear industry-producer of a steady, low-cost, environmentally important electricity source poised to thrive with the possibility of new plant construction in the not-so-distant future.

Greenhouse Gas Emissions: Changing U.S. Climate

The states are getting into the act on greenhouse emissions, and the power industry is getting more proactive. What policy measures are appropriate?

Proponents of mandatory carbon limits – though increasing in number – still constitute a minority within the utility industry. Most utilities prefer voluntary greenhouse-gas (GHG) emissions reductions, or take the view that CO2 should not be considered a pollutant at all.

Coal Gasification Gets Real

The technology works, but public policy will dictate its future.

The future of integrated gasification combined-cycle (IGCC) power plants depends on public support, but environmental and market factors are helping IGCC look like a winning technology for the future.

Reversing the Gas Crisis: The Methane Hydrate Solution

Commercialization of methane recovery from coastal deposits of methane hydrates could head off an impending gas shortage.

More than half of the Earth’s organic carbon is in the form of methane hydrates—also known as the ice that burns. U.S. potential is at least 100,000 Tcf., but commercial production has not been achieved.