Showing posts with label energy. Show all posts
Showing posts with label energy. Show all posts

Jul 5, 2010

Oil Companies Fueling Nuclear Proliferation in Burma Complicit in Targeted Killings and Forced Labor | EarthRights International

ERI has been documenting earth rights abuses along the Yadana Pipeline since 1994. Our latest reports were published in September, 2009.


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EarthRights International released an explosive new report Energy Insecurity: How Total, Chevron, and PTTEP Contribute to Human Rights Violations, Financial Secrecy, and Nuclear Proliferation in Burma (Myanmar) on July 5, 2010 in Paris. The report describes how the oil companies Total (France), Chevron (US), and PTTEP (Thailand) have generated over US $9 billion dollars in military-ruled Burma (Myanmar) since 1998, making their Yadana Natural Gas Project the single largest source of revenue for the country’s notoriously repressive dictatorship.

Burma Protest against Total Oil at French Emba...Image by totaloutnow via Flickr

The report documents how over half the total project revenue — nearly $5 billion — went directly to the Burmese military junta, and examines recent refusals from the Yadana companies to disclose their payments to the Burmese military regime. The report alleges the funds have enabled the country’s autocratic junta to maintain power and pursue an expensive, illegal nuclear weapons program while participating in illicit weapons trade in collaboration with North Korea, threatening the domestic and regional security balance.

In the report, EarthRights International further asserts that gas revenues are stored in private offshore bank accounts, where the money “could be used for many purposes, including the illicit acquisition of nuclear technology and ballistic weaponry.” This follows a report by ERI in 2009 that exposed two offshore banks in Singapore as repositories of the Burmese generals’ ill-gotten gains from foreign investment including the gas project. Both named banks – the Overseas Chinese Banking Corporation (OCBC) and DBS Group – previously denied the allegations.

The report also reveals on-going, serious human rights abuses associated with the Yadana project, including the recent extra-judicial killing of two ethnic Mon villagers in the pipeline area confirmed by EarthRights International in February of this year. The report goes on to analyzes how both Total and Chevron remain liable for these and other serious human rights abuse in their home countries.

EarthRights International previously sued Unocal Corporation (now Chevron) for complicity in murder, rape, torture, and forced labor in connection to the same gas pipeline. In 2005, Unocal paid Burmese plaintiffs a confidential settlement before the company was acquired by Chevron.

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May 31, 2010

Oil could spew until August, officials say

Video
BP's 'top kill' operation has failed to plug the oil leak in the Gulf. The company is now planning to cut off the damaged riser from which the oil is leaking and cap it with a containment valve. (May 29)

By Steven Mufson and David S. Hilzenrath
Monday, May 31, 2010; A01

As BP readied its latest fallback plan to stop oil gushing from one of its wells in the Gulf of Mexico, the Obama administration and the company warned that the crude could continue flowing until August, compounding threats to coastal wetlands, fisheries and beaches.

White House energy and climate adviser Carol M. Browner said Sunday that the oil spill was "probably the biggest environmental disaster we've ever faced in this country" and that "we are prepared for the worst." On the CBS show "Face the Nation," she said that the "American people need to know that it is possible we will have oil leaking from this well until August when the relief wells will be finished."

Those two wells, which BP began drilling early this month, are expected to intersect the damaged one and seal it near the reservoir far below the seafloor. The first has reached 7,000 feet below the seafloor, and the second has reached 3,500 feet below the floor, but progress gets slower the deeper the wells go. With the arrival of hurricane season Tuesday, the drilling could be slowed if the rigs need to be evacuated during storms.

The grim assessment came in the wake of the failure last week of BP's "top kill" effort to stop the flow of oil from the damaged well by shooting heavy drilling mud into the hole.

BP managing director Bob Dudley, who also made the rounds of Sunday-morning shows, said on ABC's "This Week" that "the next step is to make sure that we minimize the oil and pollution going into the gulf." He added: "The main thing now is to contain it."

BP plans to saw off a bent and broken pipe attached to the five-story tall blowout preventer that sits over the well. The company will then lower a new apparatus that would funnel oil and gas to vessels on the sea surface. But until the new apparatus is in place, cutting the riser pipe will temporarily increase the flow of oil into the sea by 10 to 20 percent, because the procedure will remove a section of pipe where a kink is limiting the flow, Browner said.

4th fallback plan so far

Dudley expressed optimism about the latest fallback plan -- the fourth so far -- saying on CBS, "With this, we think we can contain the majority of the oil and gas."

BP and the Obama administration were also trying to contain the rising tide of public frustration as the oil spill comes to the end of its messy sixth week.

Drilling experts said they feared that BP's effort last week to stop the flow of oil and gas with heavy drilling mud might have done further damage to the well and the blowout preventer, possibly complicating the next effort to capture the oil and gas and bring them to surface vessels.

Some drilling experts said that the "top kill" effort failed over the weekend because the force of the oil and gas pushing up from the reservoir 13,000 feet below the seafloor was so great that it had shoved most of the drilling mud through the blowout preventer and into the sea.

Tadeusz W. Patzek, chairman of petroleum and geosystems engineering at the University of Texas at Austin, said it was the "equivalent of six or seven fire hoses blasting oil and gas up, while two fire hoses were used to blast the drilling mud down. They never stood much of a chance."

Sources at two companies involved with the well said that BP also discovered new damage inside the well below the seafloor and that, as a result, some of the drilling mud that was successfully forced into the well was going off to the side into rock formations.

"We discovered things that were broken in the sub-surface," said a BP official who spoke on the condition of anonymity. He said that mud was making it "out to the side, into the formation." The official said he could not describe what was damaged in the well.

Documents released Sunday by the House Committee on Energy and Commerce point to problems BP was having drilling the Macondo well, although some of them date to 2009 when BP was using a different rig with different equipment. Some documents describe previously reported trouble BP was having controlling the well. The company later drilled a new well section, costing it more than $20 million.

The longer oil seeps out of the ground, the more politics are seeping into the public debate as people question why the oil industry and the government were so ill-prepared.

In an echo of the counting of days during the politically debilitating Iranian hostage crisis during President Jimmy Carter's administration, Jake Tapper on ABC introduced his program as "Day 41 of the Gulf oil spill."

Sen. David Vitter (R-La.) said BP "made enormous mistakes and probably cut corners." Appearing on CNN's "State of the Union," Vitter also said the federal government has failed in its response to the crisis, "particularly with the effort to protect our coast and our marsh."

Last week, Minnesota Gov. Tim Pawlenty (R) questioned the administration's reliance on BP's estimates of the volume of oil, which has been flowing into the gulf since a blowout set fire to the Deepwater Horizon drilling rig, which sank, killing 11 people.

Browner conceded on CBS that "BP has a financial interest in these numbers" on the volume of the leak. "They will pay penalties at the end of the day, a per-barrel, per-day penalty," she said. But she said the latest, increased estimates of oil flowing from the well were produced by an independent government review panel.

"At the end of the day, the government tells BP what to do, and at the end of the day, we will hold BP accountable for all of this," she said.

She also sought to portray the administration as in charge and engaged. She said an administration "brain trust" led by Energy Secretary Steven Chu urged BP to stop adding pressure to the well through the top-kill maneuver because "things could happen that would make the situation worse."

But she stopped short on CBS of saying that Chu ordered an end to the top-kill maneuver.

Pressed to give an example of administration influence, Browner cited the drilling of two relief wells instead of one. A BP official said that it was "not unusual" to drill a second relief well and that it "very likely" would have been done anyway.

But Browner said that "BP said we're going to drill one relief well. These are expensive wells for them to drill. We said that's not good enough. You're going to drill a second one."

BP has said it would take responsibility for damage from the spill, but BP chief executive Tony Hayward on Sunday disputed claims by scientists that large undersea plumes have been set adrift by the gulf oil spill.

The Associated Press reported that during a tour of a company staging area for cleanup workers, Hayward said BP's samples showed "no evidence" that oil was suspended in large masses beneath the surface.

"The oil is on the surface," Hayward said. "Oil has a specific gravity that's about half that of water. It wants to get to the surface because of the difference in specific gravity."

Scientists from several universities have reported plumes of what appears to be oil suspended in clouds stretching for miles and reaching hundreds of feet beneath the gulf's surface.


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Nov 20, 2009

Letter From China - Going Green in China, Case by Case - NYTimes.com

An SVG map of China with the Inner Mongolia au...Image via Wikipedia

ORDOS REGION, CHINA — This region of Inner Mongolia, home to one of the biggest deserts in China, is being transformed into the site of a pine forest that will stretch across its low hills as far as the eye can see.

The local government’s tree-planting program is part of a plan to “assume our green responsibilities and build a civilized way of life,” Du Zi, the local Communist Party secretary, told energy executives at a conference last month in Beijing.

Also on tap: the world’s biggest plant to convert sunlight to electricity, built by First Solar of Tempe, Arizona, part of a 12-gigawatt wind, solar and biomass power-generating zone. And General Electric is helping the land of Genghis Khan cut wastewater emissions into the Yellow River, which borders the region.

“This shows what local leadership can do in China these days,” said Kenneth Lieberthal, head of the Brookings Institution’s China Center in Washington, which played host to Mr. Du and other provincial officials at the Oct. 21-23 conference. “They’ve gone flat-out.”

Regions are vying to outdo one another in a race to develop alternative-energy sources and reduce pollution. Gansu Province in western China is building a wind farm equivalent to about 20 nuclear power facilities. In the east, Zhejiang Province is installing solar panels on roofs. Beijing bans motorcycles from the city center in favor of electric bikes.

Their efforts demonstrate that China, the world’s largest producer of the emissions blamed for global warming, will continue to accelerate development of energy from renewable sources, even as it resists binding targets for reducing carbon emissions ahead of a U.N. summit meeting in Copenhagen next month aimed at forging a new treaty to curb greenhouse gases.

Some regional officials now see environmental projects as a way to bolster their economies after decades when companies were allowed to poison the air and water without penalties while expanding output.

And First Solar surged $12.94, or 11 percent, to close at $134.41 on Nasdaq on Sept. 8, the day Wu Bangguo, China’s highest-ranking leader after President Hu Jintao, visited the company’s Tempe headquarters. The next day the company made the Ordos agreement public.

Mr. Du, 54, cites a list of achievements in Ordos: increasing the portion covered by vegetation to 81 percent last year from 20 percent in 2000, closing 1,200 polluting factories and installing 100 megawatts of wind capacity.

The 20-gigawatt, 120 billion yuan, or $17.6 billion, Gansu project, set for completion in 2020, would be the biggest wind farm in the world. The Roscoe Wind Complex in Texas, currently the largest, generates less than one gigawatt — a billion watts — of electricity.

China is under pressure from the international community to accelerate its push toward alternative energy. It has refused to accept binding restrictions on carbon pollution, saying controls will crimp economic growth. Instead, China has pledged to cut emissions voluntarily in proportion to gross domestic product, without committing to include the policy in a global agreement.

Mr. Hu called climate change “a grave challenge to mankind” and pledged to work for “positive outcomes” in Copenhagen during a speech Sunday at the Asia Pacific Economic Cooperation forum in Singapore.

Collaboration between the United States and China on alternative energy was on the agenda for the talks this week in Beijing between Mr. Hu and President Barack Obama. Such projects are already under way in Ordos, Mr. Du says.

General Electric, based in Connecticut, is working with Elion Chemical Industry of Ordos City to cut its wastewater discharge into the Yellow River. The project is slated to be completed next year, said G.E., the biggest maker of power-plant equipment in the world.

First Solar, the largest U.S. producer of solar modules, is looking for more business following the planned groundbreaking next year for the new photovoltaic facility.

“We hope this will be the first of many projects in China,” said Brandon Mitchener, a company spokesman based in Brussels. “China has the potential to become one of, if not the, largest solar market in the world.”

The Bloomberg World Energy-Alternate Sources Index has risen 21 percent in the last year as of Nov. 16, compared with a 27 percent rise in the Standard and Poor’s 500 Index.

Ordos, among the nation’s wealthiest areas, has the means to push big, government-backed projects. It claims one-sixth of China’s proven coal reserves and one-third of its natural gas, giving the region of 1.6 million people a per capita income of 102,128 yuan, the third highest of any Chinese municipality.

Mr. Hu is signaling that he is serious about changing China’s energy mix. The goal is to produce 15 percent from renewable sources by 2020, according to a 2006 energy law.

China will see an even greater push by provinces and cities if the Communist Party begins to reward and promote officials on the basis of their ability to promote alternative energy, says John Thornton, a former co-president of Goldman Sachs who is now chairman of Brookings and was co-host of the October conference in Beijing.

“China is really quite an impressive, well-oiled machine in its ability to do large-scale things decisively,” Mr. Thornton said.

Michael Forsythe is a columnist with Bloomberg News.

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Nov 11, 2009

Brazil Looks for Answers After Huge Blackout - NYTimes.com

The Municipality of São PauloImage via Wikipedia

RIO DE JANEIRO — Officials were searching for answers early Wednesday after a power failure blacked out large swaths of Brazil and Paraguay for more than two hours late Tuesday.

The failure of three transmission lines at Itaipu, the world’s largest operating hydroelectric plant, created a domino effect that cut energy to 18 of 26 states in Brazil, including the country’s two largest cities, São Paulo and Rio de Janeiro, and affected an estimated 60 million people. Airports in several cities were briefly shut down, and passengers had to be pulled from subway cars in São Paulo when the system lost power.

Electricity system operators were quick to dismiss the possibility of sabotage at the Itaipu dam and assigned initial blame to an unexplained atmospheric event possibly exacerbated by heavy rains. It was the first time that Itaipu had failed so completely in its 25 years of operation, energy officials said late Tuesday.

Energy experts in both countries said Wednesday that the major blackout was a cautionary sign of the dangers of interconnection and showed the vulnerability in Brazil’s transmission system.

“The interconnection system is necessary in a country that uses a lot of hydroelectric plants, but it needs to better managed,” said Luiz Pinguelli Rosa, a physics professor at the Federal University of Rio, speaking on television.

The power failure recalled the blackout of August 2003 in the northeastern United States, the country’s most widespread electrical blackout in history, which affected 10 million people in southeastern Canada and 45 million people in eight American states.

For Brazilians, Tuesday night’s blackout brought back painful memories of energy shortages in 2001, which led the country to step up its push for more natural gas and hydroelectric power generation. The president at the time, Fernando Henrique Cardoso, instituted nine months of energy rationing, and the country’s perceived energy fallibility was blamed for a considerable decline in Mr. Cardoso’s popularity as he ended his second term in office.

But since then Brazil has diversified its energy supply and has avoided widespread shortages.

Tuesday night’s blackout hit at 10:13 p.m. local time. It affected the southeast of Brazil most severely, leaving São Paulo, Rio de Janeiro and Espirito Santo completely without electricity. Blackouts also swept through the interior of Rio Grande do Sul, Santa Catarina, Mato Grosso do Sul, Mato Grosso, the interior or Bahia and parts of Pernambuco, energy officials said.

By 12:30 a.m. power had been restored to most areas.

Itaipu, which straddles the border between Brazil and Paraguay along the Paraná River, supplies about 20 percent of Brazil’s power and 90 percent of the energy consumed by Paraguay.

As of 7 a.m. Wednesday, 18 of the 20 generators at Itaipu were producing energy for Brazil and Paraguay, according to Itaipu’s Web site.
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Oct 25, 2009

Letter from Dijon: In a place known for wine and mustard, Elithis Tower shows fine taste for energy conservation - washingtonpost.com

Les principaux vignobles de FranceImage via Wikipedia

By Edward Cody
Sunday, October 25, 2009

DIJON, FRANCE -- The Elithis Tower, its builder says, is an office building like no other, an oval-shaped showcase for how to help save the planet on a reasonable budget.

According to Thierry Bièvre, the 10-story tower in the eastern city of Dijon has the potential to become the world's first commercially priced office building that produces more energy than it consumes. Already, he boasts, it is the most "environmentally sober" such tower in operation, using an average of 20 kilowatts per square meter, or 11 square feet, a year -- 400 is the average in France -- to heat, cool, light and otherwise occupy its 54,000 square feet of office space.

Getting the rest of the way, from 20 to zero and beyond, Bièvre adds, will entail cooperation from the people who work in the building -- turning off their computers at night, using low-consumption bulbs at their desks or walking down the stairs at quitting time rather than automatically taking the elevator.

"To get the best results, you have to change your behavior," he said, shortly before heading from his ninth-floor office down the brightly painted staircase to where his hybrid car awaited outside.

Bièvre, 49, who heads the Elithis engineering firm, said in an interview that he did not start out as an environmental missionary, but as a businessman who wanted to make money. The tower's main purpose, he specified, is to make a profit from rents and sales and, over time, attract clients from around France and abroad to hire his firm to build more such energy-saving towers.

With that in mind, the building was designed and constructed over three years for about $10 million, which Bièvre said was a standard commercial price for such structures. The difference, he said, was that his team of architects and engineers focused relentlessly on energy conservation, making it a priority in every decision and employing every known trick to cut back consumption of electricity, fuel and water.

The roof was covered with solar panels, and the tower's south side was shrouded in a "light shield," a grille that controls heat-producing sunshine without cutting off the natural light flowing in through windows that make up 75 percent of the building's surface. Water, collected from rain, turns off automatically in the lavatories when users walk away, as do the overhead lamps.

Carefully controlled ventilation means that 85 percent of the time there is no need for air conditioning to maintain an average of 68 degrees. At above 39 degrees outside, the building gets all the heat it needs from sunshine. When it is needed, heating comes from a biomass system that provides enough for a year with the equivalent of 86 square feet of wood.

"This building says who we are, and with this we want to develop our business," said Bièvre, a native of the celebrated Burgundy wine country that surrounds Dijon, about 190 miles southeast of Paris. "We don't just make mustard," he added, referring to the city's fame as a producer of the spicy condiment.

Dijon has long been known as a capital of conservation -- mostly of the kind of ageless traditions that make Burgundy's wine great and that local mustard a world favorite. Until only eight years ago, for instance, cafes here were barred from opening terraces because the then-mayor, Robert Poujade, a Gaullist conservative who ran the city for 30 years, thought customers might get rowdy and disturb the cosseted tranquillity of nearby residents.

But in 2001, Poujade was succeeded by François Rebsamen, a Socialist and champion of ecology, who has set out to make the city a center for a different kind of conservation. The new mayor welcomed Bièvre's crusade.

"This building is an example of what the world will have to do in the future," Rebsamen said in a conversation with foreign reporters. "We encouraged him. We helped him. And now I am happy to see that people are coming from around the world to visit it."

Rebsamen said some of the techniques fine-tuned by Bièvre will be put into use in "eco-neighborhoods" that the city and its suburbs plan to build in the next several years. The neighborhoods will have low-energy buildings throughout, he said, and will be serviced by public transportation with the goal of making cars unnecessary for people who live and work there.

In general, France has been slow to alter its energy consumption habits, particularly compared with Germany or the Scandinavian countries. But despite its late start, it has wakened in recent years to the appeal of conservation, turning it into a political issue that pays. President Nicolas Sarkozy, a conservative, has made the environment a major theme of his administration.

Sarkozy pushed hard last winter to get the European Union to adopt ambitious goals for the reduction of greenhouse gases and has prodded the Obama administration to do the same at the environmental summit scheduled for December in Copenhagen. His enthusiasm for the cause redoubled in June, when France's Green parties scored well in European Parliament elections, creating an opening for Sarkozy to attract votes from the Socialists, his main opposition.

Bièvre, however, emphasized that individual decisions, multiplied across society, remain the most effective way to reduce human pressure on the environment. Driving his hybrid the same way he used to drive his high-powered German cars, he found, meant he still used a lot of gasoline. To get the best results, he recalled, he had to train himself to accelerate slowly and hold down the speed.

"It's the little actions that will change things," he said.

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Oct 24, 2009

China steps up, slowly but surely, to address emissions issue - washingtonpost.com

This figure shows the relative fraction of man...Image via Wikipedia

Driven by climate concerns and a desire to modernize its economy, Beijing has begun addressing the emissions issue

By Steven Mufson
Saturday, October 24, 2009

LANGFANG, CHINA -- At a gleaming new research center outside Beijing, about 250 engineers and researchers from the ENN Group are trying to figure out how to make energy use less damaging to the world's climate.

In a large greenhouse, hundreds of tubes hold strains of algae being tested for how much carbon dioxide they can suck from the air. Outside, half a dozen brands of solar panels are being matched for performance against the company's own. Next door, large blocks of earth, carved out of Inner Mongolia, have been trucked in to test for new methods of gasifying coal underground.

The private company is part of a growing drive by China to work out a way to check the rapid growth of its massive emissions of greenhouse gases. Seeking to transform an economy heavily dependent upon coal for electric power and industrial production, the government has closed down old cement and coal plants, subsidized row upon row of new wind turbines and taken other measures.

Among members of the U.S. Congress and negotiators preparing for a December climate summit in Copenhagen, China is often considered an obstacle because it has not committed to imposing a ceiling on its emissions of the gases that most scientists blame for climate change. China produces the most carbon emissions in the world, and the output is likely to continue growing for two decades. When President Hu Jintao pledged at the United Nations last month to lower the country's carbon intensity "by a notable margin," that was regarded as a step forward.

Yet, in visible and less visible ways, China has begun to address its emissions problem. The steps are driven in part by the parochial concern that climate change could worsen the flooding that plagues the country's low-lying coastal regions, including Shanghai, and cause water shortages in western areas as glaciers in the Himalayas melt away.

But China has also begun to see energy efficiency and renewable energy as ingredients for the type of modern economy it wants to build, in part because it would make the nation's energy sources more secure.

"We think this is a new business for us, not a burden," said Gan Zhongxue, who left a job as a top U.S. scientist for the giant ABB Group to head up research and development at ENN, the Langfang company that made its fortune as the dominant natural gas distributor in 80 Chinese cities.

In the right direction

For China, the challenge is immense. On average, a Chinese person emits one-fifth as much greenhouse gas as an American; an overwhelming majority of Chinese do not own cars; and half the population in China still lacks access to winter heating. But its economy is growing so quickly and prosperity is spreading so rapidly that China's demand for energy is destined to increase even if it uses less for every dollar of economic output. The State Grid's economic research institute forecasts an 85 percent increase in electricity demand by 2020.

Still, China has taken significant steps in the past five years. It removed subsidies for motor fuel, which now costs more than it does in the United States; its fuel-efficiency standard for new urban vehicles is 36.7 miles per gallon, a level the United States will not reach for seven years. It has set high efficiency standards for new coal plants; the United States has none. It has set new energy-efficiency standards for buildings. It has targeted its 1,000 top emitters of greenhouse gases to boost energy efficiency by 20 percent. And it has shut down many older, inefficient industrial boilers and power plants.

"Regardless of whether the United States passes its own legislation, China will take positive measures because this is a requirement for our own economy to conserve resources," said Xie Zhenhua, vice chairman of the National Development and Reform Commission and China's point man in international climate talks. If China mimics the West's wasteful modernization path, he said, the environment would not be livable.

In climate talks, China has argued that industrialized nations should do more to slow the pace of climate change compared with developing nations, where raising living standards is the priority. China has also noted the cumulative emissions of advanced economies since the Industrial Revolution. And some Chinese commentators have accused Western nations of using a carbon cap as a way to contain China's advancement.

Nonetheless, the government has set ambitious targets for renewable energy, which is supposed to account for 15 percent of the country's fuel mix by 2020, and for tree planting, to boost forest cover to 20 percent of China's land mass by the end of next year. China plans to quadruple its nuclear power; by the end of next year, it may have 18 nuclear energy plants under construction, half of the world's total under construction.

Smaller details are getting attention, too. Xie said forcing supermarkets to charge for plastic bags reduced the use of the bags by two-thirds, saving the equivalent of about 30,000 barrels of oil a day.

Last week, the Paris-based International Energy Agency said the efforts are starting to pay off. The agency lowered its estimate of future Chinese greenhouse gas emissions.

Yet, for all of China's efforts, its greenhouse gas emissions are likely to head upward.

Challenges remain

Hitting its renewable and nuclear energy targets will be challenging. The explosion in the number of wind turbines has created a transmission bottleneck; many turbines stand idle in Inner Mongolia and northeast China, awaiting new transmission lines and connections with the main power grids. The country lacks the skilled manpower to effectively construct, operate or regulate nuclear power stations. Key components might be in short supply, too.

All that contributes to China's continued reliance on coal -- and its reluctance to guarantee a ceiling on its emissions at the Copenhagen summit.

Another problem for China is energy inefficiency in buildings. Electricity and gas used by buildings account for a third of the country's emissions and 7 percent of the world's. Over the next decade, China is expected to add commercial real estate space far in excess of the existing commercial space in the United States.

China has passed new requirements, but enforcing them is difficult. Only 10 buildings have applied for recognition under a two-year-old green-building rating system, though more than 200 buildings have applied for certification under the U.S.-based LEED standards for energy efficiency, said David Hathaway, managing director of the consulting firm ICF International.

Hathaway said U.S. agencies and nongovernmental organizations are encouraging China's biggest property developers to adopt tough standards, and higher Chinese standards for appliances are helping. He said his firm had helped Jin Mao Tower in Beijing, the capital, shave 20 percent off its energy use.

In the United States, China's drive to rein in its carbon emissions has prompted some people to switch from worrying about "the China threat" to the global climate to worrying about the threat of China soon seizing the lead in clean-energy technology. Many people cite this new threat in order to spur U.S. climate efforts as well as bilateral cooperation.

"If they invest in 21st-century technologies and we invest in 20th-century technologies, they will win," said David Sandalow, assistant secretary for policy and international affairs at the Energy Department, who recently visited Beijing to explore areas for agreement during President Obama's trip here next month.

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Oct 23, 2009

Pushing for Energy Legislation, Obama Takes On Critics - NYTimes.com

Cool the Planet, Save the ArcticImage by congressman_honda via Flickr

BOSTON — President Obama, taking aim at business interests that have lobbied against an energy and climate bill moving through Congress, called on legislators Friday to rally around the push toward greater use of renewable energy.

In a wide-ranging speech on energy and the environment at the Massachusetts Institute of Technology, Mr. Obama called for passage of legislation that would make “the best use of resources we have in abundance, through clean coal technology, safe nuclear power, sustainably grown biofuels and energy we harness from wind, waves and sun.”

At the same time, Mr. Obama chided critics of the proposed legislation.

“There are those who will suggest that moving toward clean energy will destroy our economy when it’s the system we currently have that endangers our prosperity and prevents us from creating millions of new jobs,” Mr. Obama said, an apparent reference to the Chamber of Commerce and the National Association of Manufacturers.

Both organizations oppose the proposal moving through Congress to cap the emissions of greenhouse gases and allow companies to buy and sell permits to pollute. That approach, known as cap and trade, is meant to guarantee that emissions will decline, while providing market incentives for companies to invest in the most cost-effective technologies.

The legislation “provides the largest single boost in scientific research in history,” Mr. Obama said.

“The closer we get, the harder the opposition will fight and the more we’ll hear from those whose interest or ideology runs counter to action,” he added.

Mr. Obama made his remarks after touring a research laboratory at M.I.T. that has been developing what the White House described as “cutting edge clean energy technology.” He checked out a quantum dot lighting project involving a new kind of light-emitting diode, or LED, that gives off whiter light at lower energy cost and could replace existing light bulbs or fluorescent lights.

“There is also another myth we must dispel,” Mr. Obama said in his speech, “and it is one far more dangerous than any attack made by those who wish to stand in the way of progress — and that’s the idea that there is little or nothing we can do. That is the pessimistic notion that our politics are too broken and our people too unwilling to make hard choices. Implicit in this argument is the sense that we’ve lost something important — that fighting American spirit, that willingness to tackle hard challenges and the determination to see those challenges to their end.”

Legislation addressing energy and the related problem of climate change from fossil-fuel emissions faces significant challenges in Congress, where some Democrats remain worried about lost jobs and rising energy costs in the parts of the country most heavily dependent on coal and manufacturing. From the outset, the bill’s proponents have sought to make the case that it will create high-tech jobs and save money on energy costs in the long run.

The Senate’s Environment and Public Works Committee will begin hearings next Tuesday on the climate change and energy bill introduced last month by Senator John Kerry of Massachusetts — who hitched a ride home to Boston with Mr. Obama aboard Air Force One — and Senator Barbara Boxer of California. Mr. Obama’s speech appeared timed to give the legislation a strong lift-off.

But the timing on any committee action, let alone passage by the full Senate, is highly uncertain and depends not only on the environment committee but also on action by several other Senate committees, not all of them as friendly toward strict caps on emissions. The White House has said it does not expect final Senate action before next year, and certainly not before the big climate change summit in Copenhagen next month.

Mr. Obama’s trip to New England will also include campaign fund-raisers later Friday for Gov. Deval Patrick of Massachusetts, and a stop later in Stamford, Conn., to stump for Senator Christopher J. Dodd.
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Oct 12, 2009

Betting Big on a Boom in Natural Gas

El Paso Natural Gas Co. compressor station, Lo...Image by SouthwestUSA via Flickr

With prices low and the promise of vast new supplies, businesses are making the switch from oil-based fuels and coal

Earlier this year the time came for Lloyd M. Yates, CEO of Progress Energy (PGN), to decide how the big Raleigh (N.C.) utility would meet the state's stringent smokestack laws. First he considered the easy solution: installing pollution scrubbers on the utility's old coal-fired plant in Sutton, N.C., at a cost of $330 million. Then his attention turned to natural gas, the price of which had plunged by two-thirds in the previous year. Sure, the recession accounted for some of the slide. But reports were also circulating of massive discoveries of natural gas in the U.S. Moreover, because the fuel emits half the carbon of coal, it seemed safe from the climate legislation being considered in Washington, which could impose steep penalties on emissions.
After weighing their options, Yates and his board decided against the scrubbers and opted to upgrade another coal plant to natural gas—a $900 million project. In Yates' calculations, that would satisfy the smokestack law and more than pay for itself over time. "It was like deciding whether to put a catalytic converter on a '52 Chevy," Yates says. "It was: 'When do you buy the new car?'"
The U.S. natural gas industry hopes that as Lloyd Yates goes, so goes the country. In summer 2008 the U.S. and much of the rest of the world were consumed by talk of peak oil and natural gas and fears that high fuel prices would persist forever. Today analysts still worry about the oil supply but far less about natural gas. U.S. gas producers, capitalizing on a technological breakthrough, have in recent years unlocked an enormous volume of natural gas in the shale rock under Colorado, Oklahoma, Pennsylvania, Texas, and other states. According to a July report by the Colorado School of Mines, the U.S. now holds 1,800 trillion cubic feet of natural gas, one third of it in shale, the equivalent of some 320 billion barrels of oil. That's more than Saudi Arabia's 264 billion barrels.
Of course, natural gas isn't interchangeable with oil and won't solve America's energy woes by itself. While natural gas can be used to heat homes and power vehicles, it's mostly used, like coal, to generate electricity.
But the supply estimates for natural gas are so vast and the plunge in prices so steep that they're forcing business leaders to rethink their long-term energy strategies—quickly. Utilities are debating whether to retrofit coal plants for gas. Big corporations such as AT&T (T) and UPS are beginning to convert large truck fleets from oil-based gasoline to natural gas. Even renewable-energy players are jumping in: As they try to coax more power from unpredictable wind and solar generators, they're finding that inexpensive natural gas helps keep their output steady.
It's not certain that the gas boom will fulfill its promise. "We don't know if it will be truly awesome or only theoretical in its impact," says David G. Victor, a professor and energy expert at the University of California at San Diego. While natural gas producers say they're sitting on the greatest volumes ever, they also face considerable barriers to getting their commodity to market. Prices are so low that many producers have closed their wells. Most utilities fitted with coal-burning units remain reluctant to invest in natural gas equipment. Critics say the water-intensive shale-drilling process poses risks to nearby drinking water supplies. And skeptics point to the late 1990s, another era when prices seemed permanently lowered, only to spike a few years later. "Utilities have been burned many times," says Andre Begosso, an energy strategist at Accenture (ACN), a consulting firm.
Yet the opening up of U.S. shale gas may make the current wave of discoveries different from those of the past. A technique developed in the late 1990s by tiny Mitchell Energy & Development is driving the action. Before hydraulic-fracturing, as the technique is called, gas that was encased in solid shale was untappable. Mitchell and others figured out how to inject the rock with water and chemicals to release the gas molecules. Another recent advance has made it possible for drillers to fan out horizontally, recovering gas from far larger areas than in the past. U.S. natural gas production rose 14% between early 2007 and mid-2008, in large part because of new fields such as the Barnett Shale in Texas.
And the shale boom is only in its infancy. In 2004, John H. Pinkerton of Range Resources (RRC) drilled the first such well in Appalachia, the Marcellus Shale, a 62 million-acre gas field spanning some 600 miles north to south. Since then Pinkerton has beefed up a one-person Pittsburgh office to 150 geologists, geophysicists, and engineers. Pinkerton says his production has quickly tripled, to some 90 million cubic feet a day. "We expect to double that next year, and again in the following years," he says.
In Raleigh, Progress Energy's Yates made his decision to shift to natural gas in the face of a state requirement to cut the utility's sulfur dioxide emissions in half, to 50,000 tons a year, by 2013. To do so in time, the utility had to act this year. After weighing the options it chose natural gas, in effect betting that prices would stay low for a while. Output at the plant will rise considerably, with a 950-megawatt natural gas unit replacing 397 megawatts of coal-fired capacity. And it will do so while also meeting the sulfur dioxide requirement: It will lower carbon dioxide emissions by 60% and nitrogen oxide by 95%, and will eliminate mercury emissions.
If Washington puts a cap on carbon emissions, Yates will likely face another decision on how to modernize Progress Energy's three other 1950s- and '60s-era coal-fired plants. Yates says natural gas will figure prominently in the calculations, while "we are not even considering coal because of its cost."
A few other utilities are making the shift to gas or considering doing so. Tampa Electric (TE) has transformed its coal-fired Gannon Power Station into a natural gas unit at a cost of $750 million. In April, developers of the Highwood Generating Station near Great Falls, Mont., dropped plans to burn coal and chose natural gas for a new plant. Portland (Ore.) General Electric (POR) is proposing to build two new natural gas plants.
Most utilities, however, remain on the sidelines. Natural gas prices have been so volatile over the years that executives are unwilling to make a long-term commitment. That's because if they lock in a guaranteed supply at higher prices than today's and prices don't rise to that level, they might have to raise the rates they charge customers. That wouldn't be an easy sell to regulators, who "are not keen on cost-recovery for wrong-way bets on supply contracts," says James Owen, spokesman for the Edison Electric Institute, an industry lobbying group.

Oddly enough, natural gas is finding more popularity among utilities that embrace renewable energy. Fears that cheap natural gas might take investment from costlier solar and wind power have proven overblown; instead, utilities are building both. Because gas turbines can vary their output with precision, they complement wind farms and solar fields that generate irregular power flows. The result is a more stable and reliable energy supply.


Florida Power & Light (FPL), the nation's largest renewable-energy developer, is building a solar thermal power plant that will be the nation's second largest. The Juno Beach (Fla.) company put its new facility next to an existing gas-fired plant so that when a cloud passes in front of the sun, the gas plant can keep the power flow steady. Public Service Enterprise Group, (PEG) a major mid-Atlantic utility, is developing gas and renewable projects simultaneously. "The ease of dispatching gas-combustion turbines makes them perfect complements" for wind and solar plants, says PSEG CEO Ralph Izzo.

General Electric (GE) has targeted a line of fast-start gas turbines at renewable projects. As part of a $320 million investment, Topeka (Kan.)-based Westar Energy (WR) has paired four of those turbines with 300 megawatts' worth of wind capacity spread around the region. It's a wind-rich area, where gusts not only die suddenly but also get too brisk, forcing the turbines to shut down for safety. In either event, gas turbines can kick in to maintain power. Westar committed to build the turbines back in 2006, when gas was double today's price. Now, with prices so low, "they offer an extra benefit, supplying regular power too," says Greg A. Greenwood, a vice-president at Westar.

Natural gas is also making a small dent in the transportation market. AT&T (T) in March announced that it would be replacing 8,000 service vans with natural-gas-powered vehicles. The 10-year, $350 million upgrade came as part of a $565 million alternative-fuel vehicle initiative started last year. Rising gasoline prices are turning skeptics into believers. From April to July the average price of a gallon of gasoline jumped by 22%, to $2.46, while the price of compressed natural gas for cars rose just 6%, to the equivalent of around $1.73. "When the price of gas rises at the pump by a cent and you're buying about 80 million gallons of fuel a year, it gets pretty expensive," says Jerome Webber, AT&T's vice-president for fleet operations. The company is betting the new vehicles will save it 49 million gallons of gasoline over the next decade. Transportation giant UPS, meanwhile, deployed 300 new natural gas vehicles in February alongside 800 already on the road.

The market for natural gas vehicles is limited by the dearth of fill-up stations in the U.S. Just 1,100 of the country's 162,000 stations sell natural gas, according to Natural Gas Vehicles for America. But that number is growing. Clean Energy (LNE), a Seal Beach (Calif.)-based company backed by T. Boone Pickens, has installed 184 natural gas stations in North America and plans to add up to 80 more in the next two years. Utah's Questar Gas has built 20 along that state's I-15 corridor and plans six more over the next 18 months.

Of course, the CEOs of natural gas outfits understand that such inroads don't amount to much compared with the massive reserves still sitting underground. They've descended on Washington in recent months to persuade lawmakers to create incentives for gas use in a climate-change bill moving through Congress. By boosting demand over the long term they hope to strengthen their position vs. Big Coal and Big Oil.
Whether or not they succeed in D.C., the shift away from coal and toward natural gas seems likely to continue, at least for a while, as the price and policy dynamics point in its favor. Says PSEG's Izzo: "We're building gas turbines because...there's no other option in the near term."

With Brian Burnsed in Washington
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Sep 18, 2009

It's still the one - By Daniel Yergin | Foreign Policy

Oil's very future is now being seriously questioned, debated, and challenged. The author of an acclaimed history explains why, just as we need more oil than ever, it is changing faster than we can keep up with.

BY DANIEL YERGIN | SEPT. / OCT. 2009

On a still afternoon under a hot Oklahoma sun, neither a cloud nor an ounce of "volatility" was in sight. Anything but. All one saw were the somnolent tanks filled with oil, hundreds of them, spread over the rolling hills, some brand-new, some more than 70 years old, and some holding, inside their silver or rust-orange skins, more than half a million barrels of oil each.

This is Cushing, Oklahoma, the gathering point for the light, sweet crude oil known as West Texas Intermediate -- or just WTI. It is the oil whose price you hear announced every day, as in "WTI closed today at …." Cushing proclaims itself, as the sign says when you ride into town, the "pipeline crossroads of the world." Through it passes the network of pipes that carry oil from Texas and Oklahoma and New Mexico, from Louisiana and the Gulf Coast, and from Canada too, into Cushing's tanks, where buyers take title before moving the oil onward to refineries where it is turned into gasoline, jet fuel, diesel, home heating oil, and all the other products that people actually use.

But that is not what makes Cushing so significant. After all, there are other places in the world through which much more oil flows. Cushing plays a unique role in the new global oil industry because WTI is the preeminent benchmark against which other oils are priced. Every day, billions of "paper barrels" of light, sweet crude are traded on the floor of the New York Mercantile Exchange in lower Manhattan and, in ever increasing volumes, at electron speed around the world, an astonishing virtual commerce that no matter how massive in scale, still connects back somehow to a barrel of oil in Cushing changing owners.

That frenetic daily trading has helped turn oil into something new -- not only a physical commodity critical to the security and economic viability of nations but also a financial asset, part of that great instantaneous exchange of stocks, bonds, currencies, and everything else that makes up the world's financial portfolio. Today, the daily trade in those "paper barrels" -- crude oil futures -- is more than 10 times the world's daily consumption of physical barrels of oil. Add in the trades that take place on other exchanges or outside them entirely, and the ratio may be as much as 30 times greater. And though the oil may flow steadily in and out of Cushing at a stately 4 miles per hour, the global oil market is anything but stable.

Exclusive

Oil: The Long Goodbye

An FP Special Report

That's why, as I sat down to work on a new edition of The Prize and considered what had changed since the early 1990s, when I wrote this history of the world's most valuable, and misunderstood, commodity, the word "volatility" kept springing to mind. How could it not? Indeed, when people are talking about volatility, they are often thinking oil. On July 11, 2008, WTI hit $147.27. Exactly a year later, it was $59.87. In between, in December, it fell as low as $32.40. (And don't forget a little more than a decade ago, when it was as low as $10 a barrel and consumers were supposedly going to swim forever in a sea of cheap oil.)

These wild swings don't just affect the "hedgers" (oil producers, airlines, heating oil dealers, etc.) and the "speculators," the financial players. They show up in the changing prices at the gasoline station. They stir political passions and feed consumers' suspicions. Volatility also makes it more difficult to plan future energy investments, whether in oil and gas or in renewable and alternative fuels. And it can have a cataclysmic impact on the world economy. After all, Detroit was knocked flat on its back by what happened at the gasoline pump in 2007 and 2008 even before the credit crisis. The enormous impact of these swings is why British Prime Minister Gordon Brown and French President Nicolas Sarkozy were recently moved to call for a global solution to "destructive volatility." But, they were forced to add, "There are no easy solutions."

This volatility is part of the new age of oil. For though Cushing looks pretty much the same as it did when The Prize came out, the world of oil looks very different. Some talk today about "the end of oil." If so, others reply, we are entering its very long goodbye. One characteristic of this new age is that oil has developed a split personality -- as a physical commodity but also now as a financial asset. Three other defining characteristics of this new age are the globalization of the demand for oil, a vast shift from even a decade ago; the rise of climate change as a political factor shaping decisions on how we will use oil, and how much of it, in the future; and the drive for new technologies that could dramatically affect oil along with the rest of the energy portfolio.

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The Capital of Oil
A brief history of Cushing, Oklahoma

The cast of characters in the oil business has also grown and changed. Some oil companies have become "supermajors," such as ExxonMobil and Chevron, while others, such as Amoco and ARCO, have just disappeared. "Big oil" no longer means the traditional international oil companies, their logos instantly recognizable from corner gas stations, but rather much larger state-owned companies, which, along with governments, today control more than 80 percent of the world's oil reserves. Fifteen of the world's 20 largest oil companies are now state-owned.

The cast of oil traders has also much expanded. Today's global oil game now includes pension funds, institutional money managers, endowments, and hedge funds, as well as individual investors and day traders. The managers at the pension funds and the university endowments see themselves as engaged in "asset allocation," hedging risks and diversifying to protect retirees' incomes and faculty salaries. But, technically, they too are part of the massive growth in the ranks of the new oil speculators.

With all these changes, the very future of this most vital commodity is now being seriously questioned, debated, and challenged, even as the world will need more of it than ever before. Both the U.S. Department of Energy and the International Energy Agency project that, even accounting for gains in efficiency, global energy use will increase almost 50 percent from 2006 to 2030 -- and that oil will continue to provide 30 percent or more of the world's energy in 2030.

But will it?

From the beginning, oil has been a global industry, going back to 1861 when the first cargo of kerosene was sent from Pennsylvania -- the Saudi Arabia of 19th-century oil -- to Britain. (The potential crew was so fearful that the kerosene would catch fire that they had to be gotten drunk to shanghai them on board.) But that is globalization of supply, a familiar story. What is decisively new is the globalization of demand.

For decades, most of the market -- and the markets that mattered the most -- were in North America, Western Europe, and Japan. That's also where the growth was. At the time of the first Gulf War in 1991, China was still an oil exporter.

But now, the growth is in China, India, other emerging markets, and the Middle East. Between 2000 and 2007, the world's daily oil demand increased by 9.4 million barrels. Almost 85 percent of that growth was in emerging markets. There were many reasons that prices soared all the way to $147.27 last year, ranging from geopolitics to a weak dollar to the impact of financial markets and speculation (in all its manifold meanings). But the starting point was the fundamentals -- the surge in oil demand driven by powerful economic growth in emerging markets. This shift may be even more powerful than people recognize: So far this year, more new cars have been sold in China than in the United States. When economic recovery takes hold again, what happens to oil demand in such emerging countries will be crucial.

The math is clear: More consumers mean more demand, which means more supplies are needed. But what about the politics? There the forecasts are murkier, feeding a new scenario for international tension -- a competition, even a clash, between China and the United States over "scarce" oil resources. This scenario even comes with a well-known historical model -- the rivalry between Britain and "rising" Germany that ended in the disaster of World War I.

This scenario, though compelling reading, does not really accord with the way that the world oil market works. The Chinese are definitely new players, willing and able to pay top dollar to gain access to existing and new oil sources and, lately, also making loans to oil-producing countries to ensure future supplies. With more than $2 trillion in foreign reserves, China certainly has the wherewithal to be in the lending business.

But the global petroleum industry is not a go-it-alone business. Because of the risk and costs of large-scale development, companies tend to work in consortia with other companies. Oil-exporting countries seek to diversify the countries and companies they work with. Inevitably, any country in China's position -- whose demand had grown from 2.5 million barrels per day to 8 million in a decade and a half -- would be worrying about supplies. Such an increase, however, is not a forecast of inevitable strife; it is a message about economic growth and rising standards of living. It would be much more worrying if, in the face of rising demand, Chinese companies were not investing in production both inside China (the source of half of its supply) and outside its borders.

There are potential flash points in this new world of oil. But they will not come from standard commercial competition. Rather, they arise when oil (along with natural gas) gets caught up in larger foreign-policy issues -- most notably today, the potentially explosive crisis over the nuclear ambitions of oil- and gas-rich Iran.

Yet, despite all the talk of an "oil clash" scenario, there seems to be less overall concern than a few years ago and much more discussion about "energy dialogue." The Chinese themselves appear more confident about their increasingly important place in this globalized oil market. Although the risks are still there, the Chinese -- and the Indians right alongside them -- have the same stake as other consumers in an adequately supplied world market that is part of the larger global economy. Disruption of that economy, as the last year has so vividly demonstrated, does not serve their purposes. Why would the Chinese want to get into a confrontation over oil with the United States when the U.S. export market is so central to their economic growth and when the two countries are so financially interdependent?

Not a Threat: Chinese workers at a
construction site in Africa.

Oil is not even the most important energy issue between China and the United States. It is coal. The two countries have the world's largest coal resources, and they are the world's biggest consumers of it. In a carbon-constrained world, they share a strong common interest in finding technological solutions for the emissions released when coal is burned.

And that leads directly to the second defining feature of the new age of oil: climate change. Global warming was already on the agenda when The Prize came out. It was back in 1992 that 154 countries signed the Rio Convention, pledging to dramatically reduce CO2 concentrations in the atmosphere. But only in recent years has climate change really gained traction as a political issue -- in Europe early in this decade, in the United States around 2005. Whatever the outcome of December's U.N. climate change conference in Copenhagen, carbon regulation is now part of the future of oil. And that means a continuing drive to reduce oil demand.

How does that get done? How does the world at once meet both the challenge of climate change and the challenge of economic growth -- steady expansion in the industrial countries and more dramatic growth in China, India, and other emerging markets as tens of millions of their citizens rise from poverty and buy appliances and cars?

The answer has to be in another defining change -- an emphasis on technology to a degree never before seen. The energy business has always been a technology business. After all, the men who figured out in 1859, exactly 150 years ago, how to drill that first oil well -- Colonel Drake and his New Haven, Conn., investors -- would, in today's lingo, be described as a group of disruptive technology entrepreneurs and venture capitalists. Again and again, in researching oil's history, I was struck by how seemingly insurmountable barriers and obstacles were overcome by technological progress, often unanticipated.

But the focus today on technology -- all across the energy spectrum -- is of unprecedented intensity. In the mid-1990s, I chaired a task force for the U.S. Department of Energy on "strategic energy R&D." Our panel worked very hard for a year and a half and produced what many considered a very worthy report. But there was not all that much follow-through. The Gulf War was over, and the energy problem looked like it had been "solved."

Today, by contrast, the interest in energy technology is enormous. And it will only be further stoked by the substantial increases that are ahead in government support for energy R&D. Much of that spending and effort is aimed at finding alternatives to oil. Yet the challenge is not merely to find alternatives; it is to find alternatives that can be competitive at the massive scale required.

What will those alternatives be? The electric car, which is the hottest energy topic today? Advanced biofuels? Solar systems? New building designs? Massive investment in wind? The evolving smart grid, which can integrate electric cars with the electricity industry? Something else that is hardly on the radar screen yet? Or perhaps a revolution in the internal combustion engine, making it two to three times as efficient as the ones in cars today?

We can make educated guesses. But, in truth, we don't know, and we won't know until we do know. For now, it is clear that the much higher levels of support for innovation -- along with considerable government incentives and subsidies -- will inevitably drive technological change and thus redraw the curve in the future demand for oil.

Indeed, the biggest surprises might come on the demand side, through conservation and improved energy efficiency. The United States is twice as energy efficient as it was in the 1970s. Perhaps we will see a doubling once again. Certainly, energy efficiency has never before received the intense focus and support that it does today.

Just because we have entered this new age of high-velocity change does not mean this story is about the imminent end of oil. Consider the "peak oil" thesis -- shorthand for the presumption that the world has reached the high point of production and is headed for a downward slope. Historically, peak-oil thinking gains attention during times when markets are tight and prices are rising, stoking fears of a permanent shortage. In 2007 and 2008, the belief system built around peak oil helped drive prices to $147.27. (It was actually the fifth time that the world had supposedly "run out" of oil. The first such episode was in the 1880s; the last instance before this most recent time was in the 1970s.)

However, careful examination of the world's resource base -- including my own firm's analysis of more than 800 of the largest oil fields -- indicates that the resource endowment of the planet is sufficient to keep up with demand for decades to come. That, of course, does not mean that the oil will actually make it to consumers. Any number of "aboveground" risks and obstacles can stand in the way, from government policies that restrict access to tax systems to civil conflict to geopolitics to rising costs of exploration and production to uncertainties about demand. As has been the case for decades and decades, the shifting relations between producing and consuming countries, between traditional oil companies and state-owned oil companies, will do much to determine what resources are developed, and when, and thus to define the future of the industry.

There are two further caveats. Many of the new projects will be bigger, more complex, and more expensive. In the 1990s, a "megaproject" might have cost $500 million to $1 billion. Today, the price tag is more like $5 billion to $10 billion. And an increasing part of the new petroleum will come in the form of so-called "unconventional oil" -- from ultradeep waters, Canadian oil sands, and the liquids that are produced with natural gas.

But through all these changes, one constant of the oil market is that it is not constant. The changing balance of supply and demand -- shaped by economics, politics, technologies, consumer tastes, and accidents of all sorts -- will continue to move prices. Economic recovery, expectations thereof, the pent-up demand for "demand," a shift into oil as a "financial asset" -- some combination of these could certainly send oil prices up again, even with the current surplus in the market. Yet, the quest for stability is also a constant for oil, whether in reaction to the boom-and-bust world of northwest Pennsylvania in the late 19th century, the 10-cents-a-barrel world of Texas oil in the 1930s, or the $147.27 barrel of West Texas Intermediate in July 2008.

Certainly, the roller-coaster ride of oil prices over the last couple of years, as oil markets and financial markets have become more integrated, has made volatility a central preoccupation for policymakers who do not want to see their economies whipsawed by huge price swings. Yet without the flexibility and liquidity of markets, there is no effective way to balance supply and demand, no way for consumers and producers to hedge their risks. Nor is there a way to send signals to these consumers and producers about how much oil to use and how much money to invest -- or signals to would-be innovators about tomorrow's opportunities.

One part of the solution is not only enhancement of the already considerable regulation of the financial markets where oil is traded, but also greater transparency and better understanding of who the players are in the rapidly expanding financial oil markets. But regulatory changes cannot eliminate market cycles or repeal the laws of supply and demand in the world's largest organized commodity market. Those cycles may not be much in evidence amid the quiet tanks and rolling hills at Cushing. But they are inescapably part of the global landscape of the new world of oil.

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