lunes, 12 de noviembre de 2012

US net oil exporter by 2030 (NY Times)


The United States will overtake Saudi Arabia as the world’s leading oilproducer by about 2017 and will become a net oil exporter by 2030, the International Energy Agency said Monday.
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A blog about energy and the environment.
Eric Gay/Associated Press
A drilling rig near Kennedy, Tex. There are several components of the sudden shift in the world’s energy supply, but the prime mover is a resurgence of oil and gas production in the United States.
Jim Wilson/The New York Times
Oil facilities in North Dakota. The International Energy Agency said the United States would be a net exporter of oil by 2030.

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That increased oil production, combined with new American policies to improve energy efficiency, means that the United States will become “all but self-sufficient” in meeting its energy needs in about two decades — a “dramatic reversal of the trend” in most developed countries, a new report released by the agency says.
“The foundations of the global energy systems are shifting,” Fatih Birol, chief economist at the Paris-based organization, which produces the annual World Energy Outlook, said in an interview before the release. The agency, which advises industrialized nations on energy issues, had previously predicted that Saudi Arabia would be the leading producer until 2035.
The report also predicted that global energy demand would grow between 35 and 46 percent from 2010 to 2035, depending on whether policies that have been proposed are put in place. Most of that growth will come from China, India and the Middle East, where the consuming class is growing rapidly. The consequences are “potentially far-reaching” for global energy markets and trade, the report said.
Dr. Birol noted, for example, that Middle Eastern oil once bound for the United States would probably be rerouted to China. American-mined coal, facing declining demand in its home market, is already heading to Europe and China instead.
There are several components of the sudden shift in the world’s energy supply, but the prime mover is a resurgence of oil and gas production in the United States, particularly the unlocking of new reserves of oil and gas found in shale rock. The widespread adoption of techniques like hydraulic fracturing and horizontal drilling has made those reserves much more accessible, and in the case of natural gasresulted in a vast glut that has sent prices plunging.
The report predicted that the United States would overtake Russia as the leading producer of natural gas in 2015.
The strong statements and specific predictions by the energy agency lend new weight to trends that have become increasingly apparent in the last year.
“This striking conclusion confirms a lot of recent projections,” said Michael A. Levi, senior fellow for energy and environment at the Council on Foreign Relations.
Formed in 1974 after the oil crisis by a group of oil-importing nations, including the United States, the International Energy Agency monitors and analyzes global energy trends to ensure a safe and sustainable supply.
Mr. Levi said that the agency’s report was generally “good news” for the United States because it highlighted the nation’s new sources of energy. But he cautioned that being self-sufficient did not mean that the country would be insulated from seesawing energy prices, since those oil prices are set by global markets.
“You may be somewhat less vulnerable to price shocks and the U.S. may be slightly more protected, but it doesn’t give you the energy independence some people claim,” he said.
Also, he noted, the agency’s projection of United States self-sufficiency assumed that the country would improve gas mileage in cars and energy efficiency in homes and appliances. “It’s supply and demand together that adds up to this striking conclusion,” Mr. Levi said.
Dr. Birol said the agency’s prediction of increasing American self-sufficiency was 55 percent a reflection of more oil production and 45 percent a reflection of improving energy efficiency in the United States, primarily from the Obama administration’s new fuel economy standards for cars. He added that even stronger policies to promote energy efficiency were needed in the United States and many other countries.
The report said that several other factors could also have a large impact on world energy markets over the next few years. These include the recovery of the Iraqi oil industry, which would lead to new supply, and the decision by some countries, notably Germany and Japan, to move away from nuclear energy after the Fukushima disaster.
The new energy sources will help the United States economy, Dr. Birol said, providing continued cheap energy relative to the rest of the world. The energy agency estimates that electricity prices will be about 50 percent cheaper in the United States than in Europe, largely because of a rise in the number of power plants fueled by cheap natural gas, which would help American industries and consumers.
But the message is more sobering for the planet, in terms of climate change. Although natural gas is frequently promoted for being relatively low in carbon emissions compared to oil or coal, the new global energy market could make it harder to prevent dangerous levels of warming.
The United States’ reduced reliance on coal will just mean that coal moves to other places, the report says. And the use of coal, now the dirtiest fuel, continues to rise elsewhere. China’s coal demand will peak around 2020 and then stay steady until 2035, the report predicted, and in 2025, India will overtake the United States as the world’s second-largest coal user.
The report warns that no more than one-third of the proved reserves of fossil fuels should be used by 2050 to limit global warming to 2 degrees Celsius, as many scientists recommend.
Such restraint is unlikely without a binding international treaty by 2017 that requires countries to limit the growth of their emissions, Dr. Birol said. He added that pushing ahead with technologies that could capture and store carbon dioxide was also crucial.
“The report confirms that, given the current policies, we will blow past every safe target for emissions,” Mr. Levi said. “This should put to rest the idea that the boom in natural gas will save us from that.”
This article has been revised to reflect the following correction:
Correction: November 12, 2012
An earlier version of this article misstated the International Energy Agency’s prediction of American self-sufficiency in energy production. The agency said 55 percent of the improvement would come from more oil production and 45 percent from improvements in energy efficiency. It did not say that domestic oil production would rise 55 percent. Also, an earlier version of a photo caption with this article misidentified the equipment shown in use in an oil field in Greensburg, Kan. It is a pump jack, not an oil rig.

viernes, 2 de noviembre de 2012

Sweden to import 800,000 Tonnes of Waste (wired uk)



Sweden plans to import nearly 800,000 tonnes of waste each year to satisfy its waste-to-energy plants -- waste conscious Swedes have been recycling so efficiently, the country doesn't have enough of its own trash to burn. According to an environmental advisor, it could spell the beginning of a future where garbage actually becomes worth something.
"I would say maybe in the future, this waste will be valued even more so -- maybe you could sell your waste because there will be a shortage of resources within the world," said Catarina Ostlund, senior advisor for the Swedish Environmental Protection Agency. As it stands now, countries will actually pay Sweden for the service.
Sweden began incinerating its trash in the 40s and now, each year, it sends a paltry four percent of its waste to landfills. This has been made possible by the tightening of restrictions on waste disposal -- landfilling of organic waste was outlawed in 2005 -- and the fact that the incineration process has become a cleaner, greener alternative in recent years, with most harmful byproducts of the conversion destroyed.
Currently, 20 percent of Sweden's heat supply is produced by incinerating garbage -- that's 810,000 homes -- with the remaining energy providing 250,000 homes with electricity. To make up for the lack of litter generated by its diligent citizens (the country's plants can process two million tonnes of household waste), Sweden will mainly be importing trash from Norway. Not only will Norway be paying Sweden to destroy its waste, the only thing it will get back in return will be a pile of ash, rich with heavy metals and harmful dioxins that will need to be deposited in landfills. Despite this added burden, it is still the most economical way for Norway to dispose of its household waste.
Sweden is ahead of the curve when it comes to meeting the EU's 2020 sustainability directives, and well ahead of other nations when it comes to its waste-to-energy plan. According to a Eurostat report, municipal waste in Sweden was landfilled at a rate of seven kilograms per inhabitant in 2009 -- compare this to figures for the UK, a hefty 260kg per inhabitant. Conversely, Sweden incinerates 235kg of municipal waste per person, and the UK, just nine kilograms. Countries like Estonia, Greece, Romania and Turkey still do not operate any waste-to-energy plants, and could present future partnerships for Sweden.
Incineration has also become far greener since the 80s in Sweden, when limits on emissions were tightened. According to a report released by the country's waste management association, Avfall Sverige, since that time incineration emission levels have dropped by between 90 and 99 percent because of better waste sorting technologies.
Byproducts of incineration include ash and flue gases, which both contain harmful substances like dioxin. These are now largely cleaned out, however. Dust is passed through an electrostatic precipitator to give the particles a negative electric charge. These are then attracted to positively charged metal plates, shaken off, collected and taken to an ash silo. The gases are washed out with water that contains lime -- this reacts with the gases and removes them. This is done several times to remove different things -- first heavy metals, then acids, sulphur dioxide and the remainder. Finally, a catalytic convertor removes nitrous oxides by passing the remaining flue gases through a porous material and converting them to nitrogen. The idea is that mainly carbon dioxide and water are released and, under the terms with Norway, anything else will be deposited in landfills.