Posted Apr 14, 2014, 4:23 PM
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Join Date: Jun 2005
Location: lodged against an abutment
Posts: 7,556
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Quote:
April 14, 2014
Liquefied natural gas shows potential as a freight locomotive fuel
EIA projects that liquefied natural gas (LNG) will play an increasing role in powering freight locomotives in coming years. Continued growth in domestic natural gas production and substantially lower natural gas prices compared to crude oil prices could result in significant cost savings for locomotives that use LNG as a fuel source, according to EIA's Annual Energy Outlook 2014 (AEO2014).
Taken together, the 7 major U.S. freight railroads consumed more than 3.6 billion gallons of diesel fuel in 2012, or 7% of all diesel fuel consumed in the United States. The fuel cost more than $11 billion in 2012 and accounted for 23% of total operating expenses.
These railroads are considering the use of LNG in locomotives because of the potential for significant fuel cost savings and the resulting reductions in fuel operating costs. Given the expected price difference between LNG and diesel fuel, future fuel savings are expected to more than offset the approximately $1 million incremental cost associated with an LNG locomotive and its tender. However, in addition to the risk surrounding future fuel prices, other factors including operational, financial, regulatory, and mechanical challenges also affect fuel choices by railroads.
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http://www.eia.gov/todayinenergy/detail.cfm?id=15831
Quote:
Energy News
Does Musk’s Gigafactory Make Sense?
Tesla’s audacious plan to build a giant battery factory may mostly be a clever negotiating tactic.
By Kevin Bullis on April 14, 2014
Lithium-ion batteries are just about everywhere—they power almost all smartphones, tablets, and laptops. Yet Elon Musk, CEO of Tesla Motors, says he intends to build a factory in the United States three years from now that will more than double the world’s total lithium-ion battery production. The plan is still in its early stages, but already four states are negotiating with Tesla in the hope of becoming the factory’s home.
People have come to expect bold plans from Musk. In addition to founding Tesla, he started his own rocket company, SpaceX, which now delivers supplies to the International Space Station. But even for him, the “gigafactory,” as he calls it, seems audacious.
First, Tesla sold 23,000 cars last year. The gigafactory, which would start production in 2017, would by 2020 make enough batteries for 500,000 electric cars. (It would produce enough batteries annually to store 35 gigawatt hours of electricity, hence the name). Second, battery companies normally announce factories only after they’re funded and a site is selected. And they typically scale up gradually. Why announce plans to build such an enormous factory —especially when electric car sales so far come nowhere close to justifying it?
The project seems more puzzling in light of the hard times at other electric car battery factories in the United States. In 2009, President Obama announced an ambitious $2.4 billion grant program intended to launch an electric car battery industry in the United States. That effort, so far, has failed—factories were built, but sales have been poor because electric car sales have been slow. All of the battery makers involved have struggled (see “Too Many Battery Factories, Too Few Electric Cars”), and one, A123 Systems, went bankrupt.
Musk is betting that Tesla can generate a much bigger market for electric cars. To keep the factory humming, he will have to sell more than 10 times as many electric vehicles in a year as Nissan managed last year (and Nissan has sold more electric cars than any other automaker). Musk has some reason for confidence—last year Tesla sold as many electric cars as Nissan in the United States, even though Tesla’s Model S costs two to three times as much as Nissan’s electric car, the Leaf. He seems to be betting that a huge factory will significantly reduce the cost of making batteries, which remain the most expensive part of electric cars. In the ideal scenario, that cost reduction would help Tesla produce a mass-market car similar in cost to the Nissan Leaf or Chevrolet Volt but that, crucially, will be able to go more than twice as far on a charge (the car would also be able to accelerate faster than the Leaf).
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http://www.technologyreview.com/news...ry-make-sense/
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