While alternative energy companies have been innovating, the carbon fuel companies have been innovating even faster.
From an NPR story:
"An engineer named George Mitchell and his company, Mitchell Energy, spent years searching for a way to free natural gas from this source rock. He finally succeeded when he figured how to drill horizontally, into and then along a layer of source rock. That allowed him to access the gas throughout a layer of source rock with a single well. Then he used a process known as hydraulic fracturing, or "fracking" to create tiny cracks in the rock that would allow natural gas to flow into and up the well."
"The common wisdom in the industry was that the process Mitchell had invented for natural gas wouldn't work for oil. Oil molecules are bigger and stickier than gas molecules, so petroleum engineers believed it would be impossible to get them to flow from source rock, even if the rock were cracked by fracking. But Mark Papa, the CEO of a small oil and gas company called EOG Resources, didn't accept that.
EOG snapped up land in a similar formation in South Texas known as the Eagle Ford Shale for $400 an acre when his competition thought it would never produce much oil. That land now goes for $30,000 per acre. Papa thought the Eagle Ford might hold 500,000 barrels of oil. The Department of Energy now predicts it holds 3.4 billion. Some even expect 10 billion, which would make it the biggest oil field in U.S. history.""The drilling-services company Baker Hughes has designed a bit that can change directions underground, without having to be drawn back up to the surface, reducing drilling time by as much as 40 percent.
Behind the drill bit, attached to a long line of steel known as the "drill string," is an array of sensors. The sensors bombard rock with subatomic particles and measure the gamma radiation that bounces back. They assess how easily electricity flows through the rock and underground fluids. They analyze the magnetism of the rock and how it vibrates — both up and down and side to side — while drilling."
"To the layman, it looks like dumb iron, but you'd be shocked about what's inside," says Art Soucy, president of global products and services at Baker Hughes.
All this information is sent to engineers via fiber-optic cables. They run the information through supercomputers as powerful as 30,000 laptops to create a picture of the earth thousands of feet below the surface."
"And when the drilling is done, the rig itself can "walk" a hundred feet or so to another location and start drilling again. In the past, rigs had to be taken down and reassembled, which could take days. New rigs are built on sliding "shoes" that allow hydraulic lifts to shuffle the rig forward in short steps."
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