"All that is necessary to open up unlimited resources of power throughout the world is to find some economic and speedy way of sinking deep shafts." — Nikola Tesla, Our Future Motive Power, 1931Drill, Drill, Drill say the Republicans
Drill, Drill, Drill say the Democrats
Drill, Drill, Drill says McCain
Drill, Drill, Drill says Obama
It polls well.
And, meanwhile, the climate just goes to Hell.
It is interesting to see the major oil companies take on a really tough challenge, like drilling deep continental or deep ocean sites. In order to drill the Bakken formation, where gigatons of carbon deposits are entombed beneath the wheat fields of North Dakota, Montana, Saskatchewan and Manitoba, they are going to have to go very deep, into very hard and hot rock.
Even tougher challenges await Chevron's mega-well, Jack 2 in the Gulf of Mexico, or Petrobras' Saudi-scale Tupi or Carioca fields in the equatorial Atlantic off Brazil. Individual wells in those fields are expected to run $180 million to $200 million each, assuming Big Oil can even solve the impressive technical issues.
Engineers are estimating three decades will be needed to develop alloys for drills and pipes that can withstand the heat 2 to 6 miles down, with 18,000 pounds per square inch of pressure, and temperatures above 500° Fahrenheit (260°C).
Two years ago, Exxon Mobil and Chevron saw diamond-crusted drill bits disintegrate and steel pipes crumple when they attempted to tap deep deposits in the outer continental shelf. Anadarko Petroleum is successfully extracting natural gas under a mere 8,960 feet of water in the Gulf of Mexico, where pressure measures 3,069 pounds per square inch, but it costs a lot to keep replacing imploded joints and ruptured seals.
Pumping oil from the Brazilian fields, parts of which are 32,000 feet (10,000 m) below the surface, will require drilling more than three times the depth of the Anadarko wells and almost twice the world’s deepest Gulf wells, in the Tahiti lease, which cost Chevron $4.7 billion to produce.
But here is the irony. At those depths, the heat is a constant. In energy output worldwide, it measures in the exoWatt range. It could power everything. And you don’t have to sail halfway across the Gulf of Mexico, down into the South Atlantic, or up to the North Pole to find it. Wherever you are on Earth, it is right below you.
We’ve known about this energy source, deep geothermal, for centuries, and we have known how to go about harnessing it, big time, for decades. In 1932, Nicola Tesla wrote in The New York Times, “It is noteworthy that . . . in 1852 Lord Kelvin called attention to natural heat as a source of power available to Man. But, contrary to his habit of going to the bottom of every subject of his investigations, he contented himself with the mere suggestion.”
Tesla went on, “The arrangement of one of the great terrestrial-heat power plants of the future (illustration). Water is circulated to the bottom of the shaft, returning as steam to drive the turbine, and then returned to liquid form in the condenser, in an unending cycle.... The internal heat of the earth is great and practically inexhaustible….”
Recently Karl Grossman produced a piece on it for WVVH-TV in Long Island. You can see that on YouTube. An MIT study in 2007 estimated you could produce 100 GWe (the equivalent of 1000 coal plants) for less than the cost of a single coal plant.
So why can’t we see the forest for the trees?