Geothermal Power On The Rise

Geothermal SourcesEnergy From the Earth’s Core:Geothermal energy is the heat from the ‘s clean and sustainable. It has the potential to produce geothermal power for large amounts of electricity.

The 1st try to develop geothermal power in the United States came in 1922 at The Geysers steam field in northern California. The project failed simply because the pipes and turbines of the day could not stand up to the abrasion and corrosion of the particles and impurities that were in the steam. Later, a tiny but effective hydrothermal plant opened at the Geysers in 1960. Nowadays 28 plants are operating there.

The Reservoir Stimulation: Current Field Practices, Monitoring Techniques and Theoretical/Laboratory Investigations workshop will supply a platform for in-depth evaluation and discussion of recent Enhanced Geothermal Systems (EGS) field experiences and will present attendees with an understanding of current advances in monitoring technologies and theoretical, laboratory and numerical modeling pertaining to reservoir stimulation.

He notes that the technologies is here, the water is here, the heat is here. He also likes to point out that one hundred years ago the state built a 25-mile extended aqueduct from the Quabbin to Boston working with mostly manual labor (his method makes use of robotic drilling equipment). And when he admits that it would be costly, given the return of free of charge power forever for a utility company, the cost could be absorbed within probably a decade. And it’s certainly clean, absolutely renewable, with no waste by-products. In fact, the only by-product is desalinized water, which could also decrease dependence on the Quabbin and other reservoirs.

His program, merely put, is to bore a tunnel from the ocean inland at a depth of about 3 or four miles. Geologic maps of coastal New England show that at this depth the temperature reaches at least 300 degrees F. Reynolds calculates that a tunnel 50 feet in diameter, and some 80 to 100 miles extended, would be needed to make sufficient continuous heat to create 1,600 megawatts of electrical energy per hour, nearly as a lot as that created geothermally in all of California, or at the giant Hoover Dam that at present outputs 1,731 megawatts hourly.