Recently in Geothermal Category

Everywhere on Earth, a few miles below the surface, the bedrock is hot, and the deeper you go the hotter it gets. In some places, water heated by this hot rock comes naturally to the surface or close to it, where it can be easily tapped to drive a turbine and generate electricity.

We're familiar with geothermal to heat homes and buildings, but industrial scale geothermal carries with it concerns about earthquakes being caused by disrupting large systems that we aren't totally familiar with.

Research is underway in the alternative energy pursuit for cleaner, less climate changing methods of powering our insatiable hunger for air conditioning and electrical gadgets.

But where naturally heated water is not available at or near the surface, this process can be recreated by drilling one very deep well to inject water into the ground, and another well nearby to pump that water back to the surface after it has been heated by passing through cracks in the hot rock.

Such systems are known as Engineered Geothermal Systems, or EGS.

Grants recently awarded to MIT researchers by the U.S. Department of Energy (DoE) could help to pave the way for a method of generating electricity that produces no greenhouse gas emissions, and that could become a major contributor to meeting the world's energy needs.

Most energy analysts agree that geothermal energy -- tapping the heat of bedrock deep underground to generate electricity -- has enormous potential because it is available all the time, almost anywhere on Earth, and there is enough of it available, in theory, to supply all of the world's energy needs for many centuries.

But there are still some unanswered questions about it that require further research. DoE last year awarded $336 million in grants to help resolve the remaining uncertainties, and three of those grants, totaling more than $2 million, went to MIT researchers.

A 2006 report by an 18-member team led by MIT Professor Jefferson Tester (now emeritus, and working at Cornell University) found that more than 2,000 times the total annual energy use of the United States could be supplied, using existing technology, from EGS systems, and perhaps 10 times as much with improved technology.

Renewable energy is undergoing a global transformation to cope with today's environmental, economic, health and resource scarcity challenges.  The day of assuming endless supplies of petroleum resources is over, and countries and companies are looking for "renewable" sources that happen within the earth's systems:  solar beams, winds, waves, biomass and even human energy!  Innovation and commercialization of renewable energy is in full swing, offering jobs, investment opportunities, as well as business opportunities to help create the vision and implement the solutions. 

Green buildings of all shapes and sizes will become integrated into these new energy systems for both consumption of energy and generation of energy for their own use and for uploading to the grid.

Here are some of the renewable energies and services surrounding this new shape of energies to come:

Wind
Solar photovoltaics - PV
Wave Power
Geothermal
Solar Concentrator
Solar Thermal
Passive Solar

Energy Services - O&M
Plant MRO
Contract Energy Management

Distributed Generation
Micro Turbines
Fuel Cells
Micro CHP
Gen-sets
Rental
Recip Engines
CHP - Cogeneration
Trigeneration
Waste to Energy

Add to these renewable energy sources high performance energy efficiency, and you have a pathway to net zero energy buildings.  This extreme sport -- net zero energy buildings will leap forward in the 2010 decade as building and emissions regulations require greater focus on efficient operations and distributed power generation.

Would "Drill, Baby, Drill" be part of Google's vision for green energy? Yes, but not drilling for oil.

Geothermal Energy

CEO Schmidt says punching down into the Earth to capture natural and clean geothermal energy could help move the United States away from its dependence on petroleum. Google's new energy plan also calls for a bold move into solar and wind power.

It would cost $2.7 trillion through 2030. However, Schmidt says it would generate $2.1 trillion in energy savings. It would also create hundreds of thousands of jobs. And help fight global warming.

SOURCE: December 16, 2008
The Commonwealth Club of California