Geothermal Energy It Is Abundant, But Is It functional?

Geothermal Energy It Is Abundant, But Is It functional?

Geothermal energy has great resources that are estimated to be larger than coal, oil, natural gas and uranium combined. There has been numerous survey done to determine how much usable energy is obtainable, and the consensus seems to indicate there is enough resources to last somewhere between 500,000 and 1,000,000 years, which is why it has been classified as a limitless and replaceable form of energy,

The most shared usage found for geothermal energy is to strength the generators for electricity in strength plants. The deciding factor for most companies when building any new strength plant is the cost of running the plant. When a cost comparison has been done between a new facility that is designed to use geothermal energy, and a new facility that is designed to use fossil fuels. The cost of operating the geothermal plant is very competitive (4.5 to 7.3 cents per kilowatt hour) to that of the plant that uses fossil fuel to strength the turbines. The major difference between the two is that the flame that fossil fuel gives off is complete of pollutants, which is one of our major health concerns, while geothermal energy has no flame so the health and safety issues are not there.

The only country that has really benefited so far from geothermal energy is Iceland. No surprise here, it just seems natural with so many geothermal springs on the island and all the volcanic activity they have one might say that Iceland is one big geothermal spring. Currently about 75% of Iceland’s strength is from geothermal energy and they are strive to be the first county to be 100% free of any dependency on fossil fuels for electricity.

To be able to nearly use geothermal, you must first find a hydrothermal site commonly called a geothermal spring. Once you have found a promising site, then you start to drill down to determine if there is sufficient hydrothermal activity. How thorough you have to drill is uncertain, typically for every 100 meters (328 feet) you go into the earths crust, the temperature of the rocks will increase by 3 degrees Celsius (5.4 degrees Fahrenheit). Once a geothermal spring has been found, the most shared application is to use the strength to excursion turbines for electricity.

The majority of the geothermal springs are found along the major plate boundaries, which is also where the majority of volcanic activities and earthquakes are concentrated. The most active areas have been located along the “Ring of Fire” which rims the Pacific ocean. A few of the western states that are close to the pacific rim have been using some geothermal energy to supplement their energy needs, California gets about 6% of their electricity from geothermal energy, while Nevada is around 4% and Utah is at about 2%.

There are a associate of limiting factors that will keep geothermal energy from being widely used. One factor is that geothermal springs are found only in limited areas and the other is being able to keep the strength plant connected to the hot spots. The Yellowstone area in Idaho, Wyoming and Montana, has many geothermal springs sites, however these springs are always moving along with the tectonic plate, which eliminates the feasibility of building strength plants there, since the strength source will be moving.

It seems with today’s current technology, with Iceland being the exception, geothermal energy, already with its great resource, will always be a limited form of clean energy when compared to solar and wind strength.

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