Geothermal Energy is another type of renewable energy resource that makes use of the large amounts of energy stored as heat in the water deep below the Earth’s surface with the most prominent and visual example of this coming from “Geysers” and “Hot Springs” ejecting large columns of very hot water, steam and gases high up into the air. In fact the word “Geothermal” comes from combining together the two Greek words of Geo, meaning “Earth”, and Therme, meaning “heat”, with the resulting word geothermal essentially meaning “heat generated directly from the earth’s crust”, then the expression “geothermal Energy” basically means “heat energy that is generated right from the Earth’s crust”.
Geothermal energy is obtained from the hot areas under the surface of the earth that remain at a relatively constant temperature all year around day and night. Once available, geothermal energy can be used either directly or indirectly as an alternative energy resource to both heat and cool our homes. This naturally occurring and free energy is extracted by a series of pipes filled with water buried below the Earth’s surface. This hot water is then used in our homes for heating, called Geothermal Heating, or to generate electricity, called Geothermal Power.
So how does it work? At the Earth’s core, some 4000 miles below the surface, temperatures can reach over 9000 degrees Fahrenheit. This incredible amount of heat originated four billion years ago in a fiery combustion of dust and gas as the Earth was being created. Many scientists strongly believe that radioactive deterioration of the inner core maintains the heat production and flowing external right from the inner core to the mantle which actually surrounds the core. When the pressure and temperature is high enough, some of this mantle rock melts. Then, because the melted rock or magma is less dense than the surrounding rock, it rises and moves slowly up to the Earth’s crust.
Sometimes the hot magma reaches all the way to the Earth’s surface as a volcanic eruption, but usually the magma remains underground and heats the adjoining rock as well as any water that has seeped down through geologic holes, cracks and faults in the Earth’s crust absorbing the heat as it travels through these hot rocks. Some of this water, whose temperatures can reach as high as 700 degrees, travels back up through cracks to the Earth’s surface and emerges as hot springs, geysers or pools of boiling mud. Far more often, however, the water and magma becomes trapped within the rock, forming a natural underground geothermal reservoir. It is these underground geothermal reservoirs that are able to give us another type of alternative energy resource with incredible potential.
Let us understand that geothermal is NOT mining, as mining removes the mined material forever, it is extraction of the heat from a hydrothermal fluid which is replenished, sometimes over very long periods by the Earth itself. This geothermal energy resources can be used either for direct consumption, heating or for power generation in one of the following three main ways:
Types of geothermal energy
DIRECT GEOTHERMAL ENERGY
As a matter of fact, this is exactly where the hot water is readily available either on or very close to the surface of the earth and can certainly be used directly for bathing, heating or even washing.
GROUND SOURCE GEOTHERMAL
This is actually where the geothermal hot water is just below the ground but not very deep hence allowing easy access of the geo-thermal resource using bore holes or heat absorbing pipes.
GEOTHERMAL POWER PLANTS
They harnesses the very hot steam or water using the vertical bore holes drilled deep under the earth’s surface and then utilizes the available super-heated geothermal steam and water to produce electricity.
For domestic applications, one way of extracting this heat energy is by the use of a geo-thermal Heat Pump. The geo-thermal heat pump does not create electricity, rather it helps in circulating a thermally conductive liquid that is mixed with water through long pipes commonly known as an Earth loop buried up to 12 feet underground, operating on the same principle as the domestic refrigerator but in reverse.
GEOTHERMAL HEAT PUMP
Aso known as a “Ground Source Heat Pump”, is a very efficient way to heat and air-condition our homes and buildings as it can move heat in two ways: during the colder winter months, low temperature heat is withdrawn from the ground (the heat source) for direct use in heating buildings and other structures. In the hotter summer months, the geothermal heat pump operates in reverse removing the heat from the building and dissipating it back into the ground.
As a result of this simple process, direct use geothermal heating is becoming very popular for the home owner because it provides a cost-effective alternative to expensive oil or gas home heating systems. Energy savings using a ground source heat pump can be substantial over a long period of time.
Geothermal power on the other hand uses extremely hot water heated by the underground magmatic activity which is pumped to the surface and used for electricity generation. Once this super-heated water reaches atmospheric pressure it turns to steam where it is used to operate steam-powered turbines and generators. Geothermal power plants are becoming more common in volcanic areas and countries such as Iceland, were it produces over a quarter of their energy needs.
The main advantages of Geothermal Power is that it is clean, cheap, no additional fuel is needed resulting in no greenhouse gases or air pollution. However, certain disadvantages basically include geographically restricted, high maintenance costs and waste water and ground water pollution. But the biggest disadvantage is that the closer you put a geothermal power plant to an active volcano or heat source, the larger the potential operational problems you can have.