Geothermal cooling comes from ancient Egypt. From the research, Geothermal cooling help to impact Egypt civilization. Geothermal cooling is digging more than 10 feet in the earth' surface has stumble temperature. It is a pump underground pulls the cool temperature to the surface. Geothermal cooling has the potential to alleviate many of the problem that face Egyptian every day. Geothermal cooling could provides cold water to the building. Use less carbon dioxide. Which help Egyptians to be healthier and give they cold water in the hot days. It is just as the same as a ancient air conditioning. The geothermal cooling is safe efficient and use less energy than the other kinds of cooling process. It improve Egyptian's life and make their civilization stronger.
I find out that Ancient Egyptians also understood the power of copper. Even today some 5,000 year-old copper pipes used to convey water in Egypt are still in existence! That is precisely why we can offer a lifetime warranty on the copper ground coils. The rugged durability along with the super conductive properties of the copper coil, provide outstanding longevity and is the obvious reason why copper is the material of choice when it comes to harnessing the earth’s energy. The fact is copper has an outstanding history of performance as a highly corrosive resistant material in most underground enviroments. In 1994, archeologists excavating the remains of a 4,500-year-old Egyptian funerary pyramid complex, unearthed a sophisticated copper drainage system. Although the overall condition of the pyramid and temples today is poor, the copper piping has survived, attesting to the longevity of buried copper tubing. It is also on of the few metals that exists natuarlly as an element. Copper is widely used underground in water lines, carrying water from the street to the home in most residential settings. Copper is a noble metal and is non-corrosive in most soil conditions. A soil sample test is done for every geothermal installation to ensure the integrity of the ground loop. If an enviroment exists that could potentially harm the copper, a simple and inexpensive ground loop protection system is installed. This method is proven to provide over 100 years of protection on the copper loop. The copper will easily stand the test of time and last many years to come. With a Waterless geothermal from Buschur’s, you can have peace of mind with your Geothermal project during the initial installation and for years to come. Some people believe that the first use of geothermal energy occurred more than 10,000 years ago in North America by American Paleo-Indians. Actually, the basic "modern" technology has been around for more than 50 years and improved upon ever since. To date, over one million installations in the United States alone have allowed a significant amount of homeowners and businesses to enjoy the benefits of geothermal systems. In fact, consumers rank their comfort and satisfaction with geothermal systems higher than any other type of system. Geothermal heating and cooling is different than geothermal energy. The word geothermal comes from the Greek words "geo" (meaning earth), and "thermos" (meaning heat). Earth heat describes both geothermal energy and geothermal heating, but each utilizes heat created by a different source. Geothermal energy is a natural energy source derived from the heat found in the earth's core. An example of this is the magma, or liquid rock that comes from the earth's center through geological openings and flows from volcanos. Hot springs and geysers are examples of warmth created with this kind of energy. Geothermal heating and cooling does not use geothermal energy, but rather ground source energy. (For that reason, you may hear geothermal heat pumps called ground source heat pumps.) Geothermal heat pump technology relies on the sun to heat the ground at the earth's surface, rather than the earth's core to heat it from below. Geothermal energy use is not widespread due to the complications of geology. Because geothermal heat pumps use the sun's energy, which is much more accessible, their application is viable virtually everywhere. In the cooling mode, the hot refrigerant (well over 100 degrees F) exiting ETA's compressor is sent directly into the approximate 50 to 60 degree F range deep earth, which now absorbs and takes the heat away. The cooled refrigerant fluid is then circulated through the air handler where it absorbs and removes unwanted heat from the interior air. The heated refrigerant travels to the ETA system's compressor unit where the process is repeated. Thus, in the cooling mode, the ground removes your heat for free. |