Lightning can cause complete destruction to structures and buildings that they strike because they carry thousands of ohms of current. The huge amount of current discharged when a strike occurs destroys buildings and plants. It can also injure and kill human beings and animals. To avoid these effects, protection systems have been designed for installation on buildings. The installation is done at the highest point on the building. The system them runs along the height of the structure all the way into the ground. This is worth knowing about Oilfield lightning protection.
Lightning protection systems look like metal rods that points upwards on buildings. A path with least resistance to flow of electric current is provided by these systems for the lightning to flow through. Protection systems work based on this principle. There are four main parts that make up a typical protection system. Each part performs a specific function. They include surge suppressor, copper air terminals, copper clad ground rod and copper cable.
The fact that copper offers the best electrical conductivity makes it an ideal metal to be used. However, other metals can also be used too. Other systems in fact can only be built using aluminum. The protrusions visible on the building where the system is installed are air terminals. When a strike occurs, the terminals discharge the current.
Air terminals lead to ground rods through connecting cables. Installation of ground rods is done ten feet into the ground. The system is grounded to the ground of the plumbing or circuit box of the building. The entire electric system is covered by surge suppressors linked to circuit breakers. Surge suppressors may be placed at individual appliances in the house.
Most companies do their best to ensure that the system is concealed and unnoticeable to people. The only noticeable part of the system is usually the air terminals that unavoidably have to protrude above the building. The copper cable tends to weather and change color from the conspicuous orange color to a dull patina.
Any kind of building or structure can have the arresters. Homes, aircraft, trees, boats, water tanks, businesses and farm buildings are some of the structures where these systems are installed. There are three main organizations responsible for setting standards that have to be observed when designing and installing these systems. NFPA, UL and LPI are the three organizations.
The work of arresters is to ensure that the current that comes from strikes find a safe path into the ground. The current will go through any conductor in their path if arresters are not present. Examples of conductors that provide a good path for the current include gas pipes, rooftops, water pipes, phone cables, and electrical lines. The current travels through one or multiple conductors.
A better grounded conductor in the house or surrounding structures can be sought by the current from the strike if it is available. This can result to fires as the current can ignite fuel on its way. Materials such as wood, gasoline and paper can be ignited easily. The huge current can cause serious electrical problems by vaporizing electrical wires too.
Lightning protection systems look like metal rods that points upwards on buildings. A path with least resistance to flow of electric current is provided by these systems for the lightning to flow through. Protection systems work based on this principle. There are four main parts that make up a typical protection system. Each part performs a specific function. They include surge suppressor, copper air terminals, copper clad ground rod and copper cable.
The fact that copper offers the best electrical conductivity makes it an ideal metal to be used. However, other metals can also be used too. Other systems in fact can only be built using aluminum. The protrusions visible on the building where the system is installed are air terminals. When a strike occurs, the terminals discharge the current.
Air terminals lead to ground rods through connecting cables. Installation of ground rods is done ten feet into the ground. The system is grounded to the ground of the plumbing or circuit box of the building. The entire electric system is covered by surge suppressors linked to circuit breakers. Surge suppressors may be placed at individual appliances in the house.
Most companies do their best to ensure that the system is concealed and unnoticeable to people. The only noticeable part of the system is usually the air terminals that unavoidably have to protrude above the building. The copper cable tends to weather and change color from the conspicuous orange color to a dull patina.
Any kind of building or structure can have the arresters. Homes, aircraft, trees, boats, water tanks, businesses and farm buildings are some of the structures where these systems are installed. There are three main organizations responsible for setting standards that have to be observed when designing and installing these systems. NFPA, UL and LPI are the three organizations.
The work of arresters is to ensure that the current that comes from strikes find a safe path into the ground. The current will go through any conductor in their path if arresters are not present. Examples of conductors that provide a good path for the current include gas pipes, rooftops, water pipes, phone cables, and electrical lines. The current travels through one or multiple conductors.
A better grounded conductor in the house or surrounding structures can be sought by the current from the strike if it is available. This can result to fires as the current can ignite fuel on its way. Materials such as wood, gasoline and paper can be ignited easily. The huge current can cause serious electrical problems by vaporizing electrical wires too.
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