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Nouveau texte de la page, après la modification (new_wikitext) | <br>Understanding the connection between busbar temperature rise and lightning is essential to preventing catastrophic damage to electrical equipment. Lightning causes brief surges in busbar temperatures along with blackouts that may last for several minutes or hours. This type of surge in temperature and blackouts is usually not serious, however it can interrupt or prevent valuable work being done on electrical equipment. Since electric equipment is not designed to withstand sudden temperature changes, it is important to prevent short-circuit or surge in temperature and blackouts to safeguard it from devastating loss. Busbar Control Panel (BBP) systems provide safety by isolating the busbar and its terminal from fluctuating temperatures.<br><br><br>Introduction to Busbar Temperature Rise. For more regarding [https://www.rhibusbar.com/product/laminated_multilayer_copper_busbar.html buy RHI Copper Ground Busbar] check out the web site. A sudden rise in outdoor temperature of up to 15 degrees or more can happen almost immediately after a thunderstorm or even before if a thunderhead is visible. The ambient temperature immediately surrounding a thunderstorm can rise by as much as 25 degrees to as much as 30 degrees C. The increase in temperature and increased pressure caused by the updraft can cause the elevated busbar temperature to rise above the terminal's threshold. The increase in temperature can prevent the terminal from thermally closing, which can cause irreparable damage. A properly installed busbar temperature controller can sense these changes in temperatures and shut down the busbar system before damaging the equipment.<br><br><br>How Does a Busbar Temperature Controller (BBPC) Controlling Software Control a Bus Bar? The purpose of a bus temperature controller (BBPC) is to protect equipment from temperature fluctuations. Temperature changes can occur in any one of several ways. First, the temperature can drop suddenly from ambient heat such as in the case of an overcast sky, causing a hot busbar. Second, sudden temperature increases can come from nearby temperature spikes or from external sources such as boiling water, strong winds, or even from the passing by of aircraft.<br><br><br>When an aircraft passes over a cloud, it creates turbulence, which can push warm air into the clouds. This warm air can then condense on the wings of an aircraft and increase the temperature on the ground above the cloud. If this hot air were to rise to the eye level, it would cause an increase in temperature above and around the cloud. In a situation like this, the pressure would increase with the increase in temperature and a bar could form in the cloud. The effect of this bar would be to increase the temperature of the surrounding area. If the Bar is large enough, it can form a cloudbank and cause the onset of a weather pattern known as a cold outbreak.<br><br><br>How does a Bus Bar Temperature Controller solve these problems? A bus temperature controller allows for controlled temperature increase or decrease of an airplane's temperature. It uses sensors to detect the height of clouds and the amount of pressure in the surrounding air. With the data collected, the controller is able to trigger an activation switch that causes the heater to turn on and off according to the busbar temperature sensor's readings. If the aircraft is flying at a high altitude and there is little or no pressure in the surrounding air, the switch will not be triggered, and thus no increase in the aircraft's temperature will occur.<br><br><br>This system will allow for continuous control of aircraft temperatures throughout the flight. It also provides for safe operation at any altitude. Temperature change sensors are mounted on the leading edge of each wing. If they sense a low pressure in the surrounding air, they will activate the heater until the surrounding pressure increases. This will result in an increase in temperature along the leading edge of the wing, increasing the temperature of that area. Once the pressure increases, the temperature decrease will trigger the burner and increase the temperature.<br> |
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+<br>Understanding the connection between busbar temperature rise and lightning is essential to preventing catastrophic damage to electrical equipment. Lightning causes brief surges in busbar temperatures along with blackouts that may last for several minutes or hours. This type of surge in temperature and blackouts is usually not serious, however it can interrupt or prevent valuable work being done on electrical equipment. Since electric equipment is not designed to withstand sudden temperature changes, it is important to prevent short-circuit or surge in temperature and blackouts to safeguard it from devastating loss. Busbar Control Panel (BBP) systems provide safety by isolating the busbar and its terminal from fluctuating temperatures.<br><br><br>Introduction to Busbar Temperature Rise. For more regarding [https://www.rhibusbar.com/product/laminated_multilayer_copper_busbar.html buy RHI Copper Ground Busbar] check out the web site. A sudden rise in outdoor temperature of up to 15 degrees or more can happen almost immediately after a thunderstorm or even before if a thunderhead is visible. The ambient temperature immediately surrounding a thunderstorm can rise by as much as 25 degrees to as much as 30 degrees C. The increase in temperature and increased pressure caused by the updraft can cause the elevated busbar temperature to rise above the terminal's threshold. The increase in temperature can prevent the terminal from thermally closing, which can cause irreparable damage. A properly installed busbar temperature controller can sense these changes in temperatures and shut down the busbar system before damaging the equipment.<br><br><br>How Does a Busbar Temperature Controller (BBPC) Controlling Software Control a Bus Bar? The purpose of a bus temperature controller (BBPC) is to protect equipment from temperature fluctuations. Temperature changes can occur in any one of several ways. First, the temperature can drop suddenly from ambient heat such as in the case of an overcast sky, causing a hot busbar. Second, sudden temperature increases can come from nearby temperature spikes or from external sources such as boiling water, strong winds, or even from the passing by of aircraft.<br><br><br>When an aircraft passes over a cloud, it creates turbulence, which can push warm air into the clouds. This warm air can then condense on the wings of an aircraft and increase the temperature on the ground above the cloud. If this hot air were to rise to the eye level, it would cause an increase in temperature above and around the cloud. In a situation like this, the pressure would increase with the increase in temperature and a bar could form in the cloud. The effect of this bar would be to increase the temperature of the surrounding area. If the Bar is large enough, it can form a cloudbank and cause the onset of a weather pattern known as a cold outbreak.<br><br><br>How does a Bus Bar Temperature Controller solve these problems? A bus temperature controller allows for controlled temperature increase or decrease of an airplane's temperature. It uses sensors to detect the height of clouds and the amount of pressure in the surrounding air. With the data collected, the controller is able to trigger an activation switch that causes the heater to turn on and off according to the busbar temperature sensor's readings. If the aircraft is flying at a high altitude and there is little or no pressure in the surrounding air, the switch will not be triggered, and thus no increase in the aircraft's temperature will occur.<br><br><br>This system will allow for continuous control of aircraft temperatures throughout the flight. It also provides for safe operation at any altitude. Temperature change sensors are mounted on the leading edge of each wing. If they sense a low pressure in the surrounding air, they will activate the heater until the surrounding pressure increases. This will result in an increase in temperature along the leading edge of the wing, increasing the temperature of that area. Once the pressure increases, the temperature decrease will trigger the burner and increase the temperature.<br>
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Lignes ajoutées lors de la modification (added_lines) | <br>Understanding the connection between busbar temperature rise and lightning is essential to preventing catastrophic damage to electrical equipment. Lightning causes brief surges in busbar temperatures along with blackouts that may last for several minutes or hours. This type of surge in temperature and blackouts is usually not serious, however it can interrupt or prevent valuable work being done on electrical equipment. Since electric equipment is not designed to withstand sudden temperature changes, it is important to prevent short-circuit or surge in temperature and blackouts to safeguard it from devastating loss. Busbar Control Panel (BBP) systems provide safety by isolating the busbar and its terminal from fluctuating temperatures.<br><br><br>Introduction to Busbar Temperature Rise. For more regarding [https://www.rhibusbar.com/product/laminated_multilayer_copper_busbar.html buy RHI Copper Ground Busbar] check out the web site. A sudden rise in outdoor temperature of up to 15 degrees or more can happen almost immediately after a thunderstorm or even before if a thunderhead is visible. The ambient temperature immediately surrounding a thunderstorm can rise by as much as 25 degrees to as much as 30 degrees C. The increase in temperature and increased pressure caused by the updraft can cause the elevated busbar temperature to rise above the terminal's threshold. The increase in temperature can prevent the terminal from thermally closing, which can cause irreparable damage. A properly installed busbar temperature controller can sense these changes in temperatures and shut down the busbar system before damaging the equipment.<br><br><br>How Does a Busbar Temperature Controller (BBPC) Controlling Software Control a Bus Bar? The purpose of a bus temperature controller (BBPC) is to protect equipment from temperature fluctuations. Temperature changes can occur in any one of several ways. First, the temperature can drop suddenly from ambient heat such as in the case of an overcast sky, causing a hot busbar. Second, sudden temperature increases can come from nearby temperature spikes or from external sources such as boiling water, strong winds, or even from the passing by of aircraft.<br><br><br>When an aircraft passes over a cloud, it creates turbulence, which can push warm air into the clouds. This warm air can then condense on the wings of an aircraft and increase the temperature on the ground above the cloud. If this hot air were to rise to the eye level, it would cause an increase in temperature above and around the cloud. In a situation like this, the pressure would increase with the increase in temperature and a bar could form in the cloud. The effect of this bar would be to increase the temperature of the surrounding area. If the Bar is large enough, it can form a cloudbank and cause the onset of a weather pattern known as a cold outbreak.<br><br><br>How does a Bus Bar Temperature Controller solve these problems? A bus temperature controller allows for controlled temperature increase or decrease of an airplane's temperature. It uses sensors to detect the height of clouds and the amount of pressure in the surrounding air. With the data collected, the controller is able to trigger an activation switch that causes the heater to turn on and off according to the busbar temperature sensor's readings. If the aircraft is flying at a high altitude and there is little or no pressure in the surrounding air, the switch will not be triggered, and thus no increase in the aircraft's temperature will occur.<br><br><br>This system will allow for continuous control of aircraft temperatures throughout the flight. It also provides for safe operation at any altitude. Temperature change sensors are mounted on the leading edge of each wing. If they sense a low pressure in the surrounding air, they will activate the heater until the surrounding pressure increases. This will result in an increase in temperature along the leading edge of the wing, increasing the temperature of that area. Once the pressure increases, the temperature decrease will trigger the burner and increase the temperature.<br>
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