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the article citations: time:2016-05-30 10:04:48
most stem from damaged bearings or stator windings. lack of lubrication, over lubrication, misalignment and bearing (shaft) currents often dramatically shorten bearing life. the culprits responsible for premature failure of stator windings include mechanical or thermal overload, poor ventilation, and transient voltages/use on variable-frequency drives (). fortunately for plant managers, most premature can be prevented using straightforward solutions to protect bearings and stator windings.
there are six main causes of :
over-current
low resistance
over heating
dirt
moisture
vibration
these causes are briefly explained below:
1. in different operating conditions, electrical devices will sometimes start to draw more current than their overall capacity. this unpredictable event will happen very suddenly and will greatly impact the motor. to avoid an over-current, there are some devices that need to be installed that can prevent it from happening. these devices are usually wired in the circuits and will automatically shut down the extra amount of current flowing in the circuit.
2. : most motor failures occur due to low insulation resistance. this issue is considered to be the most difficult one to tackle. in the initial stages of motor installation, the insulation resistance is observed to be more than one thousand megaohms. after some time, the insulation performance starts to degrade at an alarming level because the resistance starts to decay gradually. after a lot of research, a solution has been found which can prevent low resistance failures. there are automatic devices that test insulation resistance from time to time and safeguard rotating equipment is installed that prevents such failures. it is important that the insulation performance is monitored at regular intervals.
3. excessive heat in motors can cause a number of performance problems. overheating causes the motor winding insulation to deteriorate quickly. for every ten centigrade rise in temperature, the insulation life is cut in half. it has been concluded that more than 55% of the insulating failures are caused by over heating.
over heating occurs due to a number of factors. every electric motor has a design temperature. if a motor is started off at a bad current value, it starts operating in a much warmer condition than the design temperature. it is very important that the motors should be matched with their ideal current values.
overheating also occurs when an electric motor is forced to operate in a high temperature environment. this causes the rate at which heat can be conducted to reduce at an alarming rate. the area where electric motors are operating must have a proper cooling system and a ventilation system should be there in case the cooling system stops working.
4. : dirt is one of the major sources that cause damage to the electric motors. it can damage the motor by blocking the cooling fan which causes its temperature to raise. it can also affect the insulating value of the winding insulation if it settles on the motor windings. proper steps should be taken to prevent the motors from dirt. shielding devices are available which are used for this purpose.
5. : moisture also affects the performance of electric motors. it greatly contributes in the corrosion of the motor shafts, bearings and rotors. this can lead to an insulation failure also. the motor inventory should be kept dry all the time.
6. : there are a number of possible causes of vibration, such as misalignment of the motor. corrosion of parts can also cause the motor to vibrate. the alignment of the motor should be checked to eliminate this issue.
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there are six main causes of :
over-current
low resistance
over heating
dirt
moisture
vibration
these causes are briefly explained below:
1. in different operating conditions, electrical devices will sometimes start to draw more current than their overall capacity. this unpredictable event will happen very suddenly and will greatly impact the motor. to avoid an over-current, there are some devices that need to be installed that can prevent it from happening. these devices are usually wired in the circuits and will automatically shut down the extra amount of current flowing in the circuit.
2. : most motor failures occur due to low insulation resistance. this issue is considered to be the most difficult one to tackle. in the initial stages of motor installation, the insulation resistance is observed to be more than one thousand megaohms. after some time, the insulation performance starts to degrade at an alarming level because the resistance starts to decay gradually. after a lot of research, a solution has been found which can prevent low resistance failures. there are automatic devices that test insulation resistance from time to time and safeguard rotating equipment is installed that prevents such failures. it is important that the insulation performance is monitored at regular intervals.
3. excessive heat in motors can cause a number of performance problems. overheating causes the motor winding insulation to deteriorate quickly. for every ten centigrade rise in temperature, the insulation life is cut in half. it has been concluded that more than 55% of the insulating failures are caused by over heating.
over heating occurs due to a number of factors. every electric motor has a design temperature. if a motor is started off at a bad current value, it starts operating in a much warmer condition than the design temperature. it is very important that the motors should be matched with their ideal current values.
overheating also occurs when an electric motor is forced to operate in a high temperature environment. this causes the rate at which heat can be conducted to reduce at an alarming rate. the area where electric motors are operating must have a proper cooling system and a ventilation system should be there in case the cooling system stops working.
4. : dirt is one of the major sources that cause damage to the electric motors. it can damage the motor by blocking the cooling fan which causes its temperature to raise. it can also affect the insulating value of the winding insulation if it settles on the motor windings. proper steps should be taken to prevent the motors from dirt. shielding devices are available which are used for this purpose.
5. : moisture also affects the performance of electric motors. it greatly contributes in the corrosion of the motor shafts, bearings and rotors. this can lead to an insulation failure also. the motor inventory should be kept dry all the time.
6. : there are a number of possible causes of vibration, such as misalignment of the motor. corrosion of parts can also cause the motor to vibrate. the alignment of the motor should be checked to eliminate this issue.
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