In electrical systems, high temperatures normally indicate an impending trouble. This can result from unnecessarily high resistance, short circuits, poor connections, ground fault or any other failing components common with electrical equipment. The problem must be pinpointed and rectified early enough as complete failures are normally expensive and at times can results to catastrophes. Instead of struggling to find the incipient failures through visual and other manual inspection methods which are costly, time consuming and may not pinpoint the problem, engineers are now turning to electrical infrared inspection that has proved to be the most effective alternative.
The general recommendation is that all parts of electrical system that are exposed to vibrations and or any other movements are inspected at least every six months while the rest are inspected on annual basis. For the system exposed to earthquakes, frozen winter conditions, very strong winds and tsunamis, there is a need for more frequent testing.
Excessive heat is normally an indication of the underlying problem that must be handled before a disaster. Other than mechanical damages to power lines and other electrical devices, there are several causes of overheating but the common ones include faulty assembly, loose connections, wear and tear, ground faults, contamination and corrosion. Most of these results from exposure to physical elements and thus calls for periodic inspection.
The other benefit of this survey is that there is no need to shut down the system. It is a non-contact a nondestructive form of testing (NDT) that allows for work continuation without interrupting system production. The equipment get inspected under normal loads and the normal operating condition by scanning devices to reveal the existing and emerging problems before it is too late.
If you choose to use this form of testing, there is no need to shut down any part of the system as the testing is non-contact and nondestructive (NDT) at the same time. This means that all components can be inspected under their normal loads in the normal operating system. It involves scanning with the aim of revealing improper connections, damages and any form of flaws well in advance before they can result to any disaster.
With the endorsement and approval from the InterNational Electrical Testing Association and the National Fire Protection Association and other related regulatory authorities, it is a mistake to continue depending on the manual method of testing.
Among several benefits you stand to benefit from, there is the precise pinpointing of hotspots, reduced down time, elimination of unscheduled outages, reduced cost of energy due to efficiency and predictive or proactive approach to electrical maintenance program. The general reduction of resource deployed (human resources and finances) also translates to lower cost of energy.
Part of the decision to use this cutting edge infrared detection technology requires that the companies you choose for your inspection job are certified. They should have experienced engineers for the job with a proven work record. With the correct inspectors, you will be able to significantly reduce unscheduled power outages and increase energy efficiency, safety and dependability in general.
The general recommendation is that all parts of electrical system that are exposed to vibrations and or any other movements are inspected at least every six months while the rest are inspected on annual basis. For the system exposed to earthquakes, frozen winter conditions, very strong winds and tsunamis, there is a need for more frequent testing.
Excessive heat is normally an indication of the underlying problem that must be handled before a disaster. Other than mechanical damages to power lines and other electrical devices, there are several causes of overheating but the common ones include faulty assembly, loose connections, wear and tear, ground faults, contamination and corrosion. Most of these results from exposure to physical elements and thus calls for periodic inspection.
The other benefit of this survey is that there is no need to shut down the system. It is a non-contact a nondestructive form of testing (NDT) that allows for work continuation without interrupting system production. The equipment get inspected under normal loads and the normal operating condition by scanning devices to reveal the existing and emerging problems before it is too late.
If you choose to use this form of testing, there is no need to shut down any part of the system as the testing is non-contact and nondestructive (NDT) at the same time. This means that all components can be inspected under their normal loads in the normal operating system. It involves scanning with the aim of revealing improper connections, damages and any form of flaws well in advance before they can result to any disaster.
With the endorsement and approval from the InterNational Electrical Testing Association and the National Fire Protection Association and other related regulatory authorities, it is a mistake to continue depending on the manual method of testing.
Among several benefits you stand to benefit from, there is the precise pinpointing of hotspots, reduced down time, elimination of unscheduled outages, reduced cost of energy due to efficiency and predictive or proactive approach to electrical maintenance program. The general reduction of resource deployed (human resources and finances) also translates to lower cost of energy.
Part of the decision to use this cutting edge infrared detection technology requires that the companies you choose for your inspection job are certified. They should have experienced engineers for the job with a proven work record. With the correct inspectors, you will be able to significantly reduce unscheduled power outages and increase energy efficiency, safety and dependability in general.
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