Field tests are conducted to verify that installed equipment has not been damaged and is ready for energizing. Photo: IAEA Imagebank (Flickr CC).
Testing electrical equipment in the field is the best way to assure that it will perform its design functions safely and adequately.
While the manufacturer conducts electrical tests on equipment before it leaves the factory, these tests mean nothing once the equipment is exposed to the elements and rough handling involved with transportation and installation.
Field tests are conducted to verify that installed equipment has not been damaged and is ready for energizing. Tests on existing equipment indicate whether any corrective maintenance or replacement is necessary.
The method of testing to be performed depends on the age and state of the device under test.
Hiring a certified third-party testing organization assures the owner that all tests will be performed objectively, independent of the manufacturer, according to specifications, using calibrated instruments and personnel qualified for the task.
Electrical testing is generally classified by the three following methods:
1.) Acceptance Tests
Also known as start-up or commissioning tests, acceptance testing is performed on new equipment, usually soon after installation and prior to energizing.
Tests of these type assure that the tested electrical equipment and systems are operational, within the applicable standards and tolerances, and are installed in accordance with the manufacturers specifications. Many criteria are used in determining what equipment is to be tested and to what extent.
When implemented properly, acceptance testing consists of four steps:
- Factory acceptance testing — equipment is tested before shipping to correct design and manufacturing flaws.
- Testing upon receipt — testing is performed after the equipment is delivered but before it's is signed for to ensure the shipment arrived without damage.
- Installation acceptance testing — equipment is tested immediately after it is installed to correct any errors in the installation.
- System functional testing — equipment is run through real-world operations prior to energizing to "test drive" the controls and troubleshoot any issues. Also often referred to as Start-up or pre-op testing.
When acceptance tests are repeated before the warranty period expires (within a year or so) they are referred to as proof tests. Acceptance testing in the field is also used to establish a benchmark for future tests.
2.) Routine Maintenance Tests
Periodic electrical testing is the best way to detect gradual deterioration of electrical power equipment over its service life.
Routine Maintenance tests are performed at regular intervals. The most effective testing frequency is one that is reliability-based, unique to each plant and to each piece of equipment.
Periodic testing is the best way to detect gradual deterioration of electrical power equipment over its service life. Photo: ee publishers
The specific equipment condition, criticality, and reliability must be determined to effectively decide which tests to perform. In the course of routine maintenance tests, it is very helpful to record the information as it is found on the equipment and to also record the condition in which the equipment is left.
Maintenance testing, therefore, can be further subdivided into the following:
- As-found tests: Performed on equipment before any cleaning or maintenance work is done.
- As-left tests: Performed after maintenance has been performed and just before re-energizing.
Comparing as-found and as-left tests can indicate the degree of improvement in the equipment and service as a benchmark for comparison for future tests.
3.) Special Maintenance Tests
Infrared scanning is an effective way to find and prioritize defective electrical equipment in need of special maintenance. Photo: Sandhills Thermal (YT)
When equipment is known to be defective, or has been subjected to adverse conditions, special maintenance tests are used to verify its operating characteristics before attempting to re-energize.
An example of an adverse condition might be the fault interruption by a circuit breaker, which requires inspection, maintenance, and tests before it can be placed back into service. A more extreme scenario might involve trying to restore service to a switchgear or motor control center that has been exposed to water during a basement flood.
Just like with Acceptance Testing, many criteria are used in determining what is to be tested and to what extent. Special maintenance tests could range from a simple visual inspection to complete start-up programs.
Which Electrical Testing Method Do I Choose?
No matter what the situation, which type of electrical test to perform depends on the age and state of the device under test. Hiring a certified third-party testing organization assures the owner that all tests will be performed by qualified personnel objectively, independent of the manufacturer, according to specifications, using calibrated instruments.
- Electrical Power Equipment Maintenance and Testing, Second Edition
- ANSI/NETA Standard for Acceptance Testing Specifications for Electrical Power Equipment and Systems 2013
- ANSI/NETA 2015 Standard for Maintenance Testing Specifications
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