Failures on 400 kV Lines in Venezuela Highlighted Importance of Corona Rings on Composite Insulators

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It is already well known that composite insulators used at transmission voltages have to be equipped with co-rona rings to reduce the risk of severe erosion to their polymeric housings. Yet, there are still cases where such insulators are either installed without rings or where the rings become detached and fall off due to factors such as conductor vibration or improper installation.

This 2015 article, contributed by Cristian Gutiérrez Aguirre of CORPOLEC, discussed two incidents involving composite insulators in service on 400 kV overhead lines in Venezuela. In the first case, lines workers omit-ted to install corona rings during construction and this resulted in a flashunder and mechanical fracture causing a permanent single-phase fault. In the second incident, the corona ring came loose and fell off. Fortunately, here the outcome was less severe since the problem was detected before it had progressed to failure. Both these situations highlight the importance of ensuring rings are always present and intact at transmission voltages.


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CORPOELEC’s 400 kV transmission system consists of about 4300 km of overhead lines with circa 10,350 towers. The first such lines entered commercial operation in 1969 and were constructed with either glass or porcelain insulators. Use of polymeric insulators on 400 kV lines in Venezuela started only in 1998 but has grown rapidly since then. These insulators are now in service on over 2500 towers along 980 km of lines, representing 23% of the country’s total interconnected system. The cases discussed below document what can happen to polymeric insulators when they do not have suitable corona rings. Material failures or external factors such as environmental pollution can then reduce their service life.

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Case 1: No. 1 Palital-Furrial 400 kV Line

The No. 1 Palital-Furrial line runs 169 km and has 402 towers, of which 385 are suspension and 17 dead end. The route of this line, first energized in December 1999, is mostly flat and from 40 to 180 meters above sea level. On January 7, 2015, there was a single phase fault with unsuccessful reclosing. Three minutes later, staff at the Operations Center staff attempted a manual reclose but this also proved unsuccessful due to the presence of a permanent fault. An aerial inspection was initiated that same day. According to information provided by Operations Center staff, the disturbance involved a single phase to ground fault (phase B) located about 7 km from the El Furrial Substation.

Location of fault point on tower No. 384. corona ring Failures on 400 kV Lines in Venezuela Highlighted Importance of Corona Rings on Composite Insulators Screen Shot 2016 11 18 at 13
Location of fault point on tower No. 384.
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During the aerial inspection, the point of failure was determined to have occurred at dead end tower no. 384. A polymeric insulator supporting the jumper conductor on phase B had failed mechanically and dropped the loop onto the structure.

The failed insulator on phase B was supporting the jumper (by-pass) mechanically, with an estimated weight of 600 pounds for all components. After assesing the damage, the failed insulator was replaced and all insulators on the structure were inspected. Special attention was given to the insulator on phase A since that it was just 9 meters from the phase B insulator and exposed to the same mechanical stresses and other service conditions.

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Failure Analysis & Inspection Results

Because of the failure, a special team was formed to analyze and identify the factors that led to the insulator fracture. The objective was to take preventive measures to avoid further such failures on the line. One of the key steps in this regard was visual inspection and corona tests on all the line’s dead-end towers to assess the general condition of the insulation. This was conducted later that January using special UV camera equipment and the findings were as follows:

1. It was discovered that on several of the line’s 17 dead end towers (nos. 2, 4 and 384) the insulators supporting the jumper did not have corona rings. Intense corona activity and discoloration was observed on their sheds nearest the line potential (see Table 1).

Visual & Corona Camera Inspection  corona ring Failures on 400 kV Lines in Venezuela Highlighted Importance of Corona Rings on Composite Insulators Screen Shot 2016 01 20 at 11
Table 1: Results of Visual & Corona Camera Inspection.
After completing the inspections, those insulators which had high corona activity (i.e. above 2000 photons/sec) were scheduled for replacement. Moreover, photos of towers nos. 2, 4 and 384 were taken to serve as a reference of the condition of their insulators at that time.
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2. On other dead-end towers (nos. 97, 100, 103, 128, 137, 300, 400 and 401) all auxiliary guidance insulators were equipped with corona rings and appeared in good condition, without physical evidence of corona activity.

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3. Insulators located close to Palital Substation had a layer of dark contamination that adhered to sheds and this was attributed to a nearby area emitting industrial pollution. By contrast, no contamination was observed on insulators on tower no. 384, which is located in a clean area with much rainfall and sandy terrain.

General view of phase B insulator on tower no. 2. corona ring Failures on 400 kV Lines in Venezuela Highlighted Importance of Corona Rings on Composite Insulators Screen Shot 2016 01 20 at 11
General view of phase B insulator on tower no. 2.
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Erosion detected at bar insulator on tower No. 2 using corona test equipment. corona ring Failures on 400 kV Lines in Venezuela Highlighted Importance of Corona Rings on Composite Insulators Screen Shot 2016 01 20 at 11
Erosion detected at bar insulator on tower No. 2 using corona test equipment.
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Insulator removed from tower No. 384 had fiberglass core rod fully exposed to environment and showed perforation between first and second sheds.   corona ring Failures on 400 kV Lines in Venezuela Highlighted Importance of Corona Rings on Composite Insulators Screen Shot 2016 01 20 at 11
Insulator removed from tower No. 384 had fiberglass core rod fully exposed to environment and showed perforation between first and second sheds.
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CASE 2: Macagua-Las Claritas 400 kV line

The Macagua-Las Claritas 400 kV overhead line, commissioned in August 2000, runs 298 km and has 721 towers (671 suspension towers, 47 dead end towers). Some 90% of its route covers flat terrain and is between 50 and 150 meters above sea level.

Aerial inspection in July 2011 detected that the corona ring at the energized end of the phase B insulator on tension tower no. 141 had become detached. This problem was monitored periodically and the insulator replaced in April 2014 based on the experience described in Case 1.

Polymeric phase B insulator on tower no. 141with detached corona ring. corona ring Failures on 400 kV Lines in Venezuela Highlighted Importance of Corona Rings on Composite Insulators Screen Shot 2016 01 20 at 11
Polymeric phase B insulator on tower no. 141 with detached corona ring.
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Inspection Results

Visual inspection as well as corona and thermography testing were performed on all insulators on tower no. 141, with special emphasis on the phase B insulator where the corona ring had detached and fallen off. The results:

• no damage was observed on the insulator housing;
• there was no significant temperature increase;
• corona activity was of medium intensity;
• the first 3 sheds of the insulator were discolored.

Corona test and thermography on tower no. 141. corona ring Failures on 400 kV Lines in Venezuela Highlighted Importance of Corona Rings on Composite Insulators Screen Shot 2016 01 20 at 11
Corona test and thermography on tower no. 141.
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The insulator on tower No. 141 that showed medium corona activity due to the loss of its ring was removed from service and sent for detailed insepction. Two cross-section cuts were made 50 cm from each end of the insulator to check for leakage current and to assess physical condition.

Cross-section made to insulator removed from tower No. 141. corona ring Failures on 400 kV Lines in Venezuela Highlighted Importance of Corona Rings on Composite Insulators Screen Shot 2016 01 20 at 11
Cross-section made to insulator removed from tower No. 141.
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Cross-section made to insulator removed from tower No. 141. corona ring Failures on 400 kV Lines in Venezuela Highlighted Importance of Corona Rings on Composite Insulators Screen Shot 2016 08 26 at 10
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Conclusions

1. The two cases described clearly demonstrate that it is important to install corona rings at the energized end of polymeric insulators used on 400 kV overhead lines. This is true for both suspension and tension towers since corona can reduce the effective service life of such insulators to less than 14 years. It is also important to take into account whether the route of a line passes areas with agricultural, maritime or industrial pollution as this will accelerate irreversible structural damage to such insulators. The outcomes described here were not due to manufacturing defects but rather to the absence a corona ring. This resulted in a high concentration of electric field, producing corona effects that permanently destroyed the silicone rubber housing and left the core rod exposed to the environment.

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2. Corona rings designed and supplied by their manufacturer must be installed on polymeric insulators used at transmission voltages. Some manufacturers recommend grading rings at both ends of the insulator at higher transmission line voltages.

3. It should be mandatory that corona rings be installed during construction of any line and, if such accessories are missing, the line should not be energized.

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4. Visual inspection with binoculars and evaluation of corona activity using high sensitivity UV cameras can help detect problems affecting polymeric insulators. Both should therefore be part of routine annual or bi-annual inspections to prevent insulator failures on overhead transmission lines.

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5. Suitable inspection procedures should be developed by utility maintenance departments to establish proper methodologies for visual inspection and detection of corona activity on polymeric insulators at close distance. Work methods must address such inspection with the line energized or de-energized and the main objective is to evaluate the physical operating condition of polymeric insulators and identify any units with higher risk of failure. Depending on maintenance resources, the inspection methodology should be performed tower by tower, climbing each structure and avoiding stepping on insulators. It can also performed using trucks with aerial work platforms or insulated ladders.