Live Line Training in Jordan

Posted on September 2, 2012 by admin

Between 2006 and 2012 Mitsa International has conducted several training programs in the county of Jordan.  During this period, we have trained linemen and engineers in safe working practices for Live Line Maintenance at LV (220/380V), MV (11/33 kV) and EHV (400 kV).

 

Our satisfied customers in Jordan include:

NEPCO (National Electric Power Company) – 28 linemen and engineers

IDECO (Irbid District Electric Company) – Over 60 linemen and engineers

EDCO (Electricity Distribution Company) – Over 60 linemen and engineers

http://www.mitsacy.com

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Hot Line Training – 500 kV Live Line Bonding

Posted on August 22, 2012 by admin

Below is a Laboratory Demonstration of Hot Line bonding on to 500 kV.

http://www.mitsacy.com

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Hot Line Training – Tower Self-Rescue

Posted on August 2, 2012 by admin

Below is a Self Rescue video taken during 400 kV training with NEPCO in Jordan.

http://www.mitsacy.com

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Hot Line Training – Montage video 400 kV Training

Posted on July 21, 2012 by admin

Below is a montage video taken during training with NEPCO in Jordan.  

http://www.mitsacy.com

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Hot Line Training – Pole Top Rescue – Method 2

Posted on July 8, 2012 by admin

Below is a pole top rescue video taken during training with IDECO in Jordan.  This method uses a separate rescue line to lower the victim to the ground.

http://www.mitsacy.com

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Hot Line Training – Pole Top Rescue – Method 1

Posted on July 1, 2012 by admin

Below is a pole top rescue video taken during training with  IDECO in Jordan.  This method uses the hand line to lower the victim to the ground.

 

 

http://www.mitsacy.com

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Safe Hot Line Washing Requirements Part 1 – Conductivity and/or Resistivity

Posted on June 20, 2012 by admin

For an efficient and safe washing of insulators, the water must have a minimum of 2540 ohm-cm or 100 ohm-in resistivity or a maximum of 400 micro-siemens conductivity. An additional note to this is that resistivity of water decreases as water temperature increases. Hence, it is important that the resistivity/conductivity of water be measured constantly. Normally, washer packages include “Constant resistivity monitors”, which notify the operator if water conductivity rises above a pre-set level. These monitors can be installed to automatically turn off the washer is this limit is reached. Portable meters are also available and can test the resistivity or conductivity of the water before filling up the tank.

 

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Water Temperature vs. Water Resistivity

Posted on June 18, 2012 by admin

The ultimate goal of insulator washing is to prevent flashovers. When water pressure is too low while washing, there is a far greater chance of a flashover occuring. The warmer water, the lower the resistivity, the lower the resistivity the lower the overall water pressure. Thus it is very important to maintain the proper temperature for washing. Modern tests show that leakage decreases the amoung of pressure in a tank. Thus, in order to gain the most procuctivity, a resistivity monitor should be inculded in all washing equipment.

Distance and nozzle size are also factors of overall pressure released on contact. Effectivley the smaller the nozzle size, the higher the pressure. Simularly, the further water moves, the more is is dispersed, thus decreasing over all water pressure.

 

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Hot Line Washing Saftey Test – Part 3

Posted on June 15, 2012 by admin

A third test was conducted on contaminated insulators. Firstly, they were flashed over, then washed, then flashed over again. During the process the voltage was noted when the second flashover occurred, thus establishing the effectiveness of the “washing”. An important note to add is that most of the insulators obtained full insulation ability.

The importance of having clean insulators stems in the issue of avoiding power loss due to leakage along the insulator chain. The testers had established that 1 milliampere would be the maximum acceptable limit of leakage current. Through a series of trials the optimal water pressure and distance had been found. Further, the testers also determine that special equipment had to be used in the washing. Initially fire and gardening hoses had been used, but due to the inability at being able to achieve the optimal pressure, hoses with smaller orifices, allowing greater pressure, were developed.

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Hot Line Washing Saftey Test – Part 2

Posted on June 13, 2012 by admin

The tests that had been run took place in a district were some insulators were being washed, whereas others were not. After light rain and fog, 57 pole tops had caught on fire along with 12 circuit interruptions in the unwashed section. On the contrary, no issues whatsoever  occurred on the washed insulators. The effect of adding other materials in water for washing was a test subject. An abrasive material (Grand Monterrey Sand) had been added to to a water stream. Effectively speaking, this abrasive material had been found to make no difference in washing contaminated insulators. Instead, the abrasive material posed a threat for clogging up the nozzle, thus disrupting the flow of water. Unfortunately, when put against cement and petroleum based materials, water had only been effective to a certain degree.

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