• Avoids oil fire to transformer and surrounding equipment
  

• Allows transformers repair after internal fault
  

• Render impossible environmental pollution by containing the oil
  

• Eliminates risk to human life
  

• Reduces the downtime associates with transformer replacement
  

• Decreases the high costs associated with purchasing replacement power
  

• Eliminates disastrous public relations issues.
  
  

   For all transformers up to 1 000 MVA or above, located in: 

• Power plants and any industrial site whose production could be affected by the loss of a transformer
  

• All the transmission and distribution substations
  

• Industrial plants with high explosion risks (oil refineries, offshore plants, mines) (OLTC)
  

• Environmental sensitive areas
  

• Sites not equipped with firewalls and/or Oil Storage Pits as the TP is the sole technology able to sure existing installations in this case
  

   
    The TP for smaller transformers is equipped by with a depressurization chamber allowing the pressure to be released when an insulation failure occurs. The Inert Gas injection is made by the maintenance staff when they inspect the transformer via a transportable inert gas bottle. The TP is optimize to fit with the transformer space configuration.”

     For all small indoor transformers from 0.1 to 5 MVA such as: 

• Residential and office buildings
  

• Schools, universities, hotels, airports, hospitals
  

• Underground substations
  

• Industrial plants with high explosion risks (oil refineries, offshore plants, mines)
  

• Railway network power supply stations
  

• Environmental sensitive areas