SPACE CHARGE MEASUREMENT TECHNIQUE FOR FULL SCALE CABLE AT HIGH CONDUCTOR TEMPERATURE
Background. Polymer insulated HVDC power cable is being employed for submarine transmission with long distance. Its insulation may produce internal space charge, which cause a distortion of electrical field. Moreover, since the insulation is subjected to a high temperature originating from the cu...
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| Format: | Theses |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/32835 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Background. Polymer insulated HVDC power cable is being employed for
submarine transmission with long distance. Its insulation may produce internal
space charge, which cause a distortion of electrical field. Moreover, since the
insulation is subjected to a high temperature originating from the current in the
conductor, space charge can be easily injected to the insulation. In the development
process of cables, it is very substantial to prove that no significant space charge is
formed. The space charge measurement for full-scale cable is preferable at the final
stage of the development. One of the powerful tools for space charge measurement
is Pulse Electro-Acoustic (PEA) method. In this study, the equipment for space
charge measurement in full size cable was modified to obtain high temperature
conductor by Current Transformer (CT) and the space charge distribution was
investigated at high conductor temperature. We proposed a method to estimate the
conductor temperature for the result of the charge distribution.
Experimental method. Space charge measurement at high conductor temperature is
applied for a full-sized model cable with the construction of 3 mm polymer
insulation thickness, 1.025 mm for outer semiconductor, 1.05 mm for inner
semiconductors and conductor diameter 14.35 mm. A high current at the conductor
is generated by adjusting the current flowing through the CT and it heat up the cable up to 361K. Then, space charge is measured by using a PEA technique at high
conductor temperature.
Results and Discussion. Space charge distribution was investigated by applying the
30 kV DC at room temperature or high conductor temperature. From the detection
time difference between the signal of the conductor and ground electrode, sound
speed for XLPE at room temperature is 2,069 m/s. The detection time difference at
high conductor temperature became more longer than that at room temperature.
Assuming that the change of the detection time difference caused by changing the
sound speed of XLPE at high conductor temperature, the speed of XLPE at high
conductor temperature can be estimated to be approximately 1,810 m/s. The
conductor temperature corresponding to this sound speed change can be estimated
as 358.15 K. This estimated conductor temperature is almost the same as the
measured one 360.15 K by thermocouple. It was suggested that the conductor
temperature can be estimated by space charge measurement without directly
measuring the conductor temperature. Since space charge measurement for full size
cable in conventional research has been performed at room temperature, the space
charge accumulation cannot be evaluated. Space charge is significantly
accumulated at high conductor temperature and its phenomena can be investigated
by using the developed equipment.
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