To develop online PD monitoring system for TX XLPE cable joint without external power supply (phase 3)
Partial Discharge (PD) monitoring is often conducted on cables that are put under high voltage stress. This plays a salient role in determining cable insulation quality and reducing the occurrence of insulation breakdown. As such, the cables in transmission and distribution networks are frequentl...
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sg-ntu-dr.10356-1575432023-07-07T19:17:54Z To develop online PD monitoring system for TX XLPE cable joint without external power supply (phase 3) Low, Daniel Boon Howe Foo Yi Shyh Eddy School of Electrical and Electronic Engineering EddyFoo@ntu.edu.sg Engineering::Electrical and electronic engineering Partial Discharge (PD) monitoring is often conducted on cables that are put under high voltage stress. This plays a salient role in determining cable insulation quality and reducing the occurrence of insulation breakdown. As such, the cables in transmission and distribution networks are frequently monitored to examine the state of cable insulation degradation. These test results can be used to predict and determine the lifespan of the cable insulation and even determine the phasing out of equipment due to compromised insulation. PD monitoring devices have to be powered up using electricity from the grid or power sources like batteries. These batteries need to be changed constantly when the energy stored in them has been depleted. Therefore, the suggested solution is to substitute the batteries with an alternative power source capable of generating the energy needed for powering up a PD monitoring device. Currently, the suggested alternative are the neighboring Cross-Linked Polyethylene Cables (TX XLPE) of the tested TX XLPE cable. Refer to Appendix A for more information on TX XLPE cables. With the designed electromagnetic induction device tested functionally by the previous student, this Final Year Project aims to investigate the feasibility of converting the induced Alternating Current (AC) to a stable Direct Current (DC) that can be used to power up the PD monitoring device. This report will focus on topics such as PD monitoring devices, voltage regulatory circuits, buck-boost circuits and improvements to the electromagnetic induction device to reduce the power fluctuation by stabilizing the device during the harnessing of power from the TX XLPE cable. This report aims to provide readers with various insights on regulating electrical power to the desired level depending on the intended usage. Bachelor of Engineering (Electrical and Electronic Engineering) 2022-05-19T12:26:28Z 2022-05-19T12:26:28Z 2022 Final Year Project (FYP) Low, D. B. H. (2022). To develop online PD monitoring system for TX XLPE cable joint without external power supply (phase 3). Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/157543 https://hdl.handle.net/10356/157543 en B1044-211 application/pdf Nanyang Technological University |
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Engineering::Electrical and electronic engineering Low, Daniel Boon Howe To develop online PD monitoring system for TX XLPE cable joint without external power supply (phase 3) |
description |
Partial Discharge (PD) monitoring is often conducted on cables that are put under high
voltage stress. This plays a salient role in determining cable insulation quality and
reducing the occurrence of insulation breakdown. As such, the cables in transmission
and distribution networks are frequently monitored to examine the state of cable
insulation degradation. These test results can be used to predict and determine the
lifespan of the cable insulation and even determine the phasing out of equipment due
to compromised insulation.
PD monitoring devices have to be powered up using electricity from the grid or power
sources like batteries. These batteries need to be changed constantly when the energy
stored in them has been depleted. Therefore, the suggested solution is to substitute
the batteries with an alternative power source capable of generating the energy needed
for powering up a PD monitoring device.
Currently, the suggested alternative are the neighboring Cross-Linked Polyethylene
Cables (TX XLPE) of the tested TX XLPE cable. Refer to Appendix A for more
information on TX XLPE cables. With the designed electromagnetic induction device
tested functionally by the previous student, this Final Year Project aims to investigate
the feasibility of converting the induced Alternating Current (AC) to a stable Direct
Current (DC) that can be used to power up the PD monitoring device. This report will
focus on topics such as PD monitoring devices, voltage regulatory circuits, buck-boost
circuits and improvements to the electromagnetic induction device to reduce the power
fluctuation by stabilizing the device during the harnessing of power from the TX XLPE
cable. This report aims to provide readers with various insights on regulating electrical
power to the desired level depending on the intended usage. |
author2 |
Foo Yi Shyh Eddy |
author_facet |
Foo Yi Shyh Eddy Low, Daniel Boon Howe |
format |
Final Year Project |
author |
Low, Daniel Boon Howe |
author_sort |
Low, Daniel Boon Howe |
title |
To develop online PD monitoring system for TX XLPE cable joint without external power supply (phase 3) |
title_short |
To develop online PD monitoring system for TX XLPE cable joint without external power supply (phase 3) |
title_full |
To develop online PD monitoring system for TX XLPE cable joint without external power supply (phase 3) |
title_fullStr |
To develop online PD monitoring system for TX XLPE cable joint without external power supply (phase 3) |
title_full_unstemmed |
To develop online PD monitoring system for TX XLPE cable joint without external power supply (phase 3) |
title_sort |
to develop online pd monitoring system for tx xlpe cable joint without external power supply (phase 3) |
publisher |
Nanyang Technological University |
publishDate |
2022 |
url |
https://hdl.handle.net/10356/157543 |
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1772826000416047104 |