INVESTIGATION OF THE POSSIBILITY TO CONVERT MEDIUM-VOLTAGE AC OVERHEAD LINES (OHL) TO DC CASE STUDY: INDONESIAN AND AUSTRIAN MVAC OVERHEAD LINE
With the events related to the energy transition, a shift from a traditional towards a decentralized power generation can be observed. The growing use of volatile, renewable energy sources culminates in the need for storage as well as transportation capabilities in the grids of tomorrow. Transmis...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/47864 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | With the events related to the energy transition, a shift from a traditional towards
a decentralized power generation can be observed. The growing use of volatile,
renewable energy sources culminates in the need for storage as well as
transportation capabilities in the grids of tomorrow. Transmission and distribution
grids worldwide are based on alternating current (AC), a well-established
technology. This concept works reliable and stable but comes along with some
restrictions. The transmittable power is limited by factors like the need for reactive
power, which affects the maximum transmission length. Furthermore, dielectric
losses as well as the skin effect limit the efficiency of AC power transmission. Due
to these restrictions, the use of Direct Current (DC) can be beneficial. The Medium
Voltage Direct Current (MVDC) power transmission is a promising approach to
enhance the transport capacity of transmission links, such as cables or overhead
lines. As several publications point out, the possibility of converting existing
Medium Voltage Alternating Current (MVAC) overhead lines (OHL) to DC
operation, the aspect of using overhead lines in such systems has to be investigated.
Therefore, locally used MVAC insulators (Austria, Indonesia) as well as conductors
are tested in terms of flashover strength and audible noise behaviour under DC
voltages. Environmental parameters like moisture, temperature and surface
pollution are to be considered. In terms of audible noise, overhead line conductors
operated with DC voltage do not significantly affect the increase in audible noise
and the value obtained is around 23-30 dB. It is the same as rustling leaves and
will not have a significant impact on the surrounding environment. Meanwhile, in
terms of flashover voltage, taking into account light pollution, the possibility of DC
voltage that can be applied to Austrian overhead lines up to ± 60 kV DC and the
transmitted power increases by 408%. Meanwhile, for Indonesian overhead lines
up to ± 40 kV DC can be considered and the power transferred can increase by
272%. From a technical point of view, MVAC overhead lines can be converted with
DC voltage without replacing existing equipment. Only the addition of converter
equipment is needed to convert voltage from AC to DC and vice versa. However,
for determining the DC voltage used, knowledge about the geographical location
and the resulting pollution as well as further line-specific calculations regarding
insulation coordination are required.
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