CORONA EFFECTS AND OHMIC COUPLING ON AC CIRCUITS ON HYBRID OVERHEAD LINES CASE STUDY: AUSTRIAN 420 kV and INDONESIAN 500 kV TOWER SETUPS
Converting an AC circuit of an existing multi circuit overhead line (OHL) to DC is a promising solutions to increase the OHL’s transmission capacity. Such OHLs are usually referred to as “hybrid OHL”. Because of the small distances, electromagnetic coupling occurs between the AC and DC circuits....
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id-itb.:395402019-06-26T15:42:31ZCORONA EFFECTS AND OHMIC COUPLING ON AC CIRCUITS ON HYBRID OVERHEAD LINES CASE STUDY: AUSTRIAN 420 kV and INDONESIAN 500 kV TOWER SETUPS Rizki Pratama, Andhika Indonesia Theses hybrid OHL, capacitive coupling, ohmic coupling, DC ion current, audible noise, corona INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/39540 Converting an AC circuit of an existing multi circuit overhead line (OHL) to DC is a promising solutions to increase the OHL’s transmission capacity. Such OHLs are usually referred to as “hybrid OHL”. Because of the small distances, electromagnetic coupling occurs between the AC and DC circuits. This influences conductor surface gradients, which in return affects corona effects such as audible noise (AN). In this first part of this contribution, simulations regarding capacitive and ohmic coupling affecting the surface gradients of the AC circuits of a fictive Indonesian 500 kV and Austrian 420 kV OHL are presented. The second part deals with partial discharge measurement performed on a small scale laboratory setup at Graz University of Technology to observe the hybrid influences on AC circuits (capacitive coupling and ohmic coupling). The third part deals with audible noise experiments, which were carried out in the High Voltage Laboratory of Graz University of Technology. The aim of the experiments was to investigate the audible noise behavior of AC lines under hybrid condition (DC offset). The discharge process on the conductor surface was monitored using sound level meters and a partial discharge (PD) measurement tool according to IEC 60270. Additionally, the performance of noise reducing surface treatments under hybrid conditions was investigated. The gathered results clearly show that an AC line’s corona behavior worsens substantially under DC influence. This does not only apply to the overall audible noise sound pressure level but also to the AN tonal components. Surface treatments, however, retain their noise reducing effects even under hybrid influences. text |
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Converting an AC circuit of an existing multi circuit overhead line (OHL) to DC is a
promising solutions to increase the OHL’s transmission capacity. Such OHLs are usually
referred to as “hybrid OHL”. Because of the small distances, electromagnetic coupling occurs
between the AC and DC circuits. This influences conductor surface gradients, which in return
affects corona effects such as audible noise (AN).
In this first part of this contribution, simulations regarding capacitive and ohmic coupling
affecting the surface gradients of the AC circuits of a fictive Indonesian 500 kV and Austrian
420 kV OHL are presented. The second part deals with partial discharge measurement
performed on a small scale laboratory setup at Graz University of Technology to observe the
hybrid influences on AC circuits (capacitive coupling and ohmic coupling). The third part deals
with audible noise experiments, which were carried out in the High Voltage Laboratory of Graz
University of Technology. The aim of the experiments was to investigate the audible noise
behavior of AC lines under hybrid condition (DC offset). The discharge process on the
conductor surface was monitored using sound level meters and a partial discharge (PD)
measurement tool according to IEC 60270. Additionally, the performance of noise reducing
surface treatments under hybrid conditions was investigated. The gathered results clearly show
that an AC line’s corona behavior worsens substantially under DC influence. This does not only
apply to the overall audible noise sound pressure level but also to the AN tonal components.
Surface treatments, however, retain their noise reducing effects even under hybrid influences. |
| format |
Theses |
| author |
Rizki Pratama, Andhika |
| spellingShingle |
Rizki Pratama, Andhika CORONA EFFECTS AND OHMIC COUPLING ON AC CIRCUITS ON HYBRID OVERHEAD LINES CASE STUDY: AUSTRIAN 420 kV and INDONESIAN 500 kV TOWER SETUPS |
| author_facet |
Rizki Pratama, Andhika |
| author_sort |
Rizki Pratama, Andhika |
| title |
CORONA EFFECTS AND OHMIC COUPLING ON AC CIRCUITS ON HYBRID OVERHEAD LINES CASE STUDY: AUSTRIAN 420 kV and INDONESIAN 500 kV TOWER SETUPS |
| title_short |
CORONA EFFECTS AND OHMIC COUPLING ON AC CIRCUITS ON HYBRID OVERHEAD LINES CASE STUDY: AUSTRIAN 420 kV and INDONESIAN 500 kV TOWER SETUPS |
| title_full |
CORONA EFFECTS AND OHMIC COUPLING ON AC CIRCUITS ON HYBRID OVERHEAD LINES CASE STUDY: AUSTRIAN 420 kV and INDONESIAN 500 kV TOWER SETUPS |
| title_fullStr |
CORONA EFFECTS AND OHMIC COUPLING ON AC CIRCUITS ON HYBRID OVERHEAD LINES CASE STUDY: AUSTRIAN 420 kV and INDONESIAN 500 kV TOWER SETUPS |
| title_full_unstemmed |
CORONA EFFECTS AND OHMIC COUPLING ON AC CIRCUITS ON HYBRID OVERHEAD LINES CASE STUDY: AUSTRIAN 420 kV and INDONESIAN 500 kV TOWER SETUPS |
| title_sort |
corona effects and ohmic coupling on ac circuits on hybrid overhead lines case study: austrian 420 kv and indonesian 500 kv tower setups |
| url |
https://digilib.itb.ac.id/gdl/view/39540 |
| _version_ |
1821997802808410112 |