Arc Gas-Flow Simulation Algorithm Considering the Effects of Nozzle Ablation in a Self-Blast GCB
Recently, one main trend in the development of high-power gas circuit breakers (GCBs) has been to review and reapply the current interruption principle of self-blast GCBs because GCBs need to be compact in size and interrupt high current with low driving energy. A simulation algorithm was designed t...
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| Veröffentlicht in: | IEEE transactions on power delivery Jg. 30; H. 4; S. 1663 - 1668 |
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01.08.2015
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| Abstract | Recently, one main trend in the development of high-power gas circuit breakers (GCBs) has been to review and reapply the current interruption principle of self-blast GCBs because GCBs need to be compact in size and interrupt high current with low driving energy. A simulation algorithm was designed to analyze arc gas flow during the current interruption in an self-blast GCB. One model of self-blast GCBs was chosen as the test subject in order to validate the results of the algorithm. This paper shows that the simulation algorithm calculated and visualized the entire arc quenching process, and nozzle ablation has been taken into account. Pressure rise in the cylinder presented a great difference between considering the arc radiation effect and not. Both arc temperatures have a range of 13 000-28 000 K, except near the current zero point. Based on the development of the algorithm, the other two results were proposed to clearly validate precision in calculation. One had the results calculated by varying the radius of the nozzle throat in the self-blast GCB and another calculated arc gas flow of a hybrid puffer GCB with piston compression. |
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| AbstractList | Recently, one main trend in the development of high-power gas circuit breakers (GCBs) has been to review and reapply the current interruption principle of self-blast GCBs because GCBs need to be compact in size and interrupt high current with low driving energy. A simulation algorithm was designed to analyze arc gas flow during the current interruption in an self-blast GCB. One model of self-blast GCBs was chosen as the test subject in order to validate the results of the algorithm. This paper shows that the simulation algorithm calculated and visualized the entire arc quenching process, and nozzle ablation has been taken into account. Pressure rise in the cylinder presented a great difference between considering the arc radiation effect and not. Both arc temperatures have a range of 13 000-28 000 K, except near the current zero point. Based on the development of the algorithm, the other two results were proposed to clearly validate precision in calculation. One had the results calculated by varying the radius of the nozzle throat in the self-blast GCB and another calculated arc gas flow of a hybrid puffer GCB with piston compression. |
| Author | Jae Kyoung Shin Young Kil Choi |
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| Cites_doi | 10.1007/978-1-4757-1685-6_11 10.1109/61.131142 10.1016/0021-9991(66)90014-3 10.1109/TPWRD.2004.843486 10.1109/TPAS.1981.316984 10.1016/0022-4073(76)90067-4 10.1109/61.19224 10.1109/TPWRD.2003.820211 10.1109/TPWRD.2005.852360 10.1109/TPWRD.2009.2035040 10.1109/TPWRD.2004.837677 10.1109/TPS.2002.1024273 10.1109/TPWRD.2010.2048130 10.1109/TMAG.2006.872011 10.1109/PROC.1971.8206 10.1109/61.57978 |
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| SubjectTerms | Ablation Algorithm design and analysis arc heating circuit breakers (CBs) Fluid flow gas circuit breakers (GCBs) Heating Interrupters Mathematical model plasma heating Plasma temperature switchgear testing |
| Title | Arc Gas-Flow Simulation Algorithm Considering the Effects of Nozzle Ablation in a Self-Blast GCB |
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