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Two-folded implementation of a 12-pulse TCR with dissimilar transformers for a ladle furnace: reactive power compensation and power system redundancy
Date
2004-10-03
Author
Köse, Nadir
Mutluer, Bilge
Ermiş, Muammer
Terciyanlı, Alper
Gültekin, Burhan
Bilgin, Faruk
Ermiş, Cezmi
Hasbay, Sa
Keyifli, Mesut
Ahi, Turan
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https://hdl.handle.net/11511/83504
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Two-folded implementation of a 12-pulse TCR with dissimiliar transformers for a ladle furnace: Reactive power compensation and power system redundancy
Kose, N; Mutluer, B; Ermiş, Muammer; Terciyanli, A; Gultekin, B; Bilgin, F; Ermis, C; Hasbay, S; Keyifli, M; Ahi, T (2004-10-07)
This paper is devoted to the design and implementation of a 12-pulse Thyristor Controlled Reactor (TCR) system, which constitutes a low-cost solution to the reactive power compensation problem of a ladle furnace in Iskenderun Iron & Steel Plant (ISDEMIR). Design objectives and elimination of 5(th) and 7(th) harmonic current components produced by 6-pulse TCRs are met by connecting two sets of 6 kV, 6 MVAr TCRs to the 34.5 kV ladle furnace bus by the use of two separate converter transformers with delta- and...
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Two-dimensional hybrid Monte Carlo-fluid numerical code is developed and applied to model the dc glow discharge. The model is based on the separation of electrons into two parts: the low energetic (slow) and high energetic (fast) electron groups. Ions and slow electrons are described within the fluid model using the drift-diffusion approximation for particle fluxes. Fast electrons, represented by suitable number of super particles emitted from the cathode, are responsible for ionization processes in the dis...
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Two-dimensional hybrid model for a glow discharge: comparison with fluid and kinetic (particle) models, reliability and accuracy
EYLENCEOGLU, E.; Rafatov, İsmail (2013-10-24)
We developed and tested a two-dimensional Monte Carlo – fluid hybrid numerical code for the DC glow discharge simulations. The model is based on the separation of electrons into two parts, namely, the low energetic (slow) and high energetic (fast) groups. Ions and slow electrons are described within the fluid model using the drift-diffusion approximation for particle fluxes. Electrostatic field is obtained from the solution of Poisson equation. Fast electrons, represented by the appropriate number of super ...
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N. Köse et al., “Two-folded implementation of a 12-pulse TCR with dissimilar transformers for a ladle furnace: reactive power compensation and power system redundancy,” 2004, Accessed: 00, 2021. [Online]. Available: https://hdl.handle.net/11511/83504.
