Araştırma Makalesi
Yıl 2019,
Cilt: 3 Sayı: 3, 123 - 128, 30.09.2019
Öz
Kaynakça
- Bizon N, Lopez-Guede JM, Kurt E, Thounthong P, Mazare AG, Ionescu LM, Iana G., Hydrogen economy of the fuel cell hybrid power system optimized by air flow control to mitigate the effect of the uncertainty about available renewable power and load dynamics. Energy Conversion and Management, 2019, 179, 152-165.
- Srilatha B, Sinha AK., Design of pulsed power system for fusion reactor, International Conference on Power Systems, Kharagpur, 2009, 1-6. DOI: 10.1109/ICPWS.2009.5442709
- Akgün Y, Bölükdemir AS, Kurt E, Öncü T, Alaçakir, A., Preliminary plasma focus studies at ODAK-3K device using track detectors. Plasma Devices Operations, 2009, 17(4), 293-300.
- Hora H, Miley GH, Ghoranneviss M, Malekynia B, Azizi N, He XT., Fusion energy without radioactivity: laser ignition of solid hydrogen–boron (11) fuel. Energy & Environmental Science, 2010, 3(4), 478-485.
- Benfattol I, Mondinol PL, Roshall A, Coletti A, Hrabal D, Maschio A, Piovan R, Tencod S, Bulgakov S, Kuchinski V., AC/DC Converters for the ITER Poloidal Field System. Proceedings of 16th International Symposium on Fusion Engineering. Champaign, IL, USA, 1995, 1, 658-661 DOI: 10.1109/fusion.1995.534310.
- Mondino PL. The ITER tokamak and its power supply, Proceedings of the International Power Electronics Conference, Yokohama, 1995, 869–874.
- Yue, L., Lee, I., and Yao, X., Tokamak vertical stability coil power supply based on modular multilevel converter, IEEE International Power Modulator and High Voltage Conference (IPMHVC), San Francisco, CA, 2016, 447-452. DOI: 10.1109/IPMHVC.2016.8012870
- Kiguchi, R., and Nishida, Y., Boost DC-DC Converter Cascade System for High Boost-Rate Application, International Conference on Smart Grid (icSmartGrid), Nagasaki, Japan, 2018, 283-286. DOI: 10.1109/ISGWCP.2018.8634483
- Isobea T, Takakua T, Munakataa T, Tsutsuia H, Tsuji-Iioa S, Matsukawab T, Shimadaa R., Fusion Power Supplies using Magnetic Energy Recovery Switch, 21st IEEE/NPS Symposium on Fusion Engineering SOFE 05, Knoxville, TN, 2005, 1-4. DOI: 10.1109/FUSION.2005.252988
- Chikaraishi, H., Extra-low-voltage DC power supply for superconducting coil using piezoelectric-actuator-driven mechanical contact, 19th European Conference on Power Electronics and Applications (EPE'17 ECCE Europe), Warsaw, 2017, 1-8. DOI: 10.23919/EPE17ECCEEurope.2017.8098947
- Cockcroft John Douglas, Walton E. T. S. and Rutherford Ernest Experiments with high velocity positive ions.―(I) Further developments in the method of obtaining high velocity positive ions, Proc. R. Soc. Lond. A, 1932, 136(830), 619. DOI: 10.1098/rspa.1932.0107
- Öndin U., Design of high frequency high voltage DC-DC converter (Unpublished Master Thesis). Institute of Natural and Applied Sciences, Gebze Technical University, 2009, Turkey.
Yıl 2019,
Cilt: 3 Sayı: 3, 123 - 128, 30.09.2019
Öz
An initial design for
a power circuit of a new plasma system is proposed and implemented in MatLab
code. The plasma device is a torus and requires an excitement of wires, which
are wrapped around the torus for a toroidal field and a poloidal field coil placed
at the outer part of the device. This poloidal coil structure ignites an
electrical field inside the chamber and that yields to a circular magnetic
field inside the plasma. The proposed electrical design for this poloidal field
equipment has some components including the alternating current unit and the
direct current one. The circuit first uses an ac-dc converter, in order to
transfer the ac grid to the dc one. Then it uses a switching scheme and a
discharge circuit. The operation voltages for the poloidal field are estimated
to be 1 kV, respectively. It has been proven that the designed system can
produce an almost dc current with 66 V fluctuation, which is under the limit of
6%, considering the high voltage of 1kV.
a power circuit of a new plasma system is proposed and implemented in MatLab
code. The plasma device is a torus and requires an excitement of wires, which
are wrapped around the torus for a toroidal field and a poloidal field coil placed
at the outer part of the device. This poloidal coil structure ignites an
electrical field inside the chamber and that yields to a circular magnetic
field inside the plasma. The proposed electrical design for this poloidal field
equipment has some components including the alternating current unit and the
direct current one. The circuit first uses an ac-dc converter, in order to
transfer the ac grid to the dc one. Then it uses a switching scheme and a
discharge circuit. The operation voltages for the poloidal field are estimated
to be 1 kV, respectively. It has been proven that the designed system can
produce an almost dc current with 66 V fluctuation, which is under the limit of
6%, considering the high voltage of 1kV.
Anahtar Kelimeler
Kaynakça
- Bizon N, Lopez-Guede JM, Kurt E, Thounthong P, Mazare AG, Ionescu LM, Iana G., Hydrogen economy of the fuel cell hybrid power system optimized by air flow control to mitigate the effect of the uncertainty about available renewable power and load dynamics. Energy Conversion and Management, 2019, 179, 152-165.
- Srilatha B, Sinha AK., Design of pulsed power system for fusion reactor, International Conference on Power Systems, Kharagpur, 2009, 1-6. DOI: 10.1109/ICPWS.2009.5442709
- Akgün Y, Bölükdemir AS, Kurt E, Öncü T, Alaçakir, A., Preliminary plasma focus studies at ODAK-3K device using track detectors. Plasma Devices Operations, 2009, 17(4), 293-300.
- Hora H, Miley GH, Ghoranneviss M, Malekynia B, Azizi N, He XT., Fusion energy without radioactivity: laser ignition of solid hydrogen–boron (11) fuel. Energy & Environmental Science, 2010, 3(4), 478-485.
- Benfattol I, Mondinol PL, Roshall A, Coletti A, Hrabal D, Maschio A, Piovan R, Tencod S, Bulgakov S, Kuchinski V., AC/DC Converters for the ITER Poloidal Field System. Proceedings of 16th International Symposium on Fusion Engineering. Champaign, IL, USA, 1995, 1, 658-661 DOI: 10.1109/fusion.1995.534310.
- Mondino PL. The ITER tokamak and its power supply, Proceedings of the International Power Electronics Conference, Yokohama, 1995, 869–874.
- Yue, L., Lee, I., and Yao, X., Tokamak vertical stability coil power supply based on modular multilevel converter, IEEE International Power Modulator and High Voltage Conference (IPMHVC), San Francisco, CA, 2016, 447-452. DOI: 10.1109/IPMHVC.2016.8012870
- Kiguchi, R., and Nishida, Y., Boost DC-DC Converter Cascade System for High Boost-Rate Application, International Conference on Smart Grid (icSmartGrid), Nagasaki, Japan, 2018, 283-286. DOI: 10.1109/ISGWCP.2018.8634483
- Isobea T, Takakua T, Munakataa T, Tsutsuia H, Tsuji-Iioa S, Matsukawab T, Shimadaa R., Fusion Power Supplies using Magnetic Energy Recovery Switch, 21st IEEE/NPS Symposium on Fusion Engineering SOFE 05, Knoxville, TN, 2005, 1-4. DOI: 10.1109/FUSION.2005.252988
- Chikaraishi, H., Extra-low-voltage DC power supply for superconducting coil using piezoelectric-actuator-driven mechanical contact, 19th European Conference on Power Electronics and Applications (EPE'17 ECCE Europe), Warsaw, 2017, 1-8. DOI: 10.23919/EPE17ECCEEurope.2017.8098947
- Cockcroft John Douglas, Walton E. T. S. and Rutherford Ernest Experiments with high velocity positive ions.―(I) Further developments in the method of obtaining high velocity positive ions, Proc. R. Soc. Lond. A, 1932, 136(830), 619. DOI: 10.1098/rspa.1932.0107
- Öndin U., Design of high frequency high voltage DC-DC converter (Unpublished Master Thesis). Institute of Natural and Applied Sciences, Gebze Technical University, 2009, Turkey.
Toplam 12 adet kaynakça vardır.
Ayrıntılar
| Birincil Dil | İngilizce |
|---|---|
| Konular | Elektrik Mühendisliği |
| Bölüm | Araştırma Makaleleri |
| Yazarlar | |
| Yayımlanma Tarihi | 30 Eylül 2019 |
| Kabul Tarihi | 18 Eylül 2019 |
| Yayımlandığı Sayı | Yıl 2019 Cilt: 3 Sayı: 3 |
Cited By
An Application of a Wireless Power Transfer at Low Frequency Range
Technology and Economics of Smart Grids and Sustainable Energy
Erol Kurt
https://doi.org/10.1007/s40866-021-00102-1
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