The Experts below are selected from a list of 18 Experts worldwide ranked by ideXlab platform
Yu-chun Pang - One of the best experts on this subject based on the ideXlab platform.
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Status of the ITER Conductors in China
IEEE Transactions on Applied Superconductivity, 2016Co-Authors: Jinggang Qin, Bo Liu, Fang Liu, Huajun Liu, Feng Long, Huan Jin, Jing Jin, Ze-yuan Yang, Yu-chun PangAbstract:The ITER magnet system is made up of four main subsystems: the 18 toroidal field (TF) coils, the central solenoid, the six poloidal field (PF) coils, and the correction coils (CCs). The Feeder system, with its main busbar (MB) and CC busbar (CB), represents one of the main magnet components as well. All coils and busbars with different dimensions used cable-in-conduit Conductors. China has signed three Conductor packages, which are the so-called procurement arrangements, between ITER and the Chinese Domestic Agency (CN DA): a TF Conductor package, a PF Conductor package, and a CC and Feeder Conductor package. They include 7.5% of the TF Conductors (11); all the PF2 (12), PF3 (16), PF4 (16), and PF5 (16) Conductors; all the CC (18) Conductors; and the MB (3) and CB (2) Conductors for the Feeders. Complex technologies have been developed by ASIPP for the serial production of all ITER Conductors, in terms of cabling parameter design, welding, and elaboration of cable insertion, compaction, and winding processes. China has finished all qualification phases and is well into the main series production. All Conductor samples required for quality control have successfully passed the SULTAN tests with good performance. The status of the production of ITER Conductors in China is described in this paper.
Bo Liu - One of the best experts on this subject based on the ideXlab platform.
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Status of the ITER Conductors in China
IEEE Transactions on Applied Superconductivity, 2016Co-Authors: Jinggang Qin, Bo Liu, Fang Liu, Huajun Liu, Feng Long, Huan Jin, Jing Jin, Ze-yuan Yang, Yu-chun PangAbstract:The ITER magnet system is made up of four main subsystems: the 18 toroidal field (TF) coils, the central solenoid, the six poloidal field (PF) coils, and the correction coils (CCs). The Feeder system, with its main busbar (MB) and CC busbar (CB), represents one of the main magnet components as well. All coils and busbars with different dimensions used cable-in-conduit Conductors. China has signed three Conductor packages, which are the so-called procurement arrangements, between ITER and the Chinese Domestic Agency (CN DA): a TF Conductor package, a PF Conductor package, and a CC and Feeder Conductor package. They include 7.5% of the TF Conductors (11); all the PF2 (12), PF3 (16), PF4 (16), and PF5 (16) Conductors; all the CC (18) Conductors; and the MB (3) and CB (2) Conductors for the Feeders. Complex technologies have been developed by ASIPP for the serial production of all ITER Conductors, in terms of cabling parameter design, welding, and elaboration of cable insertion, compaction, and winding processes. China has finished all qualification phases and is well into the main series production. All Conductor samples required for quality control have successfully passed the SULTAN tests with good performance. The status of the production of ITER Conductors in China is described in this paper.
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Manufacture of ITER Feeder sample Conductors
Lausanne Elsevier Science Sa, 2014Co-Authors: Qin Jinggang, Bo Liu, Yu Min, Liu Huajun, Weiss Klaus-peter, Li Laifeng, Li Hongwei, Niu Erwu, Bruzzone PierluigiAbstract:The ITER Feeders are the components that connect the ITER magnet systems located inside the main cryostat to the cryogenics, power-supply and control system interfaces outside the cryostat. The Feeder busbars rely on the Cable-In-Conduit Conductor (CICC) design concept as all the Conductors for the ITER magnet systems. There are two types of busbars for the Feeder systems. One is the Main Busbar (MB) for the TF, CS and PF Feeders, and the other is the Corrector Busbar (CB) for the CC Feeders. The busbar cable is wound from multiple stage sub-cables made with Cu and superconducting strands. The superconducting material is NbTi for the busbar strands of all Feeder systems. All Feeder Conductors are provided by China. The R&D programs are needed to acquire knowledge on the behavior of such Conductors. Since the Conductors are new, some full size copper dummy Conductors have been produced for the testing of the cabling parameters, definition of automatic TIG welding of seamless jacket section, elaboration of cable insertion and compaction. Then, two short qualification Conductor samples (MB and CB) are prepared in ASIPP, and NbTi advanced strands are produced by Western SuperConductor Technology (WST). The details of manufacturing procedures for Feeder Conductor samples will be described in this paper. (C) 2013 Elsevier B.V. All rights reserved
Bruzzone Pierluigi - One of the best experts on this subject based on the ideXlab platform.
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Manufacture of ITER Feeder sample Conductors
Lausanne Elsevier Science Sa, 2014Co-Authors: Qin Jinggang, Bo Liu, Yu Min, Liu Huajun, Weiss Klaus-peter, Li Laifeng, Li Hongwei, Niu Erwu, Bruzzone PierluigiAbstract:The ITER Feeders are the components that connect the ITER magnet systems located inside the main cryostat to the cryogenics, power-supply and control system interfaces outside the cryostat. The Feeder busbars rely on the Cable-In-Conduit Conductor (CICC) design concept as all the Conductors for the ITER magnet systems. There are two types of busbars for the Feeder systems. One is the Main Busbar (MB) for the TF, CS and PF Feeders, and the other is the Corrector Busbar (CB) for the CC Feeders. The busbar cable is wound from multiple stage sub-cables made with Cu and superconducting strands. The superconducting material is NbTi for the busbar strands of all Feeder systems. All Feeder Conductors are provided by China. The R&D programs are needed to acquire knowledge on the behavior of such Conductors. Since the Conductors are new, some full size copper dummy Conductors have been produced for the testing of the cabling parameters, definition of automatic TIG welding of seamless jacket section, elaboration of cable insertion and compaction. Then, two short qualification Conductor samples (MB and CB) are prepared in ASIPP, and NbTi advanced strands are produced by Western SuperConductor Technology (WST). The details of manufacturing procedures for Feeder Conductor samples will be described in this paper. (C) 2013 Elsevier B.V. All rights reserved
Jinggang Qin - One of the best experts on this subject based on the ideXlab platform.
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Status of the ITER Conductors in China
IEEE Transactions on Applied Superconductivity, 2016Co-Authors: Jinggang Qin, Bo Liu, Fang Liu, Huajun Liu, Feng Long, Huan Jin, Jing Jin, Ze-yuan Yang, Yu-chun PangAbstract:The ITER magnet system is made up of four main subsystems: the 18 toroidal field (TF) coils, the central solenoid, the six poloidal field (PF) coils, and the correction coils (CCs). The Feeder system, with its main busbar (MB) and CC busbar (CB), represents one of the main magnet components as well. All coils and busbars with different dimensions used cable-in-conduit Conductors. China has signed three Conductor packages, which are the so-called procurement arrangements, between ITER and the Chinese Domestic Agency (CN DA): a TF Conductor package, a PF Conductor package, and a CC and Feeder Conductor package. They include 7.5% of the TF Conductors (11); all the PF2 (12), PF3 (16), PF4 (16), and PF5 (16) Conductors; all the CC (18) Conductors; and the MB (3) and CB (2) Conductors for the Feeders. Complex technologies have been developed by ASIPP for the serial production of all ITER Conductors, in terms of cabling parameter design, welding, and elaboration of cable insertion, compaction, and winding processes. China has finished all qualification phases and is well into the main series production. All Conductor samples required for quality control have successfully passed the SULTAN tests with good performance. The status of the production of ITER Conductors in China is described in this paper.
Qin Jinggang - One of the best experts on this subject based on the ideXlab platform.
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Manufacture of ITER Feeder sample Conductors
Lausanne Elsevier Science Sa, 2014Co-Authors: Qin Jinggang, Bo Liu, Yu Min, Liu Huajun, Weiss Klaus-peter, Li Laifeng, Li Hongwei, Niu Erwu, Bruzzone PierluigiAbstract:The ITER Feeders are the components that connect the ITER magnet systems located inside the main cryostat to the cryogenics, power-supply and control system interfaces outside the cryostat. The Feeder busbars rely on the Cable-In-Conduit Conductor (CICC) design concept as all the Conductors for the ITER magnet systems. There are two types of busbars for the Feeder systems. One is the Main Busbar (MB) for the TF, CS and PF Feeders, and the other is the Corrector Busbar (CB) for the CC Feeders. The busbar cable is wound from multiple stage sub-cables made with Cu and superconducting strands. The superconducting material is NbTi for the busbar strands of all Feeder systems. All Feeder Conductors are provided by China. The R&D programs are needed to acquire knowledge on the behavior of such Conductors. Since the Conductors are new, some full size copper dummy Conductors have been produced for the testing of the cabling parameters, definition of automatic TIG welding of seamless jacket section, elaboration of cable insertion and compaction. Then, two short qualification Conductor samples (MB and CB) are prepared in ASIPP, and NbTi advanced strands are produced by Western SuperConductor Technology (WST). The details of manufacturing procedures for Feeder Conductor samples will be described in this paper. (C) 2013 Elsevier B.V. All rights reserved
