ing. W.A.J. Wessel (Sander) | University of Twente

Engineering & Materials Science

# Cables
# Critical Currents
# Magnets

Chemistry

# Conductor

Physics & Astronomy

# Cables
# Conductors
# Magnets
# Strands

Faculty of Science and Technology (TNW), Energy, Materials and Systems (EMS)

Otten, S. , Kario, A. , Wessel, W. A. J., Leferink, J. , Ten Kate, H. H. J., Daly, M., Hug, C., Sidorov, S., Brem, A., Auchmann, B., Studer, P., & Tervoort, T. (2023). Training Curves of Nb₃Sn Rutherford Cables With a Wide Range of Impregnation Materials Measured in the BOX Facility. IEEE transactions on applied superconductivity, 33(5), Article 4003605. https://doi.org/10.1109/TASC.2023.3267051

Girard, S., Lamaison, V., Torre, A., Decool, P., Dao, C. N. T., Cerignat, S., Villecroze, F., Mouyon, D., Jiolat, G., Schild, T. , Ilyin, Y. , Wessel, W. A. J. , Krooshoop, H. J. G., Leferink, J. , Vermeer, C. H. , Lubkemann, R. , & Nijhuis, A. (2023). SELFIE: ITER superconducting joint test facility. Fusion engineering and design, 188, Article 113434. Advance online publication. https://doi.org/10.1016/j.fusengdes.2023.113434

Huang, J. , Ilyin, Y., Bessette, D. , Zhou, C. , Lubkemann, R. , Vermeer, C. , Wessel, S. , & Nijhuis, A. (2022). Effective Low Magnetic Field J_c(B) Scaling of ITER Nb₃Sn Strands by Magnetization and Critical Current Measurements. IEEE transactions on applied superconductivity, 32(8), Article 4204110. Advance online publication. https://doi.org/10.1109/TASC.2022.3190921

Otten, S. , Kario, A. , Wessel, W. A. J., Leferink, J. , Ten Kate, H. H. J., Daly, M., Hug, C., Sidorov, S., Brem, A., Auchmann, B., Studer, P., & Tervoort, T. (2022). Training performance of Nb3Sn Rutherford cables in a channel with a wide range of impregnation materials. ArXiv.org. https://doi.org/10.48550/arXiv.2211.10213

Kosse, J. J. , Wessel, W. A. J. , Zhou, C. , Dhallé, M. , Tomás, G. , Krooshoop, H. J. G. , Ter Brake, H. J. M. , & Ten Kate, H. H. J. (2022). Thermal and electrical design of superconducting demonstrator for magnetic density separation. Superconductor science and technology, 35(6), Article 064002. https://doi.org/10.1088/1361-6668/ac64cc

Huang, J. , Ilyin, Y. , Wessel, W. A. J. , Lubkemann, R. , Krooshoop, H. J. G. , & Nijhuis, A. (2022). Contact resistance, coupling and hysteresis loss measurements of ITER poloidal field joint in parallel applied magnetic field. Superconductor science and technology, 35(2), Article 025016. https://doi.org/10.1088/1361-6668/ac4201

Kosse, J. J. , Wessel, W. A. J. , Zhou, C. , Dhallé, M. , Tomás, G. , Krooshoop, H. J. G. , Brake, H. J. M. T. , & Kate, H. H. J. T. (2021). Mechanical design of a superconducting demonstrator for magnetic density separation. Superconductor science and technology, 34(11), Article 115019. https://doi.org/10.1088/1361-6668/ac2c0f

Song, X., Buhrer, C., Molgaard, A., Andersen, R. S., Brutsaert, P., Bauer, M., Hansen, J., Rebsdorf, A. V., Kellers, J. , Winkler, T. , Bergen, A. , Dhalle, M. , Wessel, S. , ter Brake, M., Wiezoreck, J., Kyling, H., Boy, H., & Seitz, E. (2020). Commissioning of the World's First Full-Scale MW-Class Superconducting Generator on a Direct Drive Wind Turbine. IEEE Transactions on Energy Conversion, 35(3), 1697-1704. Article 9050554. Advance online publication. https://doi.org/10.1109/TEC.2020.2982897

Godeke, A., Alberty, L., Akcöltekin, E., Babouche, R., Detourbe, C., Nast, R., Radermacher, C., Röcken, H., Roth, A., Schillo, M., vom Stein, P. V., Walpole, M., Wittschen, J., Hayashi, K., Shizuya, E. , Krooshoop, H. J. G. , Lubkemann, R. , Nijhuis, A. , Vermeer, C. H., ... Saraco, L. (2020). Research at Varian on applied superconductivity for proton therapy. Superconductor science and technology, 33(6), Article 064001. https://doi.org/10.1088/1361-6668/ab804a

Song, X., Buhrer, C., Brutsaert, P., Ammar, A., Krause, J. , Bergen, A. , Winkler, T. , Dhalle, M., Hansen, J., Rebsdorf, A. V. , Wessel, S. , Brake, M. T., Bauer, M., Kellers, J., Wiezoreck, J., Putz, H., Kylling, H., Boy, H., & Seitz, E. (2020). Ground Testing of the World's First MW-Class Direct Drive Superconducting Wind Turbine Generator. IEEE Transactions on Energy Conversion, 35(2), 757-764. Article 8935380. Advance online publication. https://doi.org/10.1109/TEC.2019.2960255

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w.a.j.wessel@utwente.nl

Visiting Address

University of Twente
Faculty of Science and Technology
Carré (building no. 15), room C2037
Hallenweg 21
7522NH Enschede
The Netherlands

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Mailing Address

University of Twente
Faculty of Science and Technology
Carré C2037
P.O. Box 217
7500 AE Enschede
The Netherlands

Faculty of Science and Technology (TNW), Energy, Materials and Systems (EMS)

University of Twente Drienerlolaan 5
7522 NB Enschede

+31 (0)53 489 9111
info@utwente.nl
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