READ ME File For 'Data and COMSOL files supporting a thesis in multiphysics finite element modelling of superconducting cables'

Dataset DOI: 10.5258/SOTON/D1461

ReadMe Author: ALEXANDER PETROV, ORCID ID 0000-0003-4820-5227

This dataset supports the thesis entitled "Multiphysics Finite Element Modelling of the AC Power Loss, Fault Response and Recovery of First Generation Superconducting Cables"
AWARDED BY: Univeristy of Southampton
DATE OF AWARD: 2020

DESCRIPTION OF THE DATA
The reader will find two types of files - .xlsx (Excel) and .mph (COMSOL versions 5.3-5.5), sorted in folders depending on the section of the thesis they are relevant to. The names of the files should be self-explanatory. Occasionally there are .mphbin files which contain pre-created geometries for some of the models. These can only be used within COMSOL.
The .xlsx files contain all numerical data that can be seen in the Figures throughout the thesis. The COMSOL files are set up and ready to run and reproduce the results that were obtained during the research. Due to the size of the completed simulations, it would have been impractical to retain the solutions - a user should be able to re-simulate with minimal modification to each file.
Data and source files (.mph) must be used and understood in conjunction with the contents of the thesis. It is not possible to understand the data separately from the thesis.

This dataset contains:

+---Section_4.3.1-Nibbio
|       Nibbio Figures.xlsx
|       Nibbio_AC_Field_and_Current_Losses.mph
|       Nibbio_AC_Field_Only_Losses.mph
|       Nibbio_DC_Field_11mT_and_AC_Current_Losses.mph
|       Nibbio_DC_Field_25mT_and_Current_Losses.mph
|       Nibbio_Transport_Current_Losses.mph
|       
+---Section_4.3.2-Amemiya_multifilament
|       61-filament_AC_Loss.mph
|       Multifilamentary_Amemiya_Figures.xlsx
|       
+---Section_5.2.1-Amemiya_homogeneous
|       Amemiya_Figures_Data.xlsx
|       Amemiya_[Homogenized].mph
|       
+---Section_5.2.2-Choi
|       Choi_Figures_Data.xlsx
|       Choi_[Homogenized].mph
|       
+---Section_5.2.3-Ryu
|       Ryu-A_[10-tape_homogenized].mph
|       Ryu-B_[10-tape_homogenized].mph
|       Ryu.xlsx
|       
+---Section_5.3.2-Verifications
|       Cable_Choi_Figures_Data.xlsx
|       Field_dependent_2D_(HOMOGENIZED).mph
|       Field_dependent_2D_(MULTIFILAMENTARY).mph
|	Geometry_Choi_Multifilamentary_FullGeometry.mphbin
|       Geometry_Choi_SingleTape.mphbin
|       MATLAB.m
|       Newton.m
|       
+---Section_6.2.1-3D-2D_verification
|   |   2D-3D_Losses_Figures_Data.xlsx
|   |   2D-3D_Supplementary_Figures_Data.xlsx
|   |   
|   +---2D
|   |       2D_pitch=[0.1,0.1]_tape-on-gap.mph
|   |       2D_pitch=[0.1,0.1]_tape-on-tape.mph
|   |       2D_pitch=[0.3,0.1]_tape-on-gap.mph
|   |       2D_pitch=[0.3,0.1]_tape-on-tape.mph
|   |       2D_pitch=[0.3,0.3]_tape-on-gap.mph
|   |       2D_pitch=[0.3,0.3]_tape-on-tape.mph
|   |       
|   +---3D
|   |       3D_pitch=[0.1,0.1].mph
|   |       3D_pitch=[0.3,0.1].mph
|   |       3D_pitch=[0.3,0.1].mph.lock
|   |       3D_pitch=[0.3,0.3].mph
|   |       
|   \---Geometry_Generation_2D-3D
|           12-tape_Layer1_[pitch=0.1].mph
|           12-tape_Layer1_[pitch=0.1].mphbin
|           12-tape_Layer1_[pitch=0.3].mph
|           12-tape_Layer1_[pitch=0.3].mphbin
|           12-tape_Layer2_[pitch=0.1,0.1].mph
|           12-tape_Layer2_[pitch=0.1,0.1].mphbin
|           12-tape_Layer2_[pitch=0.3,0.1].mph
|           12-tape_Layer2_[pitch=0.3,0.1].mphbin
|           12-tape_Layer2_[pitch=0.3,0.3].mph
|           12-tape_Layer2_[pitch=0.3,0.3].mphbin
|           
+---Section_6.2.2-Honjo
|   |   Honjo_2D_tape-on-gap.mph
|   |   Honjo_2D_tape-on-tape.mph
|   |   Honjo_Figures_Data.xlsx
|   |   
|   \---Geometry_Generation_Honjo
|           Layer1_[pitch=0.13].mph
|           Layer1_[pitch=0.13].mphbin
|           Layer2_[pitch=0.305].mph
|           Layer2_[pitch=0.305].mphbin
|           Layer3_[pitch=0.4].mph
|           Layer3_[pitch=0.4].mphbin
|           Layer4_[pitch=0.115].mph
|           Layer4_[pitch=0.115].mphbin
|           Shield1_[pitch=0.35].mph
|           Shield1_[pitch=0.35].mphbin
|           Shield2_[pitch=0.53].mph
|           Shield2_[pitch=0.53].mphbin
|           
\---Section_7.3-7.5-AmpaCity
    |   2D AmpaCity_Cluster_Version.mph
    |   2D AmpaCity_Post-Processing_Cluster_Version.mph
    |   2D_AmpaCity_PC_Version.mph
    |   AmpaCity_Large_Current_Recovery_Figures.xlsx
    |   AmpaCity_Recovery_Figures.xlsx
    |   AmpaCity_Setup_and_Fault_Figures.xlsx
    |   
    \---Geometry_Generation_AmpaCity
            AmpaCity_Layer1_2D_X-section_Geometry.mph
            AmpaCity_Layer1_2D_X-section_Geometry.mphbin
            AmpaCity_Layer2_2D_X-section_Geometry.mph
            AmpaCity_Layer2_2D_X-section_Geometry.mphbin
            AmpaCity_Layer3_2D_X-section_Geometry.mph
            AmpaCity_Layer3_2D_X-section_Geometry.mphbin


Date of data collection: 2016-2019

Licence:
CC-BY 4.0

Related projects/Funders:
United Kingdom Engineering and Physical Sciences Research Council [grant number EP/N509747/1]

Related publication:
A. N. Petrov, J. A. Pilgrim, and I. O. Golosnoy, "Revisiting the homogenized domain model for fast simulation of AC transport power losses in first generation high temperature superconducting tapes and cables," Physica C: Superconductivity and its Applications, vol. 557, pp. 33-40, 2019/02/15/ 2019.
A. N. Petrov, J. A. Pilgrim, and I. O. Golosnoy, "2D finite element modelling of the AC transport power loss in multi-layer Bi-2223 cables," Journal of Physics: Conference Series, vol. 1559, p. 012134, 2020/06 2020.


Date that the file was created: June 2020