Please use this identifier to cite or link to this item: http://hdl.handle.net/2080/4064
Title: Design And Optimization of Niobium-Titanium Based Superconductive Magnet for The Magneto Resistive Heat Switch
Authors: Naik, B. Kiran
Rathore, Shivendra Kr
Desale, Yash
Patel, K.S.
Dash, Suryanarayan
Singh, V. K.
Keywords: Numerical and analytical models
low-temperature superconducting magnet
NbTi wire
central and critical fields
number of turns
Issue Date: Aug-2023
Citation: 26th International Congress of Refrigeration, Paris, 21-25 August 2023
Abstract: A superconducting magnet is an ordinary electromagnet with no current resistance. To attain the superconducting state, it is necessary to hold the material below its critical temperature. There are three types of superconducting magnets viz., low-temperature, medium-temperature, and high-temperature superconductors with an operating temperature range of 4.2K, 20K, and 100K, respectively. This work addresses the design and optimization of 6T LTS magnets for use in an adiabatic demagnetization refrigerator. LTS utilizes a Niobium-Titanium alloy wire that can generate a magnetic field between 3 T and 10 T. NbTi wires are wrapped around a hollow metal cylinder called a former. The surrounding coils are kept at a cryogenic temperature of 4.2K. A hollow cylindrical base with NbTi wires wrapped around it serves as a solenoid. In this study, the characteristics that affect the design and optimization of the length of the former, the diameter of the coil, the number of turns necessary to generate a 6 T magnetic field, and the required current are examined by developing an analytical model. 304L-grade stainless steel is considered as solenoid/former material in the present investigation. The optimal length and diameter of the former are determined by developing analytical model. Various situations are addressed by adjusting the wire's length, number of turns, and current, which results in a change in magnetic field density. Further, by developing a numerical model, type of superconducting alloy wire preferred below 9 K is also studied in detail.
Description: Copyright belongs to proceeding publisher
URI: http://hdl.handle.net/2080/4064
Appears in Collections:Conference Papers

Files in This Item:
File Description SizeFormat 
2023_ICR_BKNaik_Design.pdf1.38 MBAdobe PDFView/Open


Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.