Helium Re-condenser for 1.5T Zero-Boil-Off (ZBO) MRI cryostat Article Swipe

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Ravikant Paswan , Navneet Suman , Vijay Soni , T Sankar Ram , Surendra Kumar Saini , Manoj Kumar , Joby Antony , Rajesh Kumar , Rashi Sharma , Manoj Kumar Moharana , Tripti Sekhar Datta , Soumen Kar ·

YOU? · · 2020 · Open Access · · DOI: https://doi.org/10.5958/2349-2120.2020.00003.5

Superconducting MRI magnet is the most exhaustive commercial application of superconductivity and helium cryogenics. Cryocooler based Zero-Boil-Off (ZBO) technique is inevitable for the present-day scanner. An MRI cryostat for a 1.5T MRI magnet has been designed with the ZBO technique using a fin-based helium recondenser. A cryocooler based test rig has been developed to characterize the performance of the helium recondenser made of OFHC copper. A two-stage GM cryocooler is used to cool the thermal shield and the helium recondenser. Four liters of liquid helium has been produced using the same heat exchanger. The recondensation test of the heat exchanger is performed up to 6 psi of bath pressure. At 1psi, the recondensation capacity is found to be ~1.5W. This paper briefly discusses the experimental details of the recondensation test along with an analytical calculation.

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Cryostat Condenser (optics) Mathematics Zero (linguistics) Helium Physics Philosophy Atomic physics Quantum mechanics Optics Superconductivity Linguistics Light source

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Type: article
Language: en
Landing Page: https://doi.org/10.5958/2349-2120.2020.00003.5
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DOI: https://doi.org/10.5958/2349-2120.2020.00003.5

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Title: Helium Re-condenser for 1.5T Zero-Boil-Off (ZBO) MRI cryostat

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Publication year: 2020

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Publication date: 2020-01-01

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Authors: Ravikant Paswan, Navneet Suman, Vijay Soni, T Sankar Ram, Surendra Kumar Saini, Manoj Kumar, Joby Antony, Rajesh Kumar, Rashi Sharma, Manoj Kumar Moharana, Tripti Sekhar Datta, Soumen Kar

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Landing page: https://doi.org/10.5958/2349-2120.2020.00003.5

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Concepts: Cryostat, Condenser (optics), Mathematics, Zero (linguistics), Helium, Physics, Philosophy, Atomic physics, Quantum mechanics, Optics, Superconductivity, Linguistics, Light source

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