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Device and method for detecting parahydrogen content by using nuclear magnetic resonance

A detection device and nuclear magnetic resonance technology are applied in the field of magnetic resonance spectroscopy, which can solve the problems of inability to accurately quantify parahydrogen content, poor accuracy and stability, and inability to meet application requirements, so as to improve detection accuracy, achieve accurate control, The effect of increasing repeatability and stability

Active Publication Date: 2021-11-05
INNOVATION ACAD FOR PRECISION MEASUREMENT SCI & TECH CAS
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

At present, there is no corresponding device design in China to meet the needs, and there is no commercial design to meet the needs abroad. The accuracy and stability of the existing parahydrogen content detection devices are poor, and the parahydrogen content in the gas cannot be accurately and quantitatively analyzed. Bulky and unable to meet the application requirements in specific environments

Method used

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  • Device and method for detecting parahydrogen content by using nuclear magnetic resonance
  • Device and method for detecting parahydrogen content by using nuclear magnetic resonance
  • Device and method for detecting parahydrogen content by using nuclear magnetic resonance

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Embodiment 1

[0040] A parahydrogen content detection device utilizing nuclear magnetic resonance, comprising a parahydrogen intake channel, an ordinary hydrogen intake channel, a third one-way valve 13, a fifth straight-through valve 14, a vacuum gauge 15; a vacuum pump 16; a reaction sampling tube 17, Porous material filling 18 , third pressure gauge 19 and first back pressure valve 20 .

[0041] Both the outlet ends of the parahydrogen inlet passage and the ordinary hydrogen inlet passage are connected to the inlet end of the third one-way valve 13, and the outlet end of the third one-way valve 13 is connected to one end of the sampling inlet pipe, and the other end of the sampling inlet pipe passes through the reaction The sealing plug at the opening of the sampling tube 17 extends to the bottom of the reaction sampling tube 17, and the bottom of the reaction sampling tube 17 is loaded with a porous material filler 18. The reaction sampling tube 17 is placed inside the magnet of the NMR ...

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Abstract

The invention discloses a parahydrogen content detection device utilizing nuclear magnetic resonance, which comprises a parahydrogen inlet channel and a common hydrogen inlet channel which are both connected with the inlet end of a third one-way valve, and the outlet end of the third one-way valve is connected with one end of a sampling gas inlet pipe; the other end of the sampling gas inlet pipe penetrates through the sealing plug at the opening of the reaction sampling pipe and extends to the bottom of the reaction sampling pipe, porous material filler is loaded at the bottom of the sampling pipe, and one end of the sampling gas outlet pipe penetrates through the sealing plug at the opening of the reaction sampling pipe and extends to the top of the reaction sampling pipe; and the sampling air outlet pipe is connected with a third pressure gauge and a first back pressure valve, the other end of the first back pressure valve is in empty connection, the outlet end of the third one-way valve is connected with one end of a fifth straight-through valve, and the other end of the fifth straight-through valve is connected with a vacuum gauge and a vacuum pump. The invention also discloses a parahydrogen content detection method using nuclear magnetic resonance. The method is simple in structure, simple and convenient to control and operate, and capable of efficiently and accurately detecting the content of parahydrogen in parahydrogen-enriched gas.

Description

technical field [0001] The present invention relates to the technical field of magnetic resonance spectroscopy, more specifically to a parahydrogen content detection device using nuclear magnetic resonance, and also to a parahydrogen content detection method using nuclear magnetic resonance. It is a detection technology suitable for quantitative analysis of parahydrogen gas content in hydrogen gas. Background technique [0002] Parahydrogen (Para-hydrogen) molecule is a special kind of hydrogen molecule, it has a pair of hydrogen atoms with opposite spin directions, and is a hydrogen molecular spin isomer with orthohydrogen. Due to its unique physical configuration, parahydrogen plays an important role in many fields. For example, Para-hydrogen Induced Polarization (Para-hydrogen Induced Polarization) is an NMR polarization technique using para-hydrogen molecules as the polarization source. The number difference of the upper particle layout is increased by an order of magn...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N24/08
CPCG01N24/08Y02A90/30
Inventor 王伟宇徐君邓风
Owner INNOVATION ACAD FOR PRECISION MEASUREMENT SCI & TECH CAS
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