Paramagnetic laminar-flow self-aggregation type oxygen enrichment device

A concentrator and paramagnetic technology, applied in oxygen preparation and other directions, can solve the problems of small gas flux, difficult replacement, and short life, and achieve the effects of low air flow resistance, large gas flux, and long service life.

Inactive Publication Date: 2009-03-18
CHINA THREE GORGES UNIV +2
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Problems solved by technology

The oxygen enrichment process is realized by using the boiling point difference between oxygen and other gases under a certain pressure, and the production cost, storage and transportation cost, and risk of oxygen enrichment are very high; The difference in adsorption capacity realizes the oxygen enrichment process, the production cost is still high, and the continuity of the oxygen enrichment production process is very complicated; the oxygen enrichment process is realized by using the difference in the permeability of the special membrane to oxygen and other gases , the manufacturing process of the membrane is complex and expensive, and the membrane resistance loss is large, the gas flux is small, the replacement is difficult, and the life is short; the oxygen enrichment is realized by the selective permeation of oxygen in the special membrane tube in the magnetic field, and the membrane The manufacturing process is complicated, expensive, and the membrane resistance loss is large, the gas flux is small, the replacement is difficult, and the service life is short.

Method used

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  • Paramagnetic laminar-flow self-aggregation type oxygen enrichment device
  • Paramagnetic laminar-flow self-aggregation type oxygen enrichment device
  • Paramagnetic laminar-flow self-aggregation type oxygen enrichment device

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Embodiment Construction

[0015] In the present invention, the width of the powerful permanent magnet 2 gradually decreases to 21-50% of the long side of the section of the unit pipeline 1 along the gas flow direction of the unit pipeline 1 .

[0016] The working principle of the present invention is as follows: through a strong permanent magnet, a magnetic field with a gradually shrinking magnetic field area along the axial direction of the pipeline from the entrance to the exit is formed in a pipeline with a rectangular flow section that can pass through the magnetic force line, and the laminar air enters the pipeline entrance. After the oxygen is magnetized in the magnetic field of the inlet section to show paramagnetism, it is concentrated and concentrated by the magnetic field when it advances in the magnetic field area gradually shrinking from the inlet to the outlet along the axial direction of the pipeline, and then enters the pipeline outlet gas splitting device to be separated into high-concent...

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Abstract

A Cis-magnetic lamellar flow self-convergent oxygen enricher, belonging to gas separate technique realm. The invention utilize the distinguish of oxygenic paramgnetism and other gaseous antimagnetism, providing a gas which can wash speccally distribute in the condition of the forming sready lamellar flow postural diversified press and diversified temperature, utilizing the speccal distributed strong magnetic field which the oxygen molecular paramgnetism washed in lamellar flow, realizing selfgather thereby separating from other antimagnetic gas to reach the purpose of oxygen's enrichment, the lamellar flow state can eliminate the remix phenomenon of detached cis-magnetism oxygen with other antimagnetic gas.

Description

technical field [0001] The invention relates to a gas enrichment device, in particular to a paramagnetic laminar flow self-convergence oxygen enricher adopting the principle of magnetic force. Background technique [0002] At present, the well-known oxygen enrichment devices mainly use the difference in boiling point between oxygen and other gases under a certain pressure, the difference in the adsorption capacity of molecular sieves for oxygen and other gases under a certain temperature and pressure, and the permeability of special membranes for oxygen and other gases. The difference in capacity and the selective permeation of oxygen by the special membrane tube in the magnetic field realize the enrichment of oxygen. The oxygen enrichment process is realized by using the boiling point difference between oxygen and other gases under a certain pressure, and the production cost, storage and transportation cost, and risk of oxygen enrichment are very high; The difference in ad...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C01B13/02
Inventor 张亚雄胡滨
Owner CHINA THREE GORGES UNIV
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