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Device for cooperatively enhancing fluidization of nanoparticles by centrifugal field and sound field

A nanoparticle, field synergistic technology, applied in chemical instruments and methods, chemical/physical processes, chemical/physical/physical chemical processes using energy, etc. The application of particle fluidized bed, the reduction of gas-solid contact efficiency, etc., to achieve the effect of improving gas-solid contact efficiency, good fluidization behavior, and improved fluidization performance

Inactive Publication Date: 2017-08-01
SOUTHEAST UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

For nanoparticles with a small primary particle size, there is strong adhesion between the particles, and the particles adhere to each other and coalesce together, forming a large and dense nanoparticle in the process of synthesis, transportation, storage, etc. Agglomeration, the existence of these large agglomerates affects the fluidization of nanoparticles, making it easy to produce abnormal fluidization phenomena such as channeling, throttling and even dead beds in the ordinary fluidization process, making it difficult to achieve stable fluidization , which greatly reduces the gas-solid contact efficiency, which limits the application of nanoparticle fluidized beds in industry

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  • Device for cooperatively enhancing fluidization of nanoparticles by centrifugal field and sound field

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Embodiment 1

[0027] like figure 1 As shown, the present invention provides a device for synergistically enhancing the fluidization of nanoparticles by a centrifugal field and an acoustic field. The device includes a feed hopper 1, an annular air inlet chamber 2, a centrifugal fluidized bed body 3, a stepping motor 4, and a discharge hopper 5 , Bed support frame 6, bag filter 7, sounder 8, loudspeaker 9, air outlet 10, annular air distribution plate 11, air inlet 12, inner outlet 13, sealing gasket 14, right-angle transmission gearbox 15, wherein the centrifugal fluidized bed body 3 is cylindrical, and its side peripheral wall has a circle of annular air distribution plate 11 composed of densely porous plates with a pore size below 1 μm, and the annular air distribution plate 11 is connected with the centrifugal fluidized bed body 3 A sealing gasket 14 is provided at the contact part of the side circumferential wall, and an annular air inlet chamber 2 is covered on the periphery of the annu...

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Abstract

The invention provides a device for cooperatively enhancing the fluidization of nanoparticles by a centrifugal field and a sound field. The device comprises a feeding hopper (1), an annular air inlet chamber (2), a centrifugal fluidized bed body (3), a stepping motor (4), a discharging hopper (5), a bed body supporting frame (6), a cloth bag dust collector (7), a sounder (8), a loudspeaker (9), an air outlet (10), an annular air distribution plate (11), an air inlet (12), an inner discharging hole (13), a sealing gasket (14) and a right-angle transmission gear box (15). According to the device provided by the invention, the fluidization of the nanoparticles is enhanced through the centrifugal field and the sound field, and abnormal fluidization phenomena including channeling, slugging even normal fluidization and the like of the nanoparticles in a fluidized bed can be effectively eliminated; an agglomeration-crushing process of particle agglomeration is enhanced and mixing between the particles is enhanced; the heat and mass transportation capability between the particles and a main body is improved; process application and amplification are easy to realize; the device has strong operation controllability and is stable to operate.

Description

technical field [0001] The invention relates to a device for synergistically enhancing the fluidization of nanoparticles by a centrifugal field and an acoustic field, belonging to the field of fluidization equipment. Background technique [0002] Due to their small particle size and large specific surface area, nanoparticles have a series of excellent properties and are widely used in chemical, electronic, ceramic, biomedical and other fields. Fluidization technology can greatly improve the heat and mass transfer efficiency between particles and powders. The fluidization of nanoparticles plays an important role in many industrial processes and is mainly used in the following aspects: [0003] 1. Nanoparticle mixing and powder transportation: During the preparation of many functional materials, different nanoparticles need to be mixed evenly or evenly dispersed into other materials. Fluidized nanoparticles have good mass transfer And heat transfer rate, can achieve more unif...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J8/38B01J19/10
CPCB01J8/38B01J8/1818B01J19/10
Inventor 刘道银王远保陈晓平马吉亮梁财
Owner SOUTHEAST UNIV
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