CN203568860U - Microbiological leaching device for silicon material - Google Patents
Microbiological leaching device for silicon material Download PDFInfo
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- CN203568860U CN203568860U CN201320737806.XU CN201320737806U CN203568860U CN 203568860 U CN203568860 U CN 203568860U CN 201320737806 U CN201320737806 U CN 201320737806U CN 203568860 U CN203568860 U CN 203568860U
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- extractor body
- batch extractor
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- silicon material
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Abstract
The utility model provides a microbiological leaching device for a silicon material and belongs to the production field of silicon ore purification. According to the device, an outer cover in which a medium can be introduced is arranged outside a leaching tank body; the medium is introduced into the outer cover, so that the leaching tank body is heated, and the requirements of microbiological growth and activity are met; due to arrangement of an air distribution mechanism, a traditional mechanical stirring mechanism is replaced, and the device is energy-saving and environment-friendly; due to the formed airflow stirring, the shear force on microbes, particularly enzymes can be reduced, and the probability that the enzymes are inactivated due to stirring of a stirrer is reduced.
Description
Technical field
the utility model relates to the production field of purifying in silicon ore deposit, relates in particular to a kind of Microorganism Leaching device of silicon material.
Background technology
Quartz sand is a kind of nonmetallic mineral, it is a kind of silicate minerals of hard, wear-resisting, stable chemical performance, its essential mineral composition is SiO2, the color of quartz sand is oyster white or colourless translucent, hardness 7, quartz sand is important industrial mineral raw material, hazardous substance non-chemically, be widely used in glass, casting, pottery and refractory materials, smelting duriron, flux for metallurgy,
The industry such as gold, building, chemical industry, plastics, rubber, abrasive material.
Along with scientific and technical progress, the high-tech industry fast developments such as photoelectric source, electronic industry, optical communication, SiO2 thin-film material, extensive and super large-scale integration, laser, space flight, military project, to being in great demand of high-grade quartz raw material.But because these extraordinary quartz raw materials are very high to the requirement of quality, demand content is greater than 99. 9 % conventionally, even 99. 99 %.
In quartz sand, contain iron contamination, if will obtain highly purified quartz sand, these iron contaminations must be removed.And magnetic separation process of the prior art, removing can only be comprised to the magnetic mineral of intergrowth particle, as impure minerals such as rhombohedral iron ore, limonite, biotite, ilmenite, pyrite and garnets, and for the film iron on quartz sand particle surface or contaminate the removal effect of iron, unsatisfactory.So people select remove the film iron on quartz sand particle surface or contaminate iron by the mode of Microorganism Leaching.
The reactor that current industrial Microorganism Leaching adopts is mainly mechanical agitating tank, and this steel basin relies on the stirring that is installed on its inner stirring rake to drive the flowing of liquid, by the moving gas dispersion of fluxion strap and the particle of liquid, suspended.Yet traditional this stirring reactor, after pulp density improves, ore pulp retrogradation, viscosity increase, and are unfavorable for gas diffusion, for ore pulp particle is suspended, mix, need the power of agitator that input is larger, cause larger shearing force, and to the growth of thalline and adhere to cause and have a strong impact on.
Summary of the invention
For addressing the above problem, the utility model provides a kind of Microorganism Leaching device of silicon material, adopts following technical scheme:
A Microorganism Leaching device for silicon material, comprises batch extractor body, it is characterized in that, the setting of described batch extractor body exterior can pass into the chuck of heating medium or heat-eliminating medium, and medium inlet and media outlet are set on described chuck; The top of described batch extractor body arranges feeding mouth; On described medium inlet, automatic control adjustable valve is set, described automatic control adjustable valve is connected with temperature regulator, and the other end of described temperature regulator is connected with temperature transmitter, and described temperature transmitter is arranged on the inside of batch extractor body by feeding mouth; The bottom of described batch extractor body arranges discharge port and ventpipe, and described ventpipe is connected with the gas distribution mechanism that is arranged on batch extractor body interior; Described gas distribution mechanism comprises and is parallel to the air-spreading disk of batch extractor body bottom and perpendicular to batch extractor body bottom cloth gas column, on described air-spreading disk and cloth gas column, ventilating pit is set.
Preferably, the two ends of described automatic control adjustable valve are connected with second pipe, and described second pipe connection heating medium or heat-eliminating medium, in batch extractor body, are provided with manual modulation valve in described second pipe.
The beneficial effects of the utility model are as follows:
1. the Microorganism Leaching device of the silicon material that the utility model provides, can pass into the chuck of heating medium or heat-eliminating medium in the outer setting of batch extractor body, and medium inlet and media outlet are set on chuck; So arrange, through being heated to the hot water of certain temperature or being cooled to the cold water of certain temperature just can enter batch extractor body and the direct space of overcoat by medium inlet, take water as medium heats batch extractor body, to reach, meet microorganism growth and active needs; In the device that the utility model provides, in batch extractor body, be provided with temperature transmitter, described temperature transmitter is transferred to the temperature of charge signal in the tank of collection in temperature regulator, temperature regulator processing signals displays temperature, transfer signals to automatic regulating valve simultaneously, automatic regulating valve regulates open degree automatically according to temperature signal, so, by regulating the flow of overcoat medium, thereby automatization ground regulates the intrinsic temperature of charge of batch extractor, reach and meet microorganism growth and active needs, improve the Microorganism Leaching effect of silicon material.
2., in the Microorganism Leaching device of the silicon material that the utility model provides, the setting of second pipe and manual modulation valve, is when preventing that automatic regulating valve from ging wrong, manually control agent flow.
3. in the Microorganism Leaching device of the silicon material that the utility model provides, be provided with gas distribution mechanism, described gas distribution mechanism comprises and is parallel to the air-spreading disk of batch extractor body bottom and perpendicular to batch extractor body bottom cloth gas column, on described air-spreading disk and cloth gas column, ventilating pit is set; So arrange can be when passing into the required gas of microorganism in batch extractor body, produce upper and lower, surrounding around air-flow, thereby drive flowing of material; The setting of gas distribution mechanism, has replaced the mechanical stirring mechanism in tradition, energy-conserving and environment-protective; The airflow stirring forming, can reduce microorganism, and particularly the shearing force to enzyme, has reduced because agitator stirs and caused the deactivated probability of enzyme.
accompanying drawing explanation:
Fig. 1 is structural representation of the present utility model; Wherein 1 represents batch extractor body; 2 represent chuck; 3 represent ventpipe; 4 represent medium inlet; 41 represent manual modulation valve; 42 represent automatic control adjustable valve; 43 represent second pipe; 5 represent temperature regulator; 6 represent temperature transmitter; 7 represent feeding mouth; 8 represent gas distribution mechanism; 9 represent ventilating pit; 10 represent discharge port; 11 represent media outlet.
Embodiment
Below in conjunction with the drawings and specific embodiments, the utility model is further illustrated.
The Microorganism Leaching device of a kind of silicon material as shown in Fig. 1, comprises batch extractor body 1, and the outer setting of described batch extractor body 1 can pass into the chuck 2 of heating medium or heat-eliminating medium, and medium inlet 4 and media outlet 11 are set on described chuck 2; The top of described batch extractor body 1 arranges feeding mouth 7; On described medium inlet 4, automatic control adjustable valve 42 is set, described automatic control adjustable valve 42 is connected with temperature regulator 5, the other end of described temperature regulator 5 is connected with temperature transmitter 6, and described temperature transmitter 6 is arranged on the inside of batch extractor body 1 by feeding mouth 7; The bottom of described batch extractor body 1 arranges discharge port 10 and ventpipe 3, and described ventpipe 3 is connected with the gas distribution mechanism 8 that is arranged on batch extractor body 1 inside; Described gas distribution mechanism 8 comprises and is parallel to the air-spreading disk of batch extractor body 1 bottom and perpendicular to batch extractor body 1 bottom cloth gas column, on described air-spreading disk and cloth gas column, ventilating pit 9 is set.
The two ends of automatic control adjustable valve 42 are connected with second pipe 43, and described second pipe 43 connection heating mediums or heat-eliminating medium, in batch extractor body 1, are provided with manual modulation valve 41 in described second pipe 43.
Claims (2)
1. the Microorganism Leaching device of a silicon material, comprise batch extractor body (1), it is characterized in that, described batch extractor body (1) outer setting can pass into the chuck (2) of heating medium or heat-eliminating medium, and medium inlet (4) and media outlet (11) are set on described chuck (2); The top of described batch extractor body (1) arranges feeding mouth (7); Automatic control adjustable valve (42) is set on described medium inlet (4), described automatic control adjustable valve (42) is connected with temperature regulator (5), the other end of described temperature regulator (5) is connected with temperature transmitter (6), and described temperature transmitter (6) is arranged on the inside of batch extractor body (1) by feeding mouth (7); The bottom of described batch extractor body (1) arranges discharge port (10) and ventpipe (3), and described ventpipe (3) the gas distribution mechanism (8) inner with being arranged on batch extractor body (1) is connected; Described gas distribution mechanism (8) comprises and is parallel to the air-spreading disk of batch extractor body (1) bottom and perpendicular to batch extractor body (1) bottom cloth gas column, ventilating pit (9) is set on described air-spreading disk and cloth gas column.
2. the Microorganism Leaching device of silicon material according to claim 1, it is characterized in that, the two ends of described automatic control adjustable valve (42) are connected with second pipe (43), described second pipe (43) connection heating medium or heat-eliminating medium, in batch extractor body (1), are provided with manual modulation valve (41) in described second pipe (43).
Priority Applications (1)
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CN201320737806.XU CN203568860U (en) | 2013-11-21 | 2013-11-21 | Microbiological leaching device for silicon material |
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CN201320737806.XU CN203568860U (en) | 2013-11-21 | 2013-11-21 | Microbiological leaching device for silicon material |
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CN203568860U true CN203568860U (en) | 2014-04-30 |
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CN201320737806.XU Expired - Fee Related CN203568860U (en) | 2013-11-21 | 2013-11-21 | Microbiological leaching device for silicon material |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103663471A (en) * | 2013-11-21 | 2014-03-26 | 成都兴能新材料有限公司 | Microbiological leaching device for silicon material |
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2013
- 2013-11-21 CN CN201320737806.XU patent/CN203568860U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103663471A (en) * | 2013-11-21 | 2014-03-26 | 成都兴能新材料有限公司 | Microbiological leaching device for silicon material |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140430 Termination date: 20191121 |
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CF01 | Termination of patent right due to non-payment of annual fee |