CN100560482C - Carbon nanotube preparing apparatus and preparation method - Google Patents
Carbon nanotube preparing apparatus and preparation method Download PDFInfo
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- CN100560482C CN100560482C CNB2005100367581A CN200510036758A CN100560482C CN 100560482 C CN100560482 C CN 100560482C CN B2005100367581 A CNB2005100367581 A CN B2005100367581A CN 200510036758 A CN200510036758 A CN 200510036758A CN 100560482 C CN100560482 C CN 100560482C
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Abstract
The present invention relates to a kind of carbon nanotube preparing apparatus.The preparation facilities of described carbon nanotube comprises a boiler tube, and described boiler tube is provided with a gas inlet and that flows into for source gas for the effusive pneumatic outlet of source gas, in the described boiler tube or outer surface of furnace tube be provided with a refrigerating unit with cooling chamber.Described cooling chamber is provided with the but but effusive fluid outlet of operation material of the fluid intake that flows into of operation material and a cooling of a cooling, described gas inlet and described fluid outlet homonymy, and described pneumatic outlet with described fluid intake homonymy so that in described cooling work flow of matter direction and the boiler tube source gas flow direction opposite.The invention still further relates to a kind of preparation method of carbon nanotube.
Description
[technical field]
The present invention relates to a kind of preparation facilities and preparation method of carbon nanotube.
[background technology]
Carbon nanotube is a kind of tubular graphene, and it is found in 1991 by Japanology personnel Iijima, sees also " Helical Microtubules of Graphitic Carbon ", S Iijima, Nature, Vol.354, P.56 (1991).It has caused people's extensive concern with performances such as its extremely excellent conduction, one-way heat conductions, and the preparation method of carbon nanotube also is the emphasis of scientific research always.
The method for preparing carbon nanotube has arc discharge method (Arc Discharge), laser disappear molten method (Laserablation), chemical Vapor deposition process (Chemical Vapor Deposition, CVD) etc., wherein CVD method carbon nano-tube has simple, the low-cost and advantage such as can maximize of equipment.
The equipment of typical C VD carbon nano-tube comprises that the boat and that carries that a high-temperature heater, a Quartz stove tube, are arranged in the Quartz stove tube is arranged on the substrate that carries in the boat.During the preparation carbon nanotube, at first deposition one catalyst layer on substrate heats Quartz stove tube then, feeds carbon-source gas, and carbon-source gas reacts on catalyst layer under the condition of high temperature, thereby grows carbon nanotube.The mode that this kind device decomposes carbon source gas with the elevated temperature heat carbon pipe of growing, its range of reaction temperature is 500-1000 ℃, because the high reaction activity under the carbon nanotube high temperature, carbon Guan Yiyu air reaction, not directly under the condition of high temperature, take out so growth response finishes back carbon pipe, and must wait until when temperature drops to below 300 ℃ in the High Temperature Furnaces Heating Apparatus and just can take out.Thereby whole carbon control is equipped with in the process, effective reaction time is shorter, and it is longer to be used to time of heating up, lowering the temperature, and accounts for the whole processing procedure time more than 10%, reduced the preparation efficiency of carbon nanotube to a great extent, the preparation efficiency that therefore improves carbon nanotube is particularly important.
[summary of the invention]
Below will a kind of preparation facilities and preparation method who improves the carbon nanotube of made of carbon nanotubes efficient be described with a plurality of embodiment.
The preparation facilities of described carbon nanotube comprises a boiler tube, and described boiler tube is provided with a gas inlet and that flows into for source gas for the effusive pneumatic outlet of source gas, in the described boiler tube or outer surface of furnace tube be provided with a refrigerating unit with cooling chamber.Described cooling chamber is provided with the but but effusive fluid outlet of operation material of the fluid intake that flows into of operation material and a cooling of a cooling, described gas inlet and described fluid outlet homonymy, and described pneumatic outlet with described fluid intake homonymy so that in described cooling work flow of matter direction and the boiler tube source gas flow direction opposite.
Optionally, described cooling chamber is arranged at described boiler tube internal surface.
Optionally, described refrigerating unit comprises many cooling tubes with described cooling chamber that are arranged in the described boiler tube, comprises the cooling work material in the cooling chamber of cooling tube.
Optionally, described refrigerating unit comprises at least one cooling tube with described cooling chamber that is arranged on described outer surface of furnace tube, comprises the cooling work material in the cooling chamber of cooling tube.
A kind of preparation method of carbon nanotube, it may further comprise the steps:
One carbon nanotube preparing apparatus is provided, described carbon nanotube preparing apparatus comprises a boiler tube, one is arranged at the substrate in the boiler tube, wherein said boiler tube is provided with a gas inlet and that flows into for source gas and supplies the effusive pneumatic outlet of source gas, described boiler tube internal surface is provided with a refrigerating unit with cooling chamber, along the gravity field direction, the space of described cooling chamber reduces, described cooling chamber is provided with the but but effusive fluid outlet of operation material of the fluid intake that flows into of operation material and a cooling of a cooling, described gas inlet and described fluid outlet homonymy, described pneumatic outlet and described fluid intake homonymy; Deposition one catalyst layer on described substrate; Furnace tubing to one preset temperature; In described boiler tube, feed carbon-source gas by described gas inlet, carbon nano-tube; In described refrigerating unit, feed the cooling work material so that described cooling work flow of matter direction is opposite with source gas flow direction in the boiler tube by described fluid intake, cool off below the temperature to 300 ℃ in the described boiler tube to take out carbon nanotube.
Compared with prior art, the device that adopts among the preparation facilities of the technical program carbon nanotube and the preparation method comprises a refrigerating unit, can feed the cooling work material in the described refrigerating unit, it can cool off boiler tube and middle gas thereof fast, reduce the time when temperature is cooled to take out carbon nanotube in the boiler tube, improve preparation efficiency.
Can strengthen cooling performance during described cooling work flow of matter, further improve preparation efficiency.
Described cooling work flow of matter direction is opposite with gas flow direction in the boiler tube, because the gas that is introduced in the boiler tube has higher temperature, this kind mode makes gas formation adverse current in cooling work material and the boiler tube, and cooling performance is better.
[description of drawings]
Fig. 1 is the technical program first embodiment carbon nanotube preparing apparatus structural profile synoptic diagram.
Fig. 2 is that carbon nanotube preparing apparatus shown in Figure 1 is along the II-II sectional view.
Fig. 3 is the technical program second embodiment carbon nanotube preparing apparatus structural profile synoptic diagram.
Fig. 4 is that carbon nanotube preparing apparatus shown in Figure 3 is along the IV-IV sectional view.
Fig. 5 is the technical program the 3rd an embodiment carbon nanotube preparing apparatus structural representation.
Fig. 6 is a technical program preparation method of carbon nano-tube schema.
[specific embodiment]
Below in conjunction with illustrating a kind of carbon nanotube preparing apparatus and preparation method:
See also Fig. 1 and Fig. 2, it is the technical program carbon nanotube preparing apparatus first embodiment synoptic diagram, described carbon nanotube preparing apparatus 100 comprises that the boat 130, that carries that a boiler tube 110, is arranged in the boiler tube is arranged on a heating part 120 and the refrigerating unit 150 that the substrate 140, that carries in the boat is used for furnace tubing, and refrigerating unit 150 comprises shell 151 that is arranged in the boiler tube 110 and the cooling chamber 152 that is constructed by shell 151 and boiler tube 110.
See also Fig. 3 and Fig. 4, be the technical program second embodiment synoptic diagram, carbon nanotube preparing apparatus 100 differences of the described carbon nanotube preparing apparatus 200 and first embodiment are that refrigerating unit wherein is the many cooling tubes 251 that are arranged in the boiler tube 210.Described cooling tube 251 two ends are respectively equipped with fluid inlet 253 and one fluid outlet 254, can in cooling tube 251, inject the cooling work material by fluid intake 253, preferably, make the cooling work material be in flow state, what be more preferably makes cooling work flow of matter direction opposite with gas flow direction in the boiler tube 210.Owing to use many cooling tubes 251, gas has bigger contact area in cooling work material and the boiler tube 210 in the present embodiment, is convenient to cooling more.Similar with embodiment one, for reaching the cooling efficiency that makes full use of refrigerating unit, the ratio of cooling tube 251 external diameters and described boiler tube 210 internal diameters is between the 0.1-0.25.Cooling tube 251 can distribute arbitrarily in boiler tube 10, does not hinder the setting of carrying boat 230 to get final product.Preferably, cooling tube 251 evenly is being provided with to reach cooling performance uniformly near boiler tube 210 internal surface places.
See also Fig. 5, be the technical program the 3rd embodiment synoptic diagram, carbon nanotube preparing apparatus 100 differences of the described carbon nanotube preparing apparatus 300 and first embodiment are that refrigerating unit wherein is at least one cooling tube 350 that is arranged at boiler tube 310 outer surface.Described cooling tube 350 is wound in boiler tube 310 outside surfaces, embed in the thermal conducting material layer 360, its two ends are provided with fluid inlet 351 and one fluid outlet 352, can in cooling tube, feed the cooling work material by fluid intake 351, preferably, make the cooling work material be in flow state, what be more preferably makes cooling work flow of matter direction opposite with gas flow direction in the boiler tube 310.Cooling tube 350 in the present embodiment is between heating part 320 and boiler tube 310, for realizing the balance of heating efficiency and cooling efficiency, except that adopting better thermal conducting material, preferably make described cooling tube 350 around the ratio of distance and described cooling tube diameter between boiler tube 310 two adjacent rings between 0.5-2.
More than comprise a refrigerating unit in the carbon nanotube preparing apparatus among each embodiment, after the carbon nano tube growth reaction is finished, can in described refrigerating unit, feed the cooling work material, make boiler tube and wherein gas cool off raising made of carbon nanotubes efficient fast; For further accelerating speed of cooling, also refrigerating unit can be inserted the cooling work substance circulation system; Be more preferably, make cooling work flow of matter direction opposite with gas flow direction in the boiler tube, cooling performance is better.
Seeing also Fig. 6, is example with the carbon nanotube preparing apparatus 100 of the foregoing description one, and the technical program also provides a kind of preparation method of carbon nanotube, and it may further comprise the steps:
Also can adopt the carbon nanotube preparing apparatus among second embodiment or the 3rd embodiment in the step 1 in the above-mentioned preparation method of carbon nano-tube, its operation steps is similar to the preparation method of above-mentioned carbon nanotube.
Compared with prior art, adopt among the preparation facilities of the technical program CNT and the preparation method Device comprises a cooling device, can pass into the cooling work material in described cooling device, fast cool furnace Pipe reaches wherein gas, saves cool time, improves preparation efficiency. Can during described cooling work flow of matter Strengthen cooling effect, further improved preparation efficiency.
Claims (11)
1. the preparation facilities of a carbon nanotube, it comprises a boiler tube, described boiler tube is provided with a gas inlet and that flows into for source gas and supplies the effusive pneumatic outlet of source gas, it is characterized in that in the described boiler tube or the outer surface of furnace tube place is provided with a refrigerating unit with cooling chamber, described cooling chamber is provided with the but but effusive fluid outlet of operation material of the fluid intake that flows into of operation material and a cooling of a cooling, described gas inlet and described fluid outlet homonymy, and described pneumatic outlet with described fluid intake homonymy so that in described cooling work flow of matter direction and the boiler tube source gas flow direction opposite.
2. the preparation facilities of carbon nanotube as claimed in claim 1 is characterized in that, described cooling chamber is arranged at described boiler tube internal surface.
3. the preparation facilities of carbon nanotube as claimed in claim 2 is characterized in that, the internal diameter ratio of the mean thickness of described cooling chamber and described boiler tube is between 0.1-0.25.
4. the preparation facilities of carbon nanotube as claimed in claim 1 is characterized in that, described refrigerating unit comprises many cooling tubes with described cooling chamber that are arranged in the described boiler tube.
5. the preparation facilities of carbon nanotube as claimed in claim 4 is characterized in that, described cooling tube is arranged at described boiler tube internal surface.
6. the preparation facilities of carbon nanotube as claimed in claim 4 is characterized in that, described cooling tube external diameter and described boiler tube internal diameter ratio range are 0.1-0.25.
7. the preparation facilities of carbon nanotube as claimed in claim 1 is characterized in that, described refrigerating unit comprises at least one cooling tube with described cooling chamber that is arranged at outer surface of furnace tube.
8. the preparation facilities of carbon nanotube as claimed in claim 7 is characterized in that, described cooling tube is surrounded on described boiler tube surface.
9. the preparation facilities of carbon nanotube as claimed in claim 8 is characterized in that, distance is 0.5-2 with described cooling tube diameter ratio scope between the described cooling tube two adjacent rings.
10. as the preparation facilities of each described carbon nanotube in the claim 2,4,7, it is characterized in that described cooling work material comprises a kind of or its mixture in water, methyl alcohol, ethanol, acetone, hexane, liquefied ammonia, the liquid nitrogen.
11. the preparation method of a carbon nanotube, it may further comprise the steps:
One carbon nanotube preparing apparatus is provided, described carbon nanotube preparing apparatus comprises a boiler tube, one is arranged at the substrate in the boiler tube, wherein said boiler tube is provided with a gas inlet and that flows into for source gas and supplies the effusive pneumatic outlet of source gas, described boiler tube internal surface place is provided with a refrigerating unit with cooling chamber, along the gravity field direction, the space of described cooling chamber reduces, described cooling chamber is provided with the but but effusive fluid outlet of operation material of the fluid intake that flows into of operation material and a cooling of a cooling, described gas inlet and described fluid outlet homonymy, described pneumatic outlet and described fluid intake homonymy;
Deposition one catalyst layer on substrate;
Furnace tubing to one preset temperature;
In described boiler tube, feed carbon-source gas by described gas inlet, carbon nano-tube;
In described refrigerating unit, feed the cooling work material so that described cooling work flow of matter direction is opposite with source gas flow direction in the boiler tube by described fluid intake, cool off below the described boiler tube to 300 ℃ to take out carbon nanotube.
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TW201223862A (en) * | 2010-12-14 | 2012-06-16 | Ind Tech Res Inst | Carbon nanotube structure and fabrication thereof |
WO2013083204A1 (en) * | 2011-12-09 | 2013-06-13 | Applied Materials, Inc. | Heat exchanger for cooling a heating tube and method thereof |
CN111744436A (en) * | 2020-07-15 | 2020-10-09 | 大连交通大学 | Preparation facilities of environment-friendly hierarchical pore structure carbon nanotube material |
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JP2004332093A (en) * | 2003-05-08 | 2004-11-25 | Hiroshi Ashida | Continuous chemical vapor deposition production apparatus |
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JP2004332093A (en) * | 2003-05-08 | 2004-11-25 | Hiroshi Ashida | Continuous chemical vapor deposition production apparatus |
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