Method and apparatus for preparation of granular polysilicon
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C01B-033/021
B01J-008/24
출원번호
US-0282604
(2007-08-09)
등록번호
US-8747757
(2014-06-10)
우선권정보
KR-10-2006-0075897 (2006-08-10)
국제출원번호
PCT/KR2007/003827
(2007-08-09)
§371/§102 date
20080911
(20080911)
국제공개번호
WO2008/018760
(2008-02-14)
발명자
/ 주소
Kim, Hee Young
Yoon, Kyung Koo
Park, Yong Ki
Choi, Won Choon
출원인 / 주소
Korea Research Institute of Chemical Technology
대리인 / 주소
Frommer Lawrence & Haug LLP
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
A process for preparing granular polysilicon using a fluidized bed reactor is disclosed. Upper and lower spaces of the bed are the reaction zone and heating zone, respectively, wherein the height of the reaction gas outlet is the reference height. Reactor productivity is maximized by sufficiently pr
A process for preparing granular polysilicon using a fluidized bed reactor is disclosed. Upper and lower spaces of the bed are the reaction zone and heating zone, respectively, wherein the height of the reaction gas outlet is the reference height. Reactor productivity is maximized by sufficiently providing the heat required and stably maintaining the reaction temperature in the reaction zone, without impairing the mechanical stability of the fluidized bed reactor. This is achieved through electrical resistance heating in the heating zone where an internal heater is installed between the reaction gas supplying means and the inner wall of the reactor tube, thereby heating the fluidizing gas and the silicon particles in the heating zone. The heat generated is transferred to the reaction zone by supplying the fluidizing gas at a rate silicon particles can be intermixed between the reaction zone and the heating zone in a continuous, fluidized state.
대표청구항▼
1. An apparatus for preparing granular polysilicon comprising a fluidized bed reactor which comprises: a reactor tube;a reactor shell enclosing the reactor tube;a fluidizing gas supplying means, wherein means, and means hereafter, is defined as a plate and holes or a plate and holes and nozzles, com
1. An apparatus for preparing granular polysilicon comprising a fluidized bed reactor which comprises: a reactor tube;a reactor shell enclosing the reactor tube;a fluidizing gas supplying means, wherein means, and means hereafter, is defined as a plate and holes or a plate and holes and nozzles, comprising a gas distributing means for supplying a fluidizing gas to a bottom cross-section of a bed of silicon particles, wherein the bed of silicon particles is formed within the reactor tube with the bottom cross-section of the bed being supported by the gas distribution means;a reaction gas supplying means installed vertically within the bed of silicon particles for supplying a reaction gas required for silicon deposition into the bed of silicon particles, wherein the reaction gas supplying means is extended upward from the gas distributing means, with a first intersection being defined, in plan view, between the reaction gas supplying means and the gas distribution means, and a reaction gas outlet, wherein outlet, and outlets hereafter, is defined as a hole or a hole and nozzles, of the reaction gas supplying means is located higher than a plurality of fluidizing gas outlets of the gas distributing means;an internal heater, comprising a plurality of heater units, which is vertically extended upward from the gas distribution means, with a second intersection being defined, in plan view, between the internal heater and the gas distribution means, and installed, in between the reaction gas supplying means and the inner wall of the reactor for heating the fluidizing gas and the silicon particles, wherein the height of the internal heater is not higher than the height of the reaction gas outlet;a plurality of fluidizing gas outlets provided, in plan view, substantially uniformly over a cross-section of the gas distribution means except for the first intersection and the second intersection;a reaction zone and a heating zone, which represent the upper and lower spaces in the reactor tube, respectively, with the height of the reaction gas outlet being selected as the reference height separating the reaction zone and the heating zone;a gas discharging means for discharging an off-gas comprising the fluidizing gas passing through the reaction zone, an unreacted reaction gas and a reaction byproduct gas out of the fluidized bed reactor;a particle discharging means for discharging a part of the silicon particles prepared in the reactor tube by the silicon deposition out of the fluidized bed reactor as silicon product particles; andwherein the gas distributing means comprised in the fluidizing gas supplying means comprises a gas distribution plate in the form of a grid, a disc or a conical plate or a gas distribution assembly plate having a plurality of holes for the distribution of the fluidizing gas at the bottom of the heating zone or comprises a plurality of fluidizing gas supplying holes and nozzles. 2. The apparatus for preparing granular polysilicon as set fourth in claim 1 wherein a packed bed of packing materials, is formed in a space, which is formed in the heating zone, and is enclosed, by the inner wall of the reactor tube, the fluidizing gas supplying means, the reaction gas supplying means and the heater units, wherein the packing materials are not fluidized by the flow of fluidized gas and reduce a cross-sectional space formed between the inner wall of the reactor tube, the reaction gas supplying means and the heater units so that the fluidizing gas is heated while flowing upward through the packed bed. 3. The apparatus for preparing granular polysilicon as set fourth in claim 2, wherein the particle discharging means is installed so that the silicon product particles are discharged out of the fluidized bed reactor after residing in or moving between through the packing materials. 4. The apparatus for preparing granular polysilicon as set fourth in claim 3, wherein the bottom cross-section of the fluidizing gas supplying means intersects with the reaction gas supplying means and either the internal heater or an electrical connection means for electrically connecting the internal heater with a power supply source so that the fluidizing gas flows upward through the bottom cross-section except for the intersections. 5. The apparatus for preparing granular polysilicon as set forth in claim 1, wherein the inner space of the reactor tube is defined as an inner zone where the bed of silicon particles is present and silicon deposition occurs, while the space in between the reactor tube and the reactor shell is defined as an outer zone where the bed of silicon particles is not present and silicon deposition does not occur. 6. The apparatus for preparing granular polysilicon as set forth in claim 5, which comprises an inert gas connecting means for maintaining a substantially inert gas atmosphere in the outer zone, a pressure controlling means for measuring and/or controlling the inner zone pressure (Pi) and/or the outer zone pressure (Po) and a pressure-difference controlling means for maintaining the difference in the outer zone pressure (Po) and the inner zone pressure (Pi) in the range of 0 bar ≦|Po−Pi|≦1 bar. 7. The apparatus for preparing granular polysilicon as set forth in claim 5, wherein a supplemental heater is further installed in the outer zone. 8. The apparatus for preparing granular polysilicon as set forth in claim 1, wherein the reactor tube is made of a single component material or a plurality of materials selected from the group consisting of quartz, silica, silicon nitride, boron nitride, silicon carbide, graphite, glassy carbon, silicon, and a mixture thereof. 9. The apparatus for preparing granular polysilicon as set forth in Claim 8, wherein the reactor tube consists of a single layer or a plurality of layers in the thickness direction each layer of which is made of a different material. 10. The apparatus fir preparing granular polysilicon as set fourth in claim 1, wherein a resistive element, which is comprised in each heater unit and at which electrical resistance heating occurs, is in the form of a rod, a wire, a filament, a bar, a strip or a ribbon having circular, elliptical or polygonal cross-section or of a conduit, a tube, a cylinder or a duct having concentric circular, elliptical or polygonal cross-section, with the shape and/or dimension of the cross-section being uniform or variable along the length direction. 11. The apparatus for preparing granular polysilicon as set forth in claim 10, wherein the resistive element is made of one or two materials selected from graphite, silicon carbide and silicon. 12. The apparatus for preparing granular polysilicon as set claim 10, wherein each beater unit is constructed by installing a protection tube outside the resistive element, forming one or a plurality of separation layers on the surface of the resistive element or installing a protection tube outside the resistive element after forming the separation layer(s) thereon in order to prevent direct contact of the resistive element with silicon particles. 13. The apparatus for preparing granular polysilicon as set fourth in claim 1, wherein the section of the reaction gas supplying means exposed to the heating zone is constructed in the form of a coaxial multitube in which a reaction gas nozzle for supplying the reaction gas is enclosed by one or a plurality of nozzles. 14. The apparatus for preparing granular polysilieon as set fourth in claim 1, wherein the bottom cross-section of the fluidizing gas supplying means intersects with the reaction gas supplying means and either the internal heater or an electrical connection means for electrically connecting the internal heater with a power supply source. 15. The apparatus for preparing granular polysilicon as set fourth in claim 14, wherein the bottom cross-section of the fluidizing gas supplying means further intersects with the particle discharging means. 16. The apparatus for preparing granular polysilicon as set fourth in claim 14, wherein the fluidizing gas flows upward through the bottom cross-section of the fluidizing gas supplying means except for the intersections with the reaction gas supplying means and either the internal heater or an electrical connection means for electrically connecting the internal heater with a power supply source. 17. The apparatus for preparing granular polysilicon as set forth in claim 14, wherein the reaction gas supplying means comprises the fluidizing gas outlets with an arrangement that the fluidizing gas can flow upward with being distributed between a plurality of units corresponding to the internal heater or the electrical connection means.
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이 특허에 인용된 특허 (11)
Van Slooten Richard A. (E. Aurora NY) Prasad Ravi (E. Amherst NY), Annular heated fluidized bed reactor.
Eichelberger Charles W. (Schenectady NY) Wojnarowski Robert J. (Clifton Park NY), Electrical conductors arranged in multiple layers and preparation thereof.
Kim Hee Y. (Daejeon KRX) Song Yong M. (Daejeon KRX) Jeon Jong Y. (Daejeon KRX) Kwon Dae H. (Daejeon KRX) Lee Kang M. (Daejeon KRX) Lee Jae S. (Daejeon KRX) Park Dong S. (Daejeon KRX), Fluidized bed reactor heated by microwaves.
Kim Hee Y. (Daejeon KRX) Song Yong M. (Daejeon KRX) Jeon Jong Y. (Daejeon KRX) Kwon Dae H. (Daejeon KRX) Lee Kang M. (Daejeon KRX) Lee Jae S. (Daejeon KRX) Park Dong S. (Daejeon KRX), Heating of fluidized bed reactor by microwaves.
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