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A polysilicon reduction furnace temperature control and energy saving system and process

An energy-saving system and reduction furnace technology, applied in the field of solar photovoltaics, can solve the problems of ineffective removal of silicon powder in the tail gas pipeline, untimely control of feed flow of trichlorosilane, insufficient use of heat energy, etc., to reach the feed temperature Stable and controllable, reduce energy consumption, and reduce the use of steam

Active Publication Date: 2016-01-20
MORIMATSU (JIANGSU) HEAVY IND CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0022] (1) Insufficient utilization of heat energy;
[0023] (2) The feed temperature is unstable and uncontrollable;
[0024] (3) The feed flow control of trichlorosilane is not timely;
[0025] ⑷ Cannot effectively remove the silicon powder in the exhaust pipe

Method used

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  • A polysilicon reduction furnace temperature control and energy saving system and process
  • A polysilicon reduction furnace temperature control and energy saving system and process

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Experimental program
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Effect test

Embodiment 1

[0059] Embodiment 1: The polysilicon reduction furnace temperature control energy-saving system of the present invention includes a trichlorosilane centralized vaporizer 1, a hydrogen preheater 2, a pipeline static mixer 3, a reduction furnace 4, a silicon powder filter 5, and tail gas temperature-controlled cooling Device 6. The hot hydrogen outlet of the hydrogen preheater 2 tube side is connected to the pipeline static mixer 3, and the gas phase trichlorosilane outlet of the trichlorosilane centralized vaporizer 1 is connected to the hydrogen preheater 2 tube side The hot hydrogen outlet pipe is at the minimum distance from the pipeline static mixer 3; the mixed gas outlet of the pipeline static mixer 3 is connected to the air inlet of the reduction furnace 4; the tail gas outlet of the reduction furnace 4 is connected to the silicon The powder filter 5 inlet, the silicon powder filter 5 outlet is connected to the tail gas temperature control cooler 6 shell side high temper...

Embodiment 2

[0060] Embodiment 2: In the further improvement of the present embodiment 1, a centralized flash tank 7 is also included, and the furnace drum cooling water outlet of the concentrated flash tank 7 is connected to the furnace drum cooling water inlet of the reduction furnace 4, and the reduction furnace 4 The furnace cooling water outlet is connected to the concentrated flash tank 7, the furnace cooling water return inlet and the tube side inlet of the trichlorosilane centralized vaporizer 1, and the trichlorosilane centralized vaporizer 1 tube side outlet is connected to the centralized The return water inlet of the flash tank 7, the exhaust cooling water outlet of the centralized flash tank 7 is connected to the inlet of the exhaust gas temperature-controlled cooler 6, and the outlet of the exhaust gas temperature-controlled cooler 6 is connected to the centralized flash tank 7 Exhaust gas cooling water return water inlet.

[0061] The specific implementation method is that t...

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Abstract

The invention discloses a temperature control and energy saving system and process for polycrystalline silicon reduction furnaces. The system is characterized by comprising a trichlorosilane concentrated carburetor, a hydrogen preheater, a pipeline static mixer, a reduction furnace, a silicon powder filter and a tail gas temperature-control cooler, wherein the hydrogen preheater 2 is connected to the pipeline static mixer 3, and the trichlorosilane concentrated carburetor is connected to a tube pass of the hydrogen preheater; the pipeline static mixer is connected to the reduction furnace; the tail gas outlet of the reduction furnace 4 is connected to the shell-pass high-temperature gas phase inlet of the tail gas temperature-control cooler, and the shell-pass low-temperature gas phase outlet of the tail gas temperature-control cooler is connected to the shell-pass gas phase inlet of the hydrogen preheater. According to the system and application method disclosed by the invention, feed compositions are uniform, the feed temperature is stable and controllable, the heat energy is used fully, the power consumption of the reduction furnace and the system is reasonably reduced, and the growth quality of polycrystalline silicon is controlled better; silicon powder of a tail gas pipeline is effectively removed, thereby protecting valves of the tail gas pipeline and facilities of a CDI (Capacitor Discharge Ignition) system.

Description

Technical field: [0001] The invention relates to polysilicon production, in particular to a temperature-controlled and energy-saving module system and process for a polysilicon reduction furnace, which belongs to the field of solar photovoltaics. Background technique: [0002] Since the 20th century, with the development of social economy and the improvement of people's living standards, the demand for energy has continued to grow. The finiteness of fossil energy resources and their impact on the global climate and environment during the combustion process have attracted increasing attention. From the perspective of resources, environment, and social development needs, it is an inevitable trend to develop and utilize new and renewable energy. In the family of new energy and renewable energy, solar energy has become the most eye-catching member with the most research work and the widest application. With the rapid development of the solar energy industry, there has been an ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C01B33/035
CPCY02P20/10
Inventor 陈宏伟许晟
Owner MORIMATSU (JIANGSU) HEAVY IND CO LTD
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