Details

Autor(en) / Beteiligte

• Ramos, A.
• Filtvedt, W.O.
• Lindholm, D.
• Ramachandran, P.A.
• Rodríguez, A.
• del Cañizo, C.

Titel

Deposition reactors for solar grade silicon: A comparative thermal analysis of a Siemens reactor and a fluidized bed reactor

Ist Teil von

• Journal of crystal growth, 2015-12, Vol.431 (C), p.1-9

Ort / Verlag

Netherlands: Elsevier B.V

Erscheinungsjahr

2015

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• Polysilicon production costs contribute approximately to 25–33% of the overall cost of the solar panels and a similar fraction of the total energy invested in their fabrication. Understanding the energy losses and the behaviour of process temperature is an essential requirement as one moves forward to design and build large scale polysilicon manufacturing plants. In this paper we present thermal models for two processes for poly production, viz., the Siemens process using trichlorosilane (TCS) as precursor and the fluid bed process using silane (monosilane, MS). We validate the models with some experimental measurements on prototype laboratory reactors relating the temperature profiles to product quality. A model sensitivity analysis is also performed, and the effects of some key parameters such as reactor wall emissivity and gas distributor temperature, on temperature distribution and product quality are examined. The information presented in this paper is useful for further understanding of the strengths and weaknesses of both deposition technologies, and will help in optimal temperature profiling of these systems aiming at lowering production costs without compromising the solar cell quality. •Temperature control in the CVD processes for SoGSi production is essential.•The heat loss problem associated with polysilicon CVD is addressed.•CFD models for a Siemens and FBR prototypes are developed.•The CFD models developed give us reasonable estimates of the temperature distribution.•CFD models become a tool for design and will help in optimal temperature profiling of these systems.