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Influence of Additional Insulation Block on Melt-Crystal Interface Shape in Directional Solidification System for Growing High Quality mc-Silicon Ingot: a Simulation Investigation
Influence of Additional Insulation Block on Melt-Crystal Interface Shape in Directional Solidification System for Growing High Quality mc-Silicon Ingot: a Simulation Investigation
by Anbu, G. , Srinivasan, M. , Nagarajan, S.G. , Ramasamy, P. , Aravindan, G.
in Chemistry / Chemistry and Materials Science / Computer simulation / Crystal dislocations / Crystallization / Directional solidification / Dislocation density / Efficiency / Energy consumption / Environmental Chemistry / Finite volume method / Heat transfer / Ingots / Inorganic Chemistry / Insulation / Investigations / Lasers / Materials Science / Optical Devices / Optics / Original Paper / Photonics / Photovoltaic cells / Polymer Sciences / Power / Shear stress / Silicon / Silicon wafers / Simulation / Solar cells / Thermal stress
2021
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Influence of Additional Insulation Block on Melt-Crystal Interface Shape in Directional Solidification System for Growing High Quality mc-Silicon Ingot: a Simulation Investigation
by Anbu, G. , Srinivasan, M. , Nagarajan, S.G. , Ramasamy, P. , Aravindan, G.
in Chemistry / Chemistry and Materials Science / Computer simulation / Crystal dislocations / Crystallization / Directional solidification / Dislocation density / Efficiency / Energy consumption / Environmental Chemistry / Finite volume method / Heat transfer / Ingots / Inorganic Chemistry / Insulation / Investigations / Lasers / Materials Science / Optical Devices / Optics / Original Paper / Photonics / Photovoltaic cells / Polymer Sciences / Power / Shear stress / Silicon / Silicon wafers / Simulation / Solar cells / Thermal stress
2021
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Influence of Additional Insulation Block on Melt-Crystal Interface Shape in Directional Solidification System for Growing High Quality mc-Silicon Ingot: a Simulation Investigation
Influence of Additional Insulation Block on Melt-Crystal Interface Shape in Directional Solidification System for Growing High Quality mc-Silicon Ingot: a Simulation Investigation
by Anbu, G. , Srinivasan, M. , Nagarajan, S.G. , Ramasamy, P. , Aravindan, G.
in Chemistry / Chemistry and Materials Science / Computer simulation / Crystal dislocations / Crystallization / Directional solidification / Dislocation density / Efficiency / Energy consumption / Environmental Chemistry / Finite volume method / Heat transfer / Ingots / Inorganic Chemistry / Insulation / Investigations / Lasers / Materials Science / Optical Devices / Optics / Original Paper / Photonics / Photovoltaic cells / Polymer Sciences / Power / Shear stress / Silicon / Silicon wafers / Simulation / Solar cells / Thermal stress
2021

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Influence of Additional Insulation Block on Melt-Crystal Interface Shape in Directional Solidification System for Growing High Quality mc-Silicon Ingot: a Simulation Investigation
Influence of Additional Insulation Block on Melt-Crystal Interface Shape in Directional Solidification System for Growing High Quality mc-Silicon Ingot: a Simulation Investigation
Journal Article

Influence of Additional Insulation Block on Melt-Crystal Interface Shape in Directional Solidification System for Growing High Quality mc-Silicon Ingot: a Simulation Investigation

Anbu, G.,
Srinivasan, M.,
Nagarajan, S.G.,
Ramasamy, P.,
Aravindan, G.
2021
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Overview
We have carried out the numerical simulation for DS system for growing multi-crystalline silicon (mc-Si) ingot with different size additional insulation blocks. Thermal Stress, melt-crystal interface shape and dislocation density are the main factors that can determine the efficiency of solar cells. Thermal stress and dislocation density can be controlled by controlling the heat dissipation from the crucible. The simulation results revealed that the effective controll of melt-crystal interface shape has been obtained by the suitable additional insulation block in DS system. At particular size of insulation block (3 cm) the optimal melt-crystal interface shape, von Mises stress, Maximum shear stress and maximum principal stress have been established during the solidification process which can enhace the mc-Si ingot quality, for photovoltaic application.
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Publisher
Springer Netherlands,Springer Nature B.V
Subject

Chemistry

/ Chemistry and Materials Science

/ Computer simulation

/ Crystal dislocations

/ Crystallization

/ Directional solidification

/ Dislocation density

/ Efficiency

/ Energy consumption

/ Environmental Chemistry

/ Finite volume method

/ Heat transfer

/ Ingots

/ Inorganic Chemistry

/ Insulation

/ Investigations

/ Lasers

/ Materials Science

/ Optical Devices

/ Optics

/ Original Paper

/ Photonics

/ Photovoltaic cells

/ Polymer Sciences

/ Power

/ Shear stress

/ Silicon

/ Silicon wafers

/ Simulation

/ Solar cells

/ Thermal stress

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