Physical Properties of Matrix According to Replacement Ratio using Polysilicon Sludge Based on Light Burned Magnesia

경소마그네시아 기반 폴리실리콘슬러지 치환율에 따른 경화체의 물리적 특성

  • 김용구 (한밭대학교 건설환경조형대학 건축공학과) ;
  • 김대연 (한밭대학교 건설환경조형대학 건축공학과) ;
  • 신진현 (한밭대학교 건설환경조형대학 건축공학과) ;
  • 이상수 (한밭대학교 건설환경조형대학 건축공학과) ;
  • 송하영 (한밭대학교 건설환경조형대학 건축공학과)
  • Published : 2019.11.01

Abstract

Recently, environmental pollution related to global warming is on the rise. Meanwhile, renewable energy is a representative example of many efforts to develop eco-friendly energy to solve the depletion of natural resources and the depletion of petroleum resources in conjunction with global warming. Among them, photovoltaic power generation is increasing the subsidies for the government to increase the production of photovoltaic electricity of the general public, showing a high growth rate. However, polysilicon, which is a raw material of the photovoltaic panel, generates waste called polysilicon sludge in the manufacturing process. In order to produce 1 ton of polysilicon, about 2 tons of waste polysilicon sludge is generated. In 2012, polysilicon sludge was generated at 78,000 tons, with an average of about 220 tons per day. The sludge generated due to insufficient treatment of polysilicon sludge is currently solidified and is processed by landfilling. Therefore, in this study, polysilicone sludge is used as the concept of admixture, and the physical properties of the matrix according to the polysilicon sludge replacement ratio based on light burned magnesia is determined.

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