Abstract
The circular economy and maximization of environmental sustainability are increasingly becoming the vision and mission of companies competing in present-day global markets. In particular, in the energy sector, the transition from fossil fuels to renewable sources of energy has become the widespread mantra. One typical example is the deployment of devices which produce clean energy, such as solar photovoltaic panels and solar thermal panels, wind generators, tidal stream generators, wave power generators, etc. These are undoubtedly generating clean energy, but their manufacture creates hazardous by-products, the disposal of which results in increased environmental pollution. Chemical Vapor Deposition (CVD) is widely used in manufacturing of solar photovoltaic cells. In these processes, typically, crystalline silicon is precipitated from chlorosilanes, iodides, bromides and fluorides. Polluting by-products include deposition of a silicon film, formation of SiO2 powder and formation of toxic vapors of HF, SiH4 and PH3. Usually, these gaseous products are eliminated in a central scrubber, whose unwanted by-product consists in large quantities of hazardous fluorine-containing sludge. This article concerns an effective and inexpensive detoxification of fluorinated sludge, developed by the authors during research into the sludge collected from the scrubber of a PV cell manufacturing plant located in southern Italy.
Highlights
Annual new solar PV system installations increased from 29.5 GW in 2012 to 107 GW world-wide in 2018
The fluoride ions were partially removed by precipitation with calcium in the electrolytic cell, where sodium dodecyl sulphate was added to enhance flotation
Similar results were achieved using a different sludge produced from polishing operations of the integrated-circuit industry. This sludge, which is composed of hazardous compounds such as SiO2, Al2 O3, CaF2, and unknown organics, was used to replace 10 wt% of the cement powder for concrete manufacturing
Summary
Annual new solar PV system installations increased from 29.5 GW in 2012 to 107 GW world-wide in 2018. The fluoride ions were partially removed by precipitation with calcium in the electrolytic cell, where sodium dodecyl sulphate was added to enhance flotation These treatments were effective for reducing fluorides and suspended solids in the wastewater. Instead of chemical precipitation, which produces large amounts of sludge, a fluidized bed reactor (FBR) can be applied to the treatment of wastewater containing fluorine [10] This process represents a good alternative, in order to reduce solid waste and reuse calcium fluoride. Similar results were achieved using a different sludge produced from polishing operations of the integrated-circuit industry This sludge, which is composed of hazardous compounds such as SiO2 , Al2 O3 , CaF2 , and unknown organics, was used to replace 10 wt% of the cement powder for concrete manufacturing.
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