Raynard Christianson Sanito scite author profile

Raynard Christianson Sanito

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17Publications

105Citation Statements Received

457Citation Statements Given

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Affiliations

Hôpital Saint-François d'Assise, Chung Yuan Christian University, Université Laval

Publications

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Effect of shell powder on removal of metals and volatile organic compounds (VOCs) from resin in an atmospheric-pressure microwave plasma reactor

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et al. 2020

Journal of Hazardous Materials

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Degradation of contaminants in plasma technology: An overview

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2022

Journal of Hazardous Materials

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The information of plasma technologies applications for environmental clean-up on treating and degrading metals, metalloids, dyes, biomass, antibiotics, pesticides, volatile organic compounds (VOCs), bacteria, virus and fungi is compiled and organized in the review article. Different reactor configurations of plasma technology have been applied for reactive species generation, responsible for the pollutants removal, hydrogen and methane production and microorganism inactivation. Therefore, in this review article, the reactive species from discharge plasma are presented here to provide the insight into the environmental applications. The combinations of plasma technology with flux agent and photocatalytic are also given in this review paper associated with the setup of the plasma system on the removal process of metals, VOCs, and microorganisms. Furthermore, the potential of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) inactivation via plasma technology is also described in this review paper. Detailed information of plasma parameter configuration is given to support the influence of the critical process in the plasma system to deal with contaminants.

Application of plasma technology for treating e-waste: A review

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2021

Journal of Environmental Management

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Economic and environmental evaluation of flux agents in the vitrification of resin waste: A SWOT analysis

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Journal of Environmental Management

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A review on vitrification technologies of hazardous waste

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et al. 2022

Journal of Environmental Management

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Hydrogen and Methane Production from Styrofoam Waste Using an Atmospheric-pressure Microwave Plasma Reactor

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Aerosol Air Qual. Res.

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Polystyrene foam (PSF), which is widely used in oyster farming in Taiwan, generates approximately 120,000-200,000 pieces of floating waste annually. The issues related to processing this waste, however, include the financial cost, incinerator clogs, human exposure to carcinogenic and non-biodegradable components, and potential debris, which threatens the seashore. In this study, we obtained methane (CH 4) and hydrogen (H 2), two crucial gases in power generation, by treating PSF waste with an atmospheric-pressure microwave plasma reactor. Substituting argon with nitrogen as the carrier gas and increasing the microwave power (1200 W) produced a higher concentration of H 2 (4739 ppm) but a lower one of CH 4 (less than 300 ppm). Treating a larger quantity of waste (0.2 g) resulted in CH 4 and H 2 levels of 19,657 ppm and 440 ppm, respectively. SEM-EDX and XRD testing confirmed the transformation of the PSF structure and a reduction in carbon (C) content in the final residue. This research demonstrates how solid waste can be recycled into valuable gases by applying plasma technology.

Inertization of metals and hydrogen production as a byproduct from water hyacinth and water lettuce via plasma pyrolysis

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Novel TiO2/PANI composites as a disinfectant for the elimination of Escherichia coli and Staphylococcus aureus in aquaculture water

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et al. 2021

Environmental Technology & Innovation

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