9781003364085_10.1201_9781003364085-9.pdf

9781003364085_10.1201_9781003364085-9.pdf

Chapter 9 - The heterogeneous Fenton process can generate a large number of compounds that can be toxic to the environment, and more toxic by-products than the parent compounds can appear after the treatment process. The heterogeneous Fenton process is used to decompose contaminants by rapid oxidati...

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Έκδοση: Taylor & Francis 2024
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spelling oapen-20.500.12657-875392024-03-28T14:03:14Z Chapter 9 Toxicity of the Catalyst and Products Formed in the Process Bury, Dominika Jakubczak, Michał Bogacki, Jan Marcinowski, Piotr Jastrzębska, Agnieszka Advanced Oxidation Process ; Industrial Wastewater ; Iron Catalysts ; Nanotechnology, Nano-Oxides ; Refractory Organic Compounds ; Wastewater Quality Assessment thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TQ Environmental science, engineering and technology::TQS Sanitary and municipal engineering::TQSW Water supply and treatment thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TQ Environmental science, engineering and technology Chapter 9 - The heterogeneous Fenton process can generate a large number of compounds that can be toxic to the environment, and more toxic by-products than the parent compounds can appear after the treatment process. The heterogeneous Fenton process is used to decompose contaminants by rapid oxidation in the presence of a catalyst. Iron oxides, commonly used as catalysts, are considered to be non-toxic, but there are reports of toxicity towards certain organisms. Therefore, studies on the stability of the catalysts used in the process and their potential threats to living organisms are necessary. It is essential to constantly work on the stability of the catalyst. The toxicity of the by-products is also crucial. According to the reports, the decrease in viability of organisms is organism-specific and dose-dependent, and the lethal effect is strictly related to the size of particles. Incomplete mineralization can also result in hazardous, potentially toxic compounds in the effluent. Thus, the toxicity of effluent also needs to be studied, and biodegradability needs to be increased to reduce the toxicity of the process. 2024-02-06T12:03:52Z 2024-02-06T12:03:52Z 2024 chapter 9781032359014 9781032427423 https://library.oapen.org/handle/20.500.12657/87539 eng application/pdf Attribution-NonCommercial-NoDerivatives 4.0 International 9781003364085_10.1201_9781003364085-9.pdf Taylor & Francis Wastewater Treatment with the Fenton Process CRC Press 10.1201/9781003364085-9 10.1201/9781003364085-9 7b3c7b10-5b1e-40b3-860e-c6dd5197f0bb 7991b77c-54ad-4c3b-9b71-4e6589421258 9781032359014 9781032427423 CRC Press 9 open access
institution OAPEN
collection DSpace
language English
description Chapter 9 - The heterogeneous Fenton process can generate a large number of compounds that can be toxic to the environment, and more toxic by-products than the parent compounds can appear after the treatment process. The heterogeneous Fenton process is used to decompose contaminants by rapid oxidation in the presence of a catalyst. Iron oxides, commonly used as catalysts, are considered to be non-toxic, but there are reports of toxicity towards certain organisms. Therefore, studies on the stability of the catalysts used in the process and their potential threats to living organisms are necessary. It is essential to constantly work on the stability of the catalyst. The toxicity of the by-products is also crucial. According to the reports, the decrease in viability of organisms is organism-specific and dose-dependent, and the lethal effect is strictly related to the size of particles. Incomplete mineralization can also result in hazardous, potentially toxic compounds in the effluent. Thus, the toxicity of effluent also needs to be studied, and biodegradability needs to be increased to reduce the toxicity of the process.
title 9781003364085_10.1201_9781003364085-9.pdf
spellingShingle 9781003364085_10.1201_9781003364085-9.pdf
title_short 9781003364085_10.1201_9781003364085-9.pdf
title_full 9781003364085_10.1201_9781003364085-9.pdf
title_fullStr 9781003364085_10.1201_9781003364085-9.pdf
title_full_unstemmed 9781003364085_10.1201_9781003364085-9.pdf
title_sort 9781003364085_10.1201_9781003364085-9.pdf
publisher Taylor & Francis
publishDate 2024
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