Publication result detail
Removal of biological and chemical contaminants using ozonization and UV photolysis
RUDOLF, P.; MARŠÁLEK, B.; MARŠÁLKOVÁ, E.; KRAJCAR, I.; POCHYLÝ, F.; FIALOVÁ, S.; BALKO, M.
Original Title
Removal of biological and chemical contaminants using ozonization and UV photolysis
English Title
Removal of biological and chemical contaminants using ozonization and UV photolysis
Type
Paper in proceedings (conference paper)
Original Abstract
Advanced oxidation processes (AOPs) cover a whole range of methods for removal of organic materials from wastewater based on hydroxyl radicals (·OH), which is a strong oxidant. AOPs play important role in so called tertiary water treatment, i.e. elimination of pharmaceuticals, hormones or pesticides at the outflow from the wastewater treatment plant. They can exploit addition of chemicals (e.g. addition of hydrogen peroxide, Fenton reaction) or they can be of physical or physical-chemical nature (e.g. UV irradiation, ozone, photocatalysis, low temperature plasma, cavitation). The ultimate goal is complete mineralization of the organic compounds into water, carbon dioxide and inorganic salts. Paper presents a critical overview of AOPs focusing on their advantages and disadvantages, field of possible applications, especially those which are based on ozone and UV lamps or their combination. Development of new device and test circuit, combining ozonization and UV LED irradiation is presented.
English abstract
Advanced oxidation processes (AOPs) cover a whole range of methods for removal of organic materials from wastewater based on hydroxyl radicals (·OH), which is a strong oxidant. AOPs play important role in so called tertiary water treatment, i.e. elimination of pharmaceuticals, hormones or pesticides at the outflow from the wastewater treatment plant. They can exploit addition of chemicals (e.g. addition of hydrogen peroxide, Fenton reaction) or they can be of physical or physical-chemical nature (e.g. UV irradiation, ozone, photocatalysis, low temperature plasma, cavitation). The ultimate goal is complete mineralization of the organic compounds into water, carbon dioxide and inorganic salts. Paper presents a critical overview of AOPs focusing on their advantages and disadvantages, field of possible applications, especially those which are based on ozone and UV lamps or their combination. Development of new device and test circuit, combining ozonization and UV LED irradiation is presented.
Keywords
ozonization;UV;LED;waste water;cyanobacteria;micropollutant
Key words in English
ozonization;UV;LED;waste water;cyanobacteria;micropollutant
Authors
RUDOLF, P.; MARŠÁLEK, B.; MARŠÁLKOVÁ, E.; KRAJCAR, I.; POCHYLÝ, F.; FIALOVÁ, S.; BALKO, M.
RIV year
2024
Released
14.02.2023
Publisher
American Institute of Physics Inc.
ISBN
9780735443259
Book
AIP Conference Proceedings
Pages count
6
URL
BibTex
@inproceedings{BUT187988,
author="Pavel {Rudolf} and Blahoslav {Maršálek} and Eliška {Maršálková} and Ivo {Krajcar} and František {Pochylý} and Simona {Fialová} and Marek {Balko}",
title="Removal of biological and chemical contaminants using ozonization and UV photolysis",
booktitle="AIP Conference Proceedings",
year="2023",
pages="6",
publisher="American Institute of Physics Inc.",
doi="10.1063/5.0122248",
isbn="9780735443259",
url="https://pubs.aip.org/aip/acp/article/2672/1/030017/2867156/Removal-of-biological-and-chemical-contaminants"
}