ISO 24758-1:2025
ISO 24758-1:2025 Fine bubble technology — Evaluation method for determining the reactive oxygen species in ultrafine bubble dispersions — Part 1: Probe based kinetic model
CDN $296.00
This publication was last reviewed and confirmed in 2025.
Fine bubble technology — Evaluation method for determining the reactive oxygen species in ultrafine bubble dispersions — Part 1: Probe based kinetic model
Description
This document specifies evaluation methods for determining the content of reactive oxygen species (ROS) used in the FB-facilitated advanced oxidation for pollution abatement in the wastewater treatment process.
The probe based kinetic model is applicable to systems that generate ROS in substantial quantities, rather than at physiological concentrations, and is applicable to short-lived ROS. However, it is not applicable to long-lived ROS, such as ozone (O3) and hydrogen peroxide (H2O2).
The probe based kinetic model method specifies:
— cumulative concentration of different types of ROS during the reaction process;
— concentration of different types of ROS at each time point during the reaction process.
This method does not define the mechanisms of ROS generation, nor the correlation between bubble size and ROS production.
Edition
1
Published Date
2026-06-19
Status
PUBLISHED
Pages
34
Language
English
Format
Secure PDF
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Abstract
This document specifies evaluation methods for determining the content of reactive oxygen species (ROS) used in the FB-facilitated advanced oxidation for pollution abatement in the wastewater treatment process.
The probe based kinetic model is applicable to systems that generate ROS in substantial quantities, rather than at physiological concentrations, and is applicable to short-lived ROS. However, it is not applicable to long-lived ROS, such as ozone (O3) and hydrogen peroxide (H2O2).
The probe based kinetic model method specifies:
— cumulative concentration of different types of ROS during the reaction process;
— concentration of different types of ROS at each time point during the reaction process.
This method does not define the mechanisms of ROS generation, nor the correlation between bubble size and ROS production.
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