GB/T 42845.1-2023 English PDF

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GB/T 42845.1-2023: Fine bubble technology-Characterization of microbubbles - Part 1: Off-line evaluation of size index
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Basic data

Standard ID: GB/T 42845.1-2023 (GB/T42845.1-2023)
Description (Translated English): Fine bubble technology-Characterization of microbubbles - Part 1: Off-line evaluation of size index
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: A21
Classification of International Standard: 19.020
Word Count Estimation: 26,264
Date of Issue: 2023-08-06
Date of Implementation: 2024-03-01
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 42845.1-2023: Fine bubble technology-Characterization of microbubbles - Part 1: Off-line evaluation of size index

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
ICS 19.020 CCSA21 National Standards of People's Republic of China Micro Bubble Technology Characterization of Micro Bubbles Part 1.Offline evaluation of particle size index (ISO 21910-1.2020,MOD) Published on 2023-08-06 2024-03-01 Implementation State Administration for Market Regulation Released by the National Standardization Administration Committee

Table of contents

Preface III Introduction IV 1 Scope 1 2 Normative reference documents 1 3 Terms and Definitions 1 4 Requirements 2 4.1 Sample requirements 2 4.2 Sampling and measurement system requirements 2 5 Measuring equipment 2 6 Measurement environment 2 7 Sampling and measurement system 2 7.1 General 2 7.2 System structure 3 7.3 Component layout 3 7.3.1 Loading tube opening position 3 7.3.2 Location of measuring equipment 4 7.4 Storage container 4 7.4.1 General 4 7.4.2 Storage container configuration requirements 4 7.5 Loading tube 4 7.5.1 Inner diameter of loading tube 4 7.5.2 Loading tube length 4 7.5.3 Curvature of loading tube 4 7.5.4 Surface roughness 4 7.5.5 Loading tube material 4 7.5.6 Shockproof of loading tube 4 7.6 Loading pump 4 7.6.1 General 4 7.6.2 Flow (flow rate) 5 7.7 Retention time 5 7.8 Dispersion of shelled microbubbles before/during sampling 5 8 Step 6 9 Data collection 6 9.1 General 6 9.2 Measurement duration 7 9.3 Number of measurements 7 9.4 Particle size classification 7 9.5 Results 7 9.6 Equipment calibration and traceability7 9.7 Uncertainty evaluation 7 10 Data Correction 7 10.1 General 7 10.2 Keep blank water samples 7 11 Test Report 7 Appendix A (informative) Comparison examples of 3 measurement techniques 9 Appendix B (informative) Impact of measurement system settings10 B.1 Flow rate and pipe length10 B.2 Pipe diameter and pipe length11 B.3 Conduit materials11 Appendix C (informative) Example 13 of measuring shellless microbubbles using dynamic image analysis C.1 Sampling and measurement system13 C.2 Test step 14 C.3 Number concentration14 C.4 Example of measurement results 14 Appendix D (Informative) Method Reproducibility Example 16 Appendix E (informative) Calibration data example minus blank sample 17 Reference 18

Foreword

This document complies with the provisions of GB/T 1.1-2020 "Standardization Work Guidelines Part 1.Structure and Drafting Rules of Standardization Documents" Drafting. This document is Part 1 of GB/T 42845 "Characterization of microbubbles in fine bubble technology". GB/T 42845 has been released with Lower part. ---Part 1.Offline evaluation of particle size index. This document is modified using ISO 21910-1.2020 "Fine bubble technology. Characterization of microbubbles Part 1.Offline particle size index" Evaluate". Compared with ISO 21910-1.2020, this document has made the following structural adjustments. ---Adjust Appendix A to Appendix C, Appendix C to Appendix E, and Appendix E to Appendix A. The technical differences between this document and ISO 21910-1.2020 and their reasons are as follows. ---Added normative reference document GB/T 41914.1 (see Chapter 3) to improve operability; ---The document number and referenced measurement method (see Chapter 11) have been added to the test report to improve operability. The following editorial changes have been made to this document. ---In order to coordinate with existing standards, the diameter is changed to particle size (see 4.1); --- Added a statement indicating the appendix; ---Deleted Figure A.1. Please note that some content in this document may be subject to patents. The publisher of this document assumes no responsibility for identifying patents. This document is proposed by the Chinese Academy of Sciences. This document is under the jurisdiction of the National Technical Committee on Standardization of Fine Bubble Technology (SAC/TC584). This document was drafted by. Nanobubble Detection Technology (Shanghai) Co., Ltd., Shanghai National Engineering Research Center for Nanotechnology and Applications Co., Ltd. Company, Ningbo Haibo Group Co., Ltd., Institute of Process Engineering, Chinese Academy of Sciences, Donghua University, National Nanoscience Center, Chinese Academy of Sciences Shanghai Institute for Advanced Study, Chang'an University, Guona Nanotechnology Research (Hebei) Co., Ltd., Shanghai Nanobarber Nanotechnology Co., Ltd., Shanghai Metallographic Environmental Technology Co., Ltd., Shanghai Fude Xintai Nanotechnology Co., Ltd. The main drafters of this document. Chen Luhai, Liu Yanan, Zhu Jun, Xia Shaohua, Li Zhaojun, Zhou Lan, Chen Lan, Geng Cong, Zhang Lijuan, Guo Jifeng, Luo Chao, Wang He, Zhang Han, Deng Siyu, Wang Meilin, Yan Ming, Wang Weizhong, Jiang Lili, Wang Guoping, Wang Guoxiang.

Introduction

In recent years, the development of micro-bubble technology has expanded its application market and made it widely used in various fields, such as cleaning and purification engineering, Water treatment engineering (including water supply and sewage), agriculture and aquaculture, biomedicine and other fields. These applications further accelerate the technology Expansion and penetration in various fields. A variety of measurement techniques have been developed to evaluate the properties of microbubbles and are widely used in various fields. However, the dynamics of microbubbles Characteristics make it difficult for users to accurately measure the microbubble particle size index. The stability of microbubbles is low, and individual microbubbles are prone to shrinkage, deformation, and aggregation in water. and decomposition, so specific steps need to be followed for sampling and timely measurement. In accordance with the requirements of this document, equipping the specified type of measuring equipment and conducting sampling according to the specified steps will help to obtain comparable results. result. "Characterization of Microbubbles in Microbubble Technology" aims to standardize the characterization of microbubbles and currently consists of one part. ---Part 1.Offline evaluation of particle size index. The purpose is to establish an evaluation method for microbubble particle size index. Micro Bubble Technology Characterization of Micro Bubbles Part 1.Offline evaluation of particle size index

1 Scope

This document describes methods for the evaluation of the particle size index of microbubbles in microbubble dispersions and for the analysis of microbubbles from microbubble generation or storage containers. Sampling method of scattering points to test points of a measuring device. This document applies to microbubbles (shelled bubbles or shellless bubbles) with particle sizes ranging from 1 μm to 100 μm in water.

2 Normative reference documents

The contents of the following documents constitute essential provisions of this document through normative references in the text. Among them, the dated quotations For undated referenced documents, only the version corresponding to that date applies to this document; for undated referenced documents, the latest version (including all amendments) applies to this document. GB/T 41914.1 Microbubble Technology General Principles for the Use and Measurement of Microbubbles Part 1.Terminology (GB/T 41914.1- 2022,ISO 20480-1.2017,IDT)

3 Terms and definitions

The terms and definitions defined in GB/T 41914.1 and the following apply to this document. 3.1 measurement time measurement time The time required for a series of test processes is provided that the microbubble particle size index and/or bubble number concentration index remain relatively stable during the entire process. determined, and the results are reproducible through the above test process under similar test conditions. Note. The measurement duration refers to the time period from the time of generation to the time of disappearance or the time period of generation (disappearance) plus the duration. 3.2 diluent waterdiluent Used for dilution, homogeneous water without any negative effects and with a known number and concentration of ultra-fine bubbles. Note 1.Dilution water is used to reduce the number concentration of ultrafine bubbles in the dispersion system, and does not change the total number of ultrafine bubbles and the particle aggregation state, size or surface chemical properties. Note 2.When evaluating ultrafine bubbles, dilution water with a concentration of zero ultrafine bubbles is called blank water. [Source. GB/T 42843.1-2023,3.2] 3.3 retention time retention time In a storage container, the length of time between the moment microbubbles are generated or dispersed into the flow cell and the moment they are detected by the measuring device. 3.4 methodrepeatability The same sample is divided into different aliquots for a specific property in a short period of time under the same conditions by the same operator using the same equipment. The consistency of the results after multiple measurements of the sample. Note. Variability includes uncertainties caused by differences in operators and their sampling techniques, changes in sampling materials and instruments. ......

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