GB/T 38514-2020 English PDF

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GB/T 38514-2020: Test methods for electro-deionization stacks
Status: Valid

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Basic data

Standard ID: GB/T 38514-2020 (GB/T38514-2020)
Description (Translated English): Test methods for electro-deionization stacks
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: J77
Classification of International Standard: 19.020
Word Count Estimation: 10,167
Date of Issue: 2020-03-06
Date of Implementation: 2021-02-01
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 38514-2020: Test methods for electro-deionization stacks

---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.
Test methods for electro-deionization stacks ICS 19.020 J77 National Standards of People's Republic of China Test method for electrodeionization membrane stack 2020-03-06 released 2021-02-01 implementation State Administration for Market Regulation Issued by the National Standardization Management Committee

Foreword

This standard was drafted in accordance with the rules given in GB/T 1.1-2009. This standard was proposed and managed by the National Separation Membrane Standardization Technical Committee (SAC/TC382). Drafting organizations of this standard. Institute of Medical Support Technology, Institute of Systems Engineering, Academy of Military Sciences, Beijing Zhongyang Yongkang Environmental Protection Technology Co., Ltd., Zhejiang Dongda Environmental Engineering Co., Ltd., Nankai University, Tianjin Zhongling Water System Technology Co., Ltd., Hangzhou Annogo Filter Equipment Co., Ltd., Tianjin Ruichun Technology Co., Ltd., Hefei Kejia Polymer Material Technology Co., Ltd., Tianjin Membrane Engineering Technology Limited company. The main drafters of this standard. Liu Hongbin, Ma Jun, Sheng Qing, Jin Wangyong, Wang Jianyou, Li Qi, Zhang Junwei, Chen Qinghua, Wang Yaoming, Wang Hanyi. Test method for electrodeionization membrane stack

1 Scope

This standard specifies test conditions, devices, items, procedures, data processing and reports for electrodeionization membrane stacks (hereinafter referred to as "membrane stacks"). This standard is applicable to the testing of the performance of membrane stacks for producing pure water and high-purity water.

2 Normative references

The following documents are indispensable for the application of this document. For dated reference documents, only the dated version applies to this article Pieces. For undated references, the latest version (including all amendments) applies to this document. GB 9706.1-2007 Medical electrical equipment Part 1.General requirements for safety GB/T 11446.3-2013 General Rules of Electronic Grade Water Test Method GB/T 11446.4 Test method for resistivity of electronic grade water GB/T 11446.6 Spectrophotometric test method for silicon dioxide in electronic grade water GB/T 11446.8 Test method for total organic carbon in electronic grade water GB/T 17219 Safety evaluation standard for drinking water distribution equipment and protective materials GB/T 20103-2006 Membrane separation technical terms HY/T 120-2008 Electrodeionization membrane stack (component)

3 Terms and definitions

The following terms and definitions defined in GB/T 20103-2006 and HY/T 120-2008 apply to this document. In order to make Use, the following repeated lists of certain terms and definitions in GB/T 20103-2006 and HY/T 120-2008. 3.1 Electrodeionization Continuous deionization Taking the potential difference as the driving force, using the anion and cation exchange membranes to selectively permeate the anions and cations in the aqueous solution, and the ions of the ion exchanger Exchange and transfer, as well as the regeneration of ion exchangers by H and OH- generated by hydrolysis under concentration polarization conditions, make the aqueous solution The separation process in which the ions in the membrane continuously transfer from one side of the membrane to the other. [HY/T 120-2008, definition 3.1] 3.2 Electrodeionization membrane stack The anion and cation exchange membranes and the partitions and electrodes of the fresh and concentrated water chambers are arranged according to certain rules to form a fresh water chamber, a concentrated water chamber and an electrode chamber. The ion exchanger is filled in the water chamber, or the ion exchanger is filled in the light and concentrated water chambers, and the electrodeionization is clamped by clamping parts in the form of a plate and frame unit. [HY/T 120-2008, definition 3.2] 3.3 Freshwater Room It is composed of a separator and a negative film facing the anode and a positive film facing the cathode on both sides to reduce the ion concentration of the flowing aqueous solution. Low compartment. [GB/T 20103-2006, definition 3.2.12] 3.4 Thick water chamber It is composed of a separator and a negative film facing the cathode and a positive film facing the anode on both sides to increase the ion concentration of the flowing aqueous solution. Added compartment. [GB/T 20103-2006, definition 3.2.13] 3.5 Electrode chamber The anode frame (or cathode frame) and the anode membrane constitute a compartment through which the anode water passes. [HY/T 120-2008, definition 3.8] 3.6 Water production The effluent of the fresh water chamber of the membrane reactor. 3.7 Thick water The effluent of the concentrated water chamber of the membrane stack. 3.8 Extreme water The effluent of the electrode chamber of the membrane stack.

4 Test conditions

4.1 Testers Testers should meet the following requirements. a) Fully understand the working principle of electrodeionization, the basic structure of the membrane stack, the test process and the operating procedures; b) After the actual operation training of this standard. 4.2 Meters and measuring instruments The instruments and measuring instruments used for testing shall comply with the design, installation and use specifications and standards, and shall be verified by a legal metrological institution and be in Within the validity period. 4.3 Influent water quality index During the test, the influent water quality index of the membrane module should meet the requirements of Appendix A, Table A.1.

5 Test device

5.1 Components and piping materials All components and piping materials of the test device should meet the requirements of GB/T 17219. 5.2 Process flow and instrumentation The process flow of the membrane stack test device is shown in Figure B.1 of Appendix B. The accuracy levels of each instrument are as follows. ---Conductivity meter. Class 1.5; ---Resistivity meter. Class 2.0; ---Flow meter. Class 1.0; ---Pressure gauge. Class 1.0; ---Voltmeter. Class 1.0; --- Ammeter. 1.0 level.

6 Test items

The membrane stack test items are as follows. a) Tightness; b) Inlet water flow and outlet water flow; c) Inlet water pressure; d) Operating voltage and operating current; e) Product water resistivity; f) Water-producing silica; g) Total organic carbon in produced water; h) Water recovery rate; i) Energy consumption of produced water; j) Protective grounding impedance.

7 Test steps

7.1 Store the influent water that meets the requirements in the original water tank. 7.2 Connect the membrane stack to the test device, connect the ground wire, and close all regulating valves. 7.3 During the test, first open the water outlet regulating valve, start the booster pump, and slowly open the water inlet regulating valve. The water is filtered with a precision filter with a precision of 1 μm. The filter enters the membrane stack until the inlet water flow of the fresh water chamber, concentrated water chamber and electrode chamber of the membrane stack reach their respective rated values. The conductivity meter records the conductivity of the influent water, applies the specified operating voltage to the membrane stack with a DC power supply, reads the operating current, or uses a DC power supply to the membrane stack Apply the specified operating current and read the operating voltage. 7.4 Check the tightness of the membrane stack, if the membrane stack does not leak water, continue to test other performance of the membrane stack. 7.5 After the resistivity of the produced water of the membrane stack is stable for 1 hour, test the following basic performance indicators of the membrane stack and make records. a) Read the inlet water flow rate and outlet water flow rate of the fresh water chamber, concentrated water chamber and electrode chamber of the membrane reactor through the flow meter; b) Read the inlet water pressure of the fresh water chamber, concentrated water chamber and electrode chamber of the membrane reactor through the pressure gauge; c) Read the operating voltage and operating current through the voltmeter and ammeter on the DC power supply respectively; d) Monitor the resistivity of the product water according to the provisions of GB/T 11446.4 through an online resistivity meter; e) Sampling according to the provisions of Chapter 4 of GB/T 11446.3-2013, and testing the water-produced silica according to the provisions of GB/T 11446.6 content; f) Sampling according to the provisions of Chapter 4 of GB/T 11446.3-2013, and testing the total organic carbon of the produced water according to the provisions of GB/T 11446.8 content; g) Calculate the water recovery rate according to formula (1); h) Calculate the energy consumption of produced water according to formula (2); i) Measure the protective grounding impedance of the membrane stack in accordance with the provisions of Chapter 18 f) in GB 9706.1-2007. 7.6 After the test is over, disconnect the DC power supply, run for another 2 minutes, turn off the booster pump, and finally close all regulating valves. 7.7 Remove the membrane stack from the test device, empty the original water tank, and wait for the next test.

8 Data processing

8.1 Water recovery rate Read the product water flow, concentrated water flow and extreme water flow respectively through the flowmeter, and calculate the water recovery rate according to formula (1). 8.2 Energy consumption of produced water Read the operating voltage and operating current through the voltmeter and ammeter respectively, read the product water flow through the flow meter, and calculate the product water according to formula (2) Energy consumption.

9 Test report

The test report is shown in Table C.1 in Appendix C, and should include at least the following. a) Test date; b) Testers, reviewers; c) The specification, model, commissioning unit and production unit of the sample; d) The inlet water quality index of the membrane stack; e) Test results.

Appendix A

(Normative appendix) Influent water quality index of electrodeionization membrane stack Table A.1 shows the influent water quality index of the membrane stack.

Appendix B

(Informative appendix) Electrodeionization membrane stack test device

Appendix C

(Informative appendix) Electrodeionization membrane stack test report Table C.1 is an example of a membrane stack test report. ......

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