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EJ/T 307-2014 PDF EnglishUS$150.00 · In stock · Download in 9 seconds
EJ/T 307-2014: Requirements on application of uranium hexafluoride cylinder Delivery: 9 seconds. True-PDF full-copy in English & invoice will be downloaded + auto-delivered via email. See step-by-step procedure Status: Valid
Excerpted PDFsFull copy of true-PDF will be delivered in 9 seconds upon purchase: EJ/T 307-2014Similar standardsEJ/T 307 GB/T 17680.1EJ/T 307-2014: Requirements on application of uranium hexafluoride cylinder---This is an excerpt. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.), auto-downloaded/delivered in 9 seconds, can be purchased online: https://www.ChineseStandard.net/PDF.aspx/EJT307-2014EJ ICS 27.120.30 F 79 Filing No.. 48390-2015 Nuclear Industry Standard of the People’s Republic of China Replacing EJ/T 307-1996 Requirements on application of uranium hexafluoride cylinder Issued on: NOVEMBER 17, 2014 Implemented on: FEBRUARY 1, 2015 Issued by. State Administration of Science, Technology and Industry for National Defense, PRC. Table of ContentsForeword ... 3 1 Scope ... 4 2 Normative references ... 4 3 Acceptance and assembly of new containers ... 5 4 Tests conducted to new containers ... 6 5 Passivation of new containers ... 8 6 Serial numbers, weighing, lead sealing, and filing of containers ... 8 7 Storage, transportation and handover of the vessels containing materials ... 10 8 Process operating rules ... 11 9 Container cleaning ... 13 10 Periodic test of containers ... 16 11 Repair and scraping of containers ... 16ForewordThis Standard replaces EJ/T 307-1996 Requirements on application of uranium hexafluoride cylinder. Compared with EJ/T 307-1996, this Standard has the main changes as follows. a) ADD the requirements that the stainless steel containers need to be conducted with cold-hot test when operating at -196°C; b) ADD the methods of pressure test and gas leakage test; c) ADD the requirements of paint identifications for serial-number 300L, 740L, 1,000L and 3m3 containers; d) ADD the item that the allowable loading amount of containers shall not be greater than 3.0kg when the loading abundance of 1L containers is less than 5%; e) CHANGE the pressure test cycle of 60L containers from 3a to 5a. CHANGE the pressure test cycle of 1L containers whose loading abundance is less than 5% from 1a to 5a; f) ADD the requirements of critical control during the hydrolysis; g) ADD the relevant requirements for scrapping containers; h) USE the contents referenced from EJ/T 190 to replace the contents of Item c in Article 6.1.3.3 of the previous Standard; i) ADD the operating provisions of liquid filling; j) DELETE Table 4 in the original Standard. This Standard was proposed by China National Nuclear Corporation (CNNC). This Standard shall be under the jurisdiction of the Institute for Standardization of Nuclear Industry. Drafting organization of this Standard. CNNC Lanzhou Uranium Enrichment Co., Ltd. Main drafters of this Standard. Zhou Junjie, Wu Tingfang, Xin Zhiyi, Li Jiangang, Zhang Minhua, Wei Xiangpeng, and Jing Mingxuan. This Standard was first released in 1987, and was first revised in 1996. Requirements on application of uranium hexafluoride cylinder1 ScopeThis Standard specifies the management and application methods of UF6 containers. This Standard applies to the application of 1L, 60L, 300L, 740L, 1,000L and 3m3 UF6 containers, and shall be considered as a reference for the application of other UF6 containers.2 Normative referencesThe provisions in the following documents become the provisions of this Standard through reference in this Standard. For dated references, the subsequent amendments (excluding corrections) or revisions do not apply to this Standard. However, parties who reach an agreement based on this Standard are encouraged to study if the latest versions of these documents are applicable. For undated references, the latest versions apply to this Standard. GB 150 Steel pressure containers GB/T 3864-1996 Industrial nitrogen GB 11806 Regulations for the safe transport of radioactive material GB 15146.3 Nuclear criticality safety for fissile materials outside reactors – Part 3. Requirements for nuclear criticality safety in the storage of fissile materials EJ/T 190-1994 Technical conditions for steel containers EJ/T 303 1L UF6 containers EJ/T 304 60L UF6 containers EJ/T 305 300L UF6 containers EJ/T 306 1,000L UF6 containers EJ/T 350 740L UF6 containers buckles. The engagement length of the threads between the bolts of embedded valve bodies and the valve bodies shall not be less than 1.5 times of the bolt diameter. The bolts and nuts shall have Φ2mm lead sealing holes. 3.2.9 The tin-plated valves shall be screwed in for 7-12 buckles, while the container plugs shall be screwed in for 5-8 buckles. The screwing torque shall be within the range of 280-560N•m. The valves and plugs shall have Φ2mm lead sealing holes.4 Tests conducted to new containers4.1 Cold-hot test 4.1.1 The stainless steel containers need to be conducted with cold-hot test when operating at -196°C. When each batch of containers includes more than 10pcs, SAMPLE the containers accounting for 10% to 20% of the batch quantity for cold-hot test. If one of the containers is unqualified, INCREASE the sampling quantity to 40% of the batch quantity. If the non-conformance products still exist, CONDUCT the cold-hot test to the entire batch of containers. When the batch quantity is equal to or less than 10pcs, CONDUCT the cold-hot test to each container. 4.1.2 The method of conducting the cold-hot test to the containers is as follows. a) During the test, EVACUATE the container until the pressure is lower than 133Pa. After 30min, CHECK whether the pressure meets the requirements of the vacuum test. b) PUT the container in the dedicated Dewar bottle. POUR in liquid nitrogen, so as to cool down the container. The liquid level of liquid nitrogen shall always submerge the welds of container neck. FREEZE the container for 1h. Naturally THAW to room temperature. HEAT the container to the maximum allowable temperature according to the provisions of design drawings. MAINTAIN heating for 1h. Naturally COOL down to room temperature. c) The vacuum test for containers shall meet the requirements of Article 4.4.1. 4.2 Pressure (hydraulic/air pressure) test 4.2.1 The requirements for pressure gages and the safety precautions of the pressure test are as follows. a) USE two pressure gages that are proven to be qualified along with the same measuring range for conducting the pressure test; b) The precision of pressure gages shall not be lower than Level 1.5. CONDUCT verification within half a year. The appropriate measuring range shall be 1.5 to 3 times of the test pressure. The dial diameter shall be greater than 100mm; c) The safety precautions of the pressure test shall be implemented according to TSG R0004-2009. 4.2.2 CONDUCT hydrostatic test or air pressure test according to the requirements of design drawings. 4.2.2.1 The method of hydrostatic test is as follows. a) The hydrostatic test of containers shall be conducted according to the Article 8.5.2 of EJ/T 190-1994. b) After the hydrostatic test, DRAIN the water in the container. USE dried and degreased compressed air for drying. DRY the container in the drying oven where the temperature is controlled at 100°C ± 5°C for 24h. 4.2.2.2 The air pressure test of containers shall be conducted according to the Article 8.5.3 of EJ/T 190-1994. If using nitrogen, the nitrogen shall meet the requirements of GB/T 3864-1996. 4.3 Gas leakage test 4.3.1 For 740L and 3m3 containers, after the assembly is qualified, CONDUCT gas leakage test according to the requirements of drawings. 4.3.2 The requirements and methods of the gas leakage test of containers shall be implemented according to the Article 8.5.4 of EJ/T 190-1994. 4.4 Vacuum test 4.4.1 CONDUCT vacuum test to the containers after the assembly. After the container assembly is qualified, EVACUATE the containers in time. The leakage rate shall meet the requirements of drawings or the provisions in Table 5 of EJ/T 190-1994. The time for the inner surfaces of containers to contact with the atmosphere shall not be longer than 24h. 4.4.2 After the vacuum containers are qualified, USE dry nitrogen to seal up the containers whose shelf life is more than 6 months for safekeeping. The sealing pressure shall be within the range of 0.05MPa to 0.1MPa (gage pressure). The quality of nitrogen shall conform to the indicators of first-grade products 6.3.3 For 740L and 3m3 containers, PUNCH lead sealing holes on the square valve rods and the valve covers of the JF 22 valves. CONDUCT lead sealing to the above valves. CONDUCT lead sealing when the valves with protective covers leave the factory. 6.3.4 CONDUCT lead sealing to the container plugs. 6.3.5 Specially ASSIGN someone to manage the lead sealing pliers. The labels of lead sealing heads shall be traceable. 6.4 Container filing 6.4.1 The container property organizations shall establish the container ledger, and shall place the manufacturing documents and materials on file. 6.4.2 The container property organizations shall keep the “container turnover records”, so as to circulate together with the containers. 6.4.3 In the process of container turnover, NOTE down the acceptance, pressure test, cleaning, assembly, passivation, loading abundance, weighing, and other conditions of the containers i... ......Source: Above contents are excerpted from the full-copy PDF -- translated/reviewed by: www.ChineseStandard.net / Wayne Zheng et al. |