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Norm of water intake -- Part 43: Production of ion-adsorption rare earth ore separation
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GB/T 18916.43-2019
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Basic data Standard ID | GB/T 18916.43-2019 (GB/T18916.43-2019) | Description (Translated English) | Norm of water intake -- Part 43: Production of ion-adsorption rare earth ore separation | Sector / Industry | National Standard (Recommended) | Classification of Chinese Standard | P41 | Classification of International Standard | 13.060.25 | Word Count Estimation | 6,646 | Date of Issue | 2019-10-18 | Date of Implementation | 2020-02-01 | Issuing agency(ies) | State Administration for Market Regulation, China National Standardization Administration |
GB/T 18916.43-2019: Norm of water intake -- Part 43: Production of ion-adsorption rare earth ore separation ---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.
Norm of water intake--Part 43. Production of ion-adsorption rare earth ore separation
ICS 13.060.25
P41
National Standards of People's Republic of China
Water quota
Part 43. Ion-type rare earth ore smelting and separation production
Part 43. Productionionion-adsorptionrareearthoreseparation
Published on.2019-10-18
2020-02-01 implementation
State market supervision and administration
China National Standardization Administration issued
Foreword
GB/T 18916 "Water quota", the following parts have been or are planned to be released.
--- Part 1. Thermal power generation;
--- Part 2. Iron and steel joint ventures;
--- Part 3. Petroleum refining;
---Part 4. Textile finishing products;
---Part 5. Paper products;
--- Part 6. Beer manufacturing;
--- Part 7. Alcohol manufacturing;
---Part 8. Synthetic ammonia;
--- Part 9. MSG manufacturing;
--- Part 10. Pharmaceutical products;
--- Part 11. Coal preparation;
--- Part 12. Alumina production;
--- Part 13. Ethylene production;
---Part 14. Wool textile products;
---Part 15. Liquor manufacturing;
---Part 16. Electrolytic aluminum production;
---Part 17. Production of stacked bauxite;
---Part 18. Copper smelting production;
---Part 19. Lead smelting production;
---Part 20. Chemical fiber filament weaving products;
--- Part 21. Silk products;
--- Part 22. Starch sugar manufacturing;
---Part 23. Manufacture of citric acid;
---Part 24. Hemp textile products;
---Part 25. Viscose fiber products;
---Part 26. Soda ash;
---Part 27. Urea;
---Part 28. Industrial sulfuric acid;
---Part 29. caustic soda;
--- Part 30. Coking;
--- Part 31. Sintering/Pellet in the steel industry;
--- Part 32. Iron ore beneficiation;
--- Part 33. Coal indirect liquefaction;
--- Part 34. Direct liquefaction of coal;
--- Part 35. Coal to methanol;
---Part 36. Coal to ethylene glycol;
---Part 37. Wet-process phosphoric acid;
---Part 38. Polyvinyl chloride;
--- Part 39. Synthetic natural gas from coal;
--- Part 40. Shipbuilding;
--- Part 41. Yeast manufacturing;
--- Part 42. Yellow wine manufacturing;
--- Part 43. Ion-type rare earth ore smelting separation production.
This part is part 43 of GB/T 18916.
This part is drafted in accordance with the rules given in GB/T 1.1-2009.
This part is supported by the National Industrial Water Saving Standardization Technical Committee (SAC/TC442) and the National Rare Earth Standardization Technical Committee (SAC/TC229).
Return to the mouth.
This section drafted by. Zhangzhou Nonferrous Metallurgy Research Institute, Jiangxi Ion-type Rare Earth Engineering Technology Research Co., Ltd., Jixian Red Gold Rare Earth
Company, Dingnan Dahua New Material Resources Co., Ltd., Nonferrous Metals Technology and Economic Research Institute, Quannan County New Resources Rare Earth Co., Ltd., Jiangyinjia
Huaxin Materials Resources Co., Ltd., Guangdong Zhujiang Rare Earth Co., Ltd., Jidong Rare Earth Group Co., Ltd., China Nonferrous Guilin Mineral Geology
Research Institute Co., Ltd., Jiangxi University of Science and Technology, China Southern Rare Earth Group Co., Ltd., North China Rare Earth (Group) High-Tech Co., Ltd.
Division, China National Institute of Standardization, Water Resources Management Center of the Ministry of Water Resources.
The main drafters of this section. Zhang Xuanxu, Yang Xinhua, Chen Dongying, Zhou Jieying, Li Ying, Hu Mengting, Chen Shumei, Guo Xiaobin, Li Zhongyu, Liang Bin,
Zhong Sheng, Zhang Hujun, Xiao Rui, Huang Anlan, Liu Yuyun, Lei Jinyong, Yang Youming, Wu Yuchun, Song Guanxi, Cai Wei, Guo Wei, Zhu Houhua.
Water quota
Part 43. Ion-type rare earth ore smelting and separation production
1 Scope
This part of GB/T 18916 specifies the relevant terms and definitions and calculation methods for the effluent quota of ionic rare earth ore smelting and separation.
And the water quota.
This part is applicable to the management of the water intake of the existing, newly built and rebuilt and expanded ionic smelting and separation production.
This section does not include the management of the amount of water taken from the recovery of rare earth smelting and separation of NdFeB waste; does not include rare earth enrichment (including rare earth chlorination).
Management of effluent separation and production of water, rare earth carbonate, rare earth oxalate, rare earth hydroxide, rare earth oxide, etc.
2 Normative references
The following documents are indispensable for the application of this document. For dated references, only dated versions apply to this article.
Pieces. For undated references, the latest edition (including all amendments) applies to this document.
GB/T 12452 Enterprise Water Balance Test General
GB/T 15676 rare earth terminology
GB/T 18820 General rules for the preparation of water withdrawal quotas for industrial enterprises
GB/T 21534 Industrial Water Saving Terminology
GB 24789 Water unit water metering equipment management and general rules
3 Terms and definitions
The following terms and definitions as defined in GB/T 15676, GB/T 18820 and GB/T 21534 apply to this document.
3.1
Ion-type rare earth ore smelting separation production productionofion-adsorptionrareearthoreseparation
Using ionic rare earth ore as raw material, separation or purification by solvent extraction, crystal precipitation, etc. to produce a single rare earth compound or rare earth enrichment
The production process of rare earth chlorides, rare earth carbonates, rare earth oxalates, rare earth hydroxides, rare earth oxides, etc.
Compound (REO) meter.
4 calculation method
4.1 General provisions
4.1.1 Scope of water withdrawal
The water withdrawal range refers to the amount of water that the enterprise extracts from various conventional water resources, including from surface water (measured by water supply from the water purification plant), underground.
Water, urban water supply projects, and other water or water products (such as steam, hot water, geothermal water, etc.) purchased by the company.
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