Method for separating sodium chloride and sodium sulfate in high-salinity wastewater in coastal industrial zone
A high-salt wastewater, sodium sulfate technology, applied in chemical instruments and methods, alkali metal chlorides, general water supply conservation, etc. High recovery rate and high purity of inorganic salts, etc., to achieve the effects of stable operation, improved recovery rate and reasonable process
Inactive Publication Date: 2019-09-10
TIANJIN ACADEMY OF ENVIRONMENTAL SCI
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Problems solved by technology
At present, many enterprises are actively equipped with evaporation and crystallization devices to treat this kind of high-salt wastewater, but basically they obtain miscellaneous salts directly by evaporation and crystallization. as solid waste, even hazardous waste, requiring further disposal
This will not only easily cause secondary pollution of the environment, but also cause high hazardous waste disposal costs to enterprises.
[0003] Based on this, Patent No. ZL201110461060.X announced a combined process based on nanofiltrat
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Embodiment example 1
[0053] Take the salt concentration of high-salt wastewater in Tianjin Binhai Industrial Zone as an example, which is about 100g / L:
[0054] The first step: set up two reaction pools in the high-salt wastewater discharge area of the coastal industrial belt, respectively the first reaction pool 1 and the second reaction pool 2, and lay an activated carbon particle layer on the bottom of the first reaction pool 1 according to the above operation, The bottom and middle of the second reaction tank 2 are paved with double layers of activated carbon particles. Through activated carbon pretreatment, part of the organic matter and oil in the wastewater are removed. After testing the suspension in the upper layer of the second reaction tank 2, the TOC removal rate can reach 83.5 %, the removal rate of total oil can reach 93%, and the chroma is less than 50;
[0055] Step 2: Enter the pretreated waste water in the second reaction pool 2 into the spiral microfiltration tube 6 to remove ...
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The invention discloses a method for separating sodium chloride and sodium sulfate in high-salinity wastewater in a coastal industrial zone. In the method, divalent salt and a part of organic mattersare separated from monovalent salt by utilizing characteristics of a nanofiltration membrane; thermal salt-sodium sulfate separation is performed to obtain sodium sulfate solid having high purity; a vibrating membrane is adopted as the nanofiltration membrane which has an advantage that the vibrating membrane can treat wastewater having extremely high salt concentrations; then a reverse osmosis system is adopted to effectively remove the monovalent salt, and sodium chloride solid having good purity is obtained after evaporative crystallization; nanofiltration is used for pretreatment of reverse osmosis, thus reducing the salinity of seawater entering a reverse osmosis membrane module, and creating conditions for improving the seawater desalination recovery rate. The method is reasonable inprocess, capable of recovering resources, economical, efficient, and stable to operate, can make up shortcomings of the existing high-salinity wastewater inorganic salt separating technology, and achieves the objective of 'zero emission of solid and liquid' for high-salinity concentrate treatment.
Description
technical field [0001] The invention relates to the technical field of inorganic salt separation in waste water, in particular to a method for separation of sodium chloride and sodium sulfate in high-salt waste water in coastal industrial belts. Background technique [0002] Nowadays, environmental issues are highly valued by human beings, and the effective utilization and treatment of high-salt wastewater has become the focus of more and more corporate projects. Some enterprises in the coastal industrial belt will produce a large amount of high-salt wastewater containing sodium chloride and sodium sulfate. At present, many enterprises are actively equipped with evaporation and crystallization devices to treat this kind of high-salt wastewater, but basically they obtain miscellaneous salts by direct evaporation and crystallization. As solid waste, even hazardous waste, further disposal is required. This will not only easily cause secondary pollution of the environment, but...
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Patent Timeline
Login to view more IPC IPC(8): C02F9/10C01D5/16C01D3/04C01D3/14
CPCC02F9/00C01D5/16C01D3/04C01D3/14C02F1/281C02F1/283C02F1/444C02F1/442C02F1/441C02F1/04Y02A20/131
Inventor 刘琼琼刘丹李慧张彦徐威杰陈晨
Owner TIANJIN ACADEMY OF ENVIRONMENTAL SCI
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