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Treatment system and method for recycling and zero emission of binary high-salt complex-system nickel hydrometallurgy wastewater

A hydrometallurgy and treatment system technology, which is applied in the field of advanced treatment and zero discharge of industrial wastewater in complex systems, can solve problems such as the inability to achieve the goal of comprehensive recovery of metal nickel and sodium salt resources with zero discharge, and achieve excellent separation selectivity , outstanding effect and convenient operation

Active Publication Date: 2019-07-16
HOHAI UNIV
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Problems solved by technology

[0006] According to the above reports, the current separation and recycling of salt in high-salt wastewater is mainly aimed at salt with a single component salt or sodium chloride and sodium sulfate as the main components, while for binary systems containing sulfate and carbonate with high The recovery of salt from salty nickel-containing wastewater has not been reported yet
Simultaneously, this waste water involved in the present invention also contains heavy metals such as nickel and a small amount of macromolecular organic matter (extractant and solvent oil), especially the treatment of a small amount of macromolecular organic matter (extractant and solvent oil) that is more difficult to oxidize in the waste water At present, it is also a technical problem in the industry. Therefore, some sulfate-carbonate binary system high-salt nickel-containing wastewater treatment processes currently used have certain shortcomings, and cannot well realize the comprehensive synthesis of metal nickel and sodium salt resources. Recycling and cost-effective zero discharge targets

Method used

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  • Treatment system and method for recycling and zero emission of binary high-salt complex-system nickel hydrometallurgy wastewater
  • Treatment system and method for recycling and zero emission of binary high-salt complex-system nickel hydrometallurgy wastewater
  • Treatment system and method for recycling and zero emission of binary high-salt complex-system nickel hydrometallurgy wastewater

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Embodiment

[0042] Such as figure 2 As shown, the average daily wastewater discharge of a company's nickel hydrometallurgy system is 1600m 3 , the typical chemical composition is as follows (mg / L):

[0043]

[0044] Note: Na 2 CO 3 * is the partially incompletely dissolved carbonate particles in the wastewater; pH* is dimensionless

[0045] The concrete wastewater index of present embodiment: Ni49mg / L, organic matter 91mg / L, Na + 29.98g / L, SO 4 2- 55.13g / L, Na 2 CO 3 11.85g / L, pH10.2, and other indicators are the same as the above table.

[0046] 1) The wastewater is pumped into the electrocatalytic oxidation system. Several pairs of cathodes and anodes are set in the electrocatalysis oxidation system, the distance between electrodes is 20mm, and the anode material is β-PbO 2 Coated titanium anode, cathode metal titanium plate. The electrocatalytic oxidation treatment conditions are: the cell voltage is 4.6V, the current density is 10mA / cm 2 , The hydraulic retention time ...

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Abstract

The invention discloses a treatment system and method for recycling and zero emission of binary high-salt complex-system nickel hydrometallurgy wastewater. Firstly, organic matter is removed by electro-catalytic oxidation and activated carbon adsorption; then the pH value of the wastewater is adjusted, so that carbonates are completely converted into sulfates; precision filtration is carried out,and then heavy metals which are mainly nickel is recycled through ion exchange and enrichment, so that a sodium sulfate water solution subjected to organic matter removal and heavy metal removal is obtained; finally, anhydrous sodium sulfate in salt water is recycled through spray drying; and meanwhile, dried water vapor is condensed and recycled and is returned to a production system. The invention effectively solves the treatment problem of the complex-system nickel hydrometallurgy wastewater containing heavy metals, high-concentration composite salts and a small amount of macromolecular organic matter, recycling of heavy metal nickel and salt in the wastewater is realized at the same time, and meanwhile, the condensed water can be recycled to the production system, so that comprehensiveutilization and zero emission of resources in the wastewater are truly realized.

Description

technical field [0001] The invention belongs to the technical field of advanced treatment and zero discharge of complex system industrial wastewater, and specifically relates to the recycling of complex system nickel hydrometallurgical wastewater containing heavy metals, high-concentration mixed salts (carbonates and sulfates) and a small amount of macromolecular organic matter and zero discharge treatment systems and methods. Background technique [0002] Metal nickel and its alloys are widely used in various fields of the national economy such as aerospace, military industry, electronic electroplating, civil machinery manufacturing, petrochemical industry, etc., and are important strategic reserve metal resources in my country. Under the current dual pressure and background of resource depletion, energy conservation and emission reduction that the world is facing, the development of new energy has become the most important energy strategy of developed countries. my countr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C02F9/10C01D5/00C01D5/18C01D5/16C02F101/10C02F101/20C02F103/16
CPCC01D5/00C01D5/16C01D5/18C02F1/001C02F1/048C02F1/12C02F1/283C02F1/42C02F1/4672C02F1/66C02F1/725C02F9/00C02F2001/425C02F2101/10C02F2101/101C02F2101/20C02F2103/16
Inventor 李继洲宋垠先王琳琳顾贺韩孟雨
Owner HOHAI UNIV
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