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Separation reagent for emulsified oily wastewater, preparation method and separation method

A separation method and medicament technology, applied in the field of separation medicaments for emulsified oily wastewater, can solve the problems of large power consumption, environmental secondary pollution, and affecting extraction efficiency, so as to reduce environmental hazards, avoid secondary pollution, and achieve good separation effect Effect

Active Publication Date: 2020-05-29
SOUTHWEST PETROLEUM UNIV
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AI Technical Summary

Problems solved by technology

[0003] At present, the treatment of emulsified oily wastewater is mainly divided into the following categories. (1) Solvent extraction is a traditional oil-water separation method. Since most solvent extraction agents are organic solvents, the high volatility of organic solvents restricts the development of the extraction industry. at the same time, the existence of an interfacial film between the solvent and water greatly affects the extraction efficiency
(2) Flocculation treatment of oily sewage is easy to operate, but the use of flocculants will bring secondary pollution to the environment, such as toxic sludge produced by flocculants, polymer flocculants that are difficult to be degraded by the environment, etc.
(3) Electrocoagulation technology requires large power consumption, and electrode loss is also necessary, and toxic chlorine-containing organic substances and sludge will be produced during the flocculation process
It has high permeability and separation efficiency, and is easy to operate, but the treatment of different oily wastewater has a high selectivity to the membrane, and membrane fouling is one of the main factors affecting membrane efficiency and increasing costs
Most of the above separation of emulsified wastewater is unsustainable and will cause secondary pollution or material pollution and loss

Method used

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  • Separation reagent for emulsified oily wastewater, preparation method and separation method
  • Separation reagent for emulsified oily wastewater, preparation method and separation method
  • Separation reagent for emulsified oily wastewater, preparation method and separation method

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preparation example Construction

[0038] A method for preparing a separation agent for emulsifying oily wastewater, comprising the steps of:

[0039] S1. After mixing the switching solvent with water, a liquid with an oil-water interface is obtained;

[0040] S2. Introduce carbon dioxide into the liquid with the oil-water interface until the pH value of the liquid is stable to obtain a bicarbonate solution containing a switch solvent.

[0041] Further, the step S2 also includes: injecting carbon dioxide into the liquid at a rate of 300 mL / min at 25°C.

[0042] A separation method for emulsified oily wastewater, comprising the steps of:

[0043] A. After mixing the emulsified oily waste water and the separation agent, feed nitrogen to obtain a clear aqueous solution phase and a mixed oil phase containing oil and switching solvent;

[0044] B. After mixing the mixed oil phase and water, carbon dioxide is introduced until the volume of the oil phase is stable to obtain a switch solution, and after purification,...

Embodiment 1

[0048] A separation agent for emulsifying oily wastewater, the separation agent is a bicarbonate solution of a switching solvent; the bicarbonate solution of a switching solvent is made by reacting a switching solvent, carbon dioxide and water.

[0049]The preparation method of the separation agent in this embodiment includes steps: S1. After mixing the switching solvent and water, a liquid with an oil-water interface is obtained; S2. Introducing carbon dioxide into the liquid with an oil-water interface until the pH value of the liquid Stable to give a bicarbonate solution containing the switch solvent.

Embodiment 2

[0051] A separation agent for emulsifying oily wastewater, the separation agent is a bicarbonate solution of a switching solvent; the bicarbonate solution of the switching solvent is made by reacting a switching solvent, carbon dioxide and water; the water is used for The amount of water with which the switch solvent produces an oil-water interface.

[0052] The preparation method of the separation agent of this embodiment includes steps: S1. After mixing the switching solvent and water, a liquid with an oil-water interface is obtained; S2. Introducing carbon dioxide into the liquid with an oil-water interface until the pH of the liquid is The value is stable, and a bicarbonate solution containing the switch solvent is obtained.

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Abstract

The invention discloses a separation reagent for emulsified oily wastewater, a preparation method and a separation method. The separation reagent is a bicarbonate solution containing a switch solvent.The bicarbonate solution containing the switch solvent is prepared by reacting the switch solvent, carbon dioxide and water. The preparation method comprises the following steps: S1, mixing a switchsolvent with water to obtain liquid with an oil-water interface; and S2, introducing carbon dioxide into the liquid with the oil-water interface until the pH value of the liquid is stable to obtain abicarbonate solution containing a switch solvent. The separation method comprises the following steps: A, uniformly mixing emulsified oil-containing wastewater and the separation reagent, and introducing nitrogen to obtain a clear aqueous solution phase and a mixed oil phase; and B, mixing the mixed oil phase with water, introducing carbon dioxide until the volume of the oil phase is stable to obtain a switch solution, and purifying the switch solution to obtain the separation reagent. According to the invention, separation of oil and water in emulsified oily wastewater is realized, and the separation agent can be recycled to realize sustainable separation of emulsified oily wastewater.

Description

technical field [0001] The invention belongs to the technical field of emulsified oily wastewater separation, and in particular relates to a separation agent for emulsified oily wastewater, a preparation method and a separation method. Background technique [0002] Oily wastewater is one of the largest sources of pollution in industrial production and human life, and the treatment of oily wastewater has always been one of the greatest challenges facing mankind. According to the different states of oil in oily wastewater, it can be divided into suspended oil, dispersed oil and emulsified oil. Among them, emulsified oil is oil droplets with a particle size of less than 20 μm and has high stability. Therefore, the treatment of emulsified wastewater is facing greater challenges. [0003] At present, the treatment of emulsified oily wastewater is mainly divided into the following categories. (1) Solvent extraction is a traditional oil-water separation method. Since most solvent ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01D17/05
CPCB01D17/047
Inventor 鲁红升李小江戴姗姗王宝刚黄志宇
Owner SOUTHWEST PETROLEUM UNIV
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