Preparation method and phosphorus removal method of zirconium oxide-loading phosphorus removal biological composite material

A composite material and zirconia-loaded technology, which is applied in chemical instruments and methods, other chemical processes, adsorption water/sewage treatment, etc., can solve the problems of poor adsorption utilization efficiency, lack of nano-size effect, and low working adsorption capacity. Achieve the effect of improving work efficiency and application space, realizing purification and safety control, and easy control of production process

Inactive Publication Date: 2014-04-09
YANSHAN UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

For activated carbon and ultra-high cross-linked resin carrier materials, the pore structure is mainly micropores. The inorganic adsorbent carried by such porous materials is affected by the nanopore template effect, and the particles are small and uniformly dispersed, with potential nano Due to the small size effect, although it has a large adsorption capacity for phosphate ions in water, due to the fine and microporous structure of the carrier, the mass transfer rate of the adsorbent is not good, so it is used in high-speed (20-100BV / h) fluid adsorption of drinking water The system shows disadvantages such as low working adsorption capacity and poor adsorption utilization efficiency.
For carrier materials such as zeolite and macroporous resins, the pores are wide, and the composite material has excellent adsorption and mass transfer performance; however, its macroporous structure often leads to particle growth and local agglomeration when loaded with inorganic adsorbents, so that the nanometer size effect is missing. low adsorption capacity

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0021] 3g zirconium oxychloride (ZrOCI 2 ·8H 2 O) Dissolve in 100ml of absolute ethanol, ultrasonicate for 0.5h to dissolve, the ultrasonic frequency is 60HZ, then place on a vibrating reactor to vibrate for 0.5h, the rotation speed is 170r / min. Add 4 g of Artemia egg shells to the above-mentioned absolute ethanol solution containing zirconium oxychloride, and ultrasonicate at room temperature for 4 hours at a frequency of 60 Hz. Afterwards, magnetically stir for 4 hours, so that the zirconium oxychloride gradually diffuses to the inner surface of the eggshell pores, and all the eggshells sink to the bottom of the container. Then place in a 50°C water bath to evaporate the ethanol to dryness, and take out the eggshells. Add the eggshells loaded with zirconium oxychloride to 1500ml of NaOH solution with a mass fraction of 1%, and mechanically stir for 2 hours at room temperature to carry out in-situ precipitation reaction, and generate zirconium hydroxide in the pores of Arte...

Embodiment 2

[0024] 8g zirconium oxychloride (ZrOCI 2 ·8H 2 O) Dissolve in 100ml of absolute ethanol, ultrasonicate for 0.5h to dissolve, the ultrasonic frequency is 80HZ, and then placed on a vibrating reactor for 0.7h, the rotation speed is 170r / min. Add 4 g of Artemia egg shells to the above-mentioned absolute ethanol containing zirconium oxychloride, and ultrasonicate at room temperature for 5 hours at a frequency of 80 Hz. Afterwards, magnetically stir for 5 hours, so that the zirconium oxychloride gradually diffuses to the inner surface of the eggshell pores, and all the eggshells sink to the bottom of the container. Then place in a 60°C water bath to evaporate the ethanol to dryness, and take out the egg shells. Add the eggshells loaded with zirconium oxychloride to 1500ml of NaOH solution with a mass fraction of 3%, mechanically stir for 5 hours at room temperature, carry out in-situ precipitation reaction, generate zirconium hydroxide in the pores of Artemia eggshells, and then ...

Embodiment 3

[0027] 12g zirconium oxychloride (ZrOCI2 ·8H 2 O) Dissolve in 100ml of absolute ethanol, ultrasonicate for 0.5h to dissolve, the ultrasonic frequency is 90HZ, and then placed on a vibrating reactor to vibrate for 1h, the rotation speed is 170r / min. Add 4 g of Artemia egg shells to the above-mentioned absolute ethanol containing zirconium oxychloride, and ultrasonicate at room temperature for 6 hours at a frequency of 100 Hz. Afterwards, magnetic stirring was performed for 6 hours, so that the zirconium oxychloride gradually diffused to the inner surface of the eggshell pores, and all the eggshells sank to the bottom of the container. Then place in a 70°C water bath to evaporate the ethanol to dryness, and take out the egg shells. Add the eggshells loaded with zirconium oxychloride to 1500ml of NaOH solution with a mass fraction of 4.5%, mechanically stir for 5 hours at room temperature, carry out in-situ precipitation reaction, generate zirconium hydroxide in the pores of Art...

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Abstract

The invention relates to a preparation method and a phosphorus removal method of a zirconium oxide-loading phosphorus removal biological composite material. The preparation method comprises: dissolving zirconium oxychloride in dehydrated alcohol, adding brine shrimp egg shell, carrying out ultrasonic and magnetic stirring at a room temperature to make the zirconium oxychloride gradually diffuse to the inner surface of egg shell pore channels, placing into a water bath pot to evaporate the ethanol, taking the egg shell out, adding the zirconium oxychloride-loading egg shell to a NaOH solution, carrying out mechanical stirring at a room temperature, carrying out in situ precipitation to produce zirconium hydroxide in the egg shell pore channels, filtering, washing the shell egg complex a plurality of times with distilled water until achieving the neutral state, and drying in a drying oven to prepare the zirconium oxide-loading brine shrimp egg shell biological composite material. The phosphorus removal method comprises that: phosphate-containing sewage passes through a cylindrical fixed bed absorption device filled with the zirconium oxide-loading brine shrimp egg shell biological composite material in a forward flow manner so as to efficiently purify the phosphate-containing sewage; the composite material after absorption is subjected to desorption by using a NaOH and NaCl mixing solution, and the desorbed composite material is subjected to water washing by using deionized water to achieve the neutral state so as to be recycled.

Description

technical field [0001] The invention relates to a method for preparing a biocomposite material and removing phosphorus. Background technique [0002] At present, the main methods of phosphorus removal are: chemical precipitation method, biological method, adsorption and ion exchange method, etc. Phosphorus removal by chemical precipitation requires additional dosing equipment, and it is easy to cause secondary pollution; algae has a good phosphorus removal effect, but the cultivation period of algae is long, although the loss of water flow is large, the cost is high, and algae is also an indirect factor leading to eutrophication of water body , the removal and control of algae is also a major problem in the field of environmental science at present, and many eutrophic algae can secrete toxins, which will be enriched along the food chain, affecting the reproduction and economic value of aquatic animals; Phosphorus concentration has a wide range of adaptability, but the selec...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J20/24B01J20/30C02F1/28
Inventor 王素凤张庆瑞满文苍
Owner YANSHAN UNIV
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