Method for phosphogypsum pretreatment for the preparation of high-strength gypsum

A technology of high-strength gypsum and phosphogypsum, which is applied in the field of phosphorus chemical industry, can solve problems such as difficult to realize industrial promotion and application, increase of alkali consumption neutralizer, and increase of impurities in finished products, so as to promote promotion and application, low production cost and long production cycle short effect

Active Publication Date: 2019-10-08
湖北青垚环境有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This process uses chemically modified phosphogypsum, and the phosphogypsum obtained after calcination has stable performance and reliable quality, which can consume a large amount of phosphogypsum and reduce environmental pollution. However, this method requires a drying temperature of 360-450°C. Dry until the water content is below 2%, and the calcination temperature is 200-240°C. The temperature requirement is high and the products produced are mainly for building gypsum, so it is difficult to realize a large number of industrial promotion and application.
[0005] Patent CN102731001A provides a phosphogypsum composite pretreatment process. This invention sequentially performs sieving, water washing, neutralization, flotation and suction filtration operations on the phosphogypsum slag directly discharged from chemical enterprises. The circulating water in this treatment method comes from The wastewater produced by phosphate rock ball milling or phosphoric acid washing process in chemical fertilizer plants contains more soluble phosphorus and organic impurities, which makes the pretreatment of phosphogypsum cumbersome, increases the consumption of alkali neutralizers, and increases the impurities in the finished product after treatment. , the coagulation time is prolonged, the structure is loose, and the strength is reduced during the later use of the finished product, which does not achieve the purpose of pretreatment

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] Step 1: Put 300g of phosphogypsum and 300g of water into a container to prepare a slurry;

[0027] Step 2: Add 10g of sodium citrate and 9g of potassium citrate to the container, mix and stir evenly;

[0028] Step 3: Place the container containing the mixed slurry in step 2 in an ultrasonic cleaning tank with sufficient water, and wash with ultrasonic vibration for 10 minutes;

[0029] Step 4: Add 1.5g of slaked lime to the container in step 3 and stir evenly, then add 30g of ceramsite and 30g of zeolite, and finally place it in an ultrasonic cleaning tank with sufficient water, and wash it with ultrasonic vibration for 25 minutes;

[0030] Step 5: vacuum filter the mixed slurry after ultrasonication in step 4, and take the filter cake to obtain the cleaned phosphogypsum;

[0031] Step 6: Dry the phosphogypsum in step 5 in a vacuum oven at 65° C. for 24-48 hours to obtain the finished phosphogypsum.

[0032] Step 7: The phosphogypsum treated in step 6 is hydrothermall...

Embodiment 2

[0035] Step 1: Put 300g of phosphogypsum and 350g of water into a container to prepare a slurry;

[0036] Step 2: Add 18g of sodium citrate and 6g of potassium citrate to the container, mix and stir evenly;

[0037] Step 3: Place the container containing the mixed slurry in step 2 in an ultrasonic cleaning tank with sufficient water, and wash with ultrasonic vibration for 10 minutes;

[0038] Step 4: Add 1.0g of slaked lime and 0.5g of quicklime to the container in step 3, stir evenly, then add 50g of ceramsite and 35g of zeolite, and finally place it in an ultrasonic cleaning tank with sufficient water, and wash it with ultrasonic vibration. The time is 25 minutes;

[0039] Step 5: vacuum filter the mixed slurry after ultrasonication in step 4, and take the filter cake to obtain the cleaned phosphogypsum;

[0040] Step 6: Dry the phosphogypsum in step 4 in a vacuum oven at 55° C. for 24-48 hours to obtain the finished phosphogypsum.

[0041] Step 7: The phosphogypsum treat...

Embodiment 3

[0044] Step 1: Put 300g of phosphogypsum and 350g of water into a container to prepare a slurry;

[0045] Step 2: Add 15g of sodium citrate and 7g of potassium citrate to the container, mix and stir evenly;

[0046] Step 3: Place the container containing the mixed slurry in step 2 in an ultrasonic cleaning tank with sufficient water, and wash with ultrasonic vibration for 5 minutes;

[0047] Step 4: Add 1.0g of slaked lime and 0.2g of quicklime to the container in step 3, stir evenly, then add 45g of ceramsite and 50g of zeolite, and finally place it in an ultrasonic cleaning tank with sufficient water, and wash it with ultrasonic vibration. The time is 30 minutes;

[0048] Step 5: vacuum filter the mixed slurry after ultrasonication in step 4, and take the filter cake to obtain the cleaned phosphogypsum;

[0049] Step 6: Dry the phosphogypsum in step 5 in a vacuum oven at 55° C. for 24-48 hours to obtain the finished phosphogypsum.

[0050] Step 7: The phosphogypsum treate...

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Abstract

The invention relates to a pretreatment method for phosphogypsum used for preparation of high-strength gypsum. According to a technical scheme in the invention, the method comprises the following steps: adding water into phosphogypsum to prepare slurry, then adding a detergent assistant, carrying out uniform mixing under stirring and then carrying out primary ultrasonic concussion and washing so as to obtain primary ultrasonically-mixed liquid; adding a cleaning compound into the primary ultrasonically-mixed liquid, carrying out uniform mixing under stirring and then carrying out secondary ultrasonic concussion and washing so as to obtain secondary ultrasonically-mixed liquid; and subjecting the secondary ultrasonically-mixed liquid to vacuum pumping filtration and carrying out vacuum drying on a filter cake so as to obtain pretreated phosphogypsum.

Description

technical field [0001] The invention relates to the field of phosphorus chemical industry, in particular to a method for pretreatment of phosphogypsum. Background technique [0002] The raw materials for the production of high-strength gypsum are mainly natural gypsum and desulfurized gypsum. The preparation of high-strength gypsum from phosphogypsum is still in the experimental stage, and there are few reports on its industrialization. [0003] Phosphogypsum is a by-product of sulfuric acid decomposition of phosphate rock to produce phosphoric acid. The building materials industry is an important application field of phosphogypsum. Phosphogypsum can be widely used in the preparation of cementitious materials, gypsum blocks, and plates, especially in The preparation of high-strength gypsum has good application prospects and can effectively reduce costs. But phosphogypsum contains many harmful impurities such as phosphorus, fluorine, and organic matter, which are the most im...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B11/26C04B11/00
Inventor 苏英邱慧琼贺行洋王迎斌刘雨轩王庭苇张晨储劲松秦景燕苏骏
Owner 湖北青垚环境有限公司
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