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Method for preparing lignin-based dispersant by capacitive deionization method for purifying pulping black liquor

A technology of capacitive deionization and pulping black liquor, applied in dyeing, textile and papermaking, etc., can solve the problems of poor water solubility and chemical reaction performance, insufficient high-activity reaction sites, lack of strong hydrophilic functional groups, etc. Improve the value of use, the availability of raw materials for production, and the effects of a wide range of uses

Active Publication Date: 2018-11-23
FUZHOU UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Lignin itself lacks strong hydrophilic functional groups and insufficient highly active reaction sites, so its water solubility and chemical reactivity are poor, which limits its application range and value

Method used

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  • Method for preparing lignin-based dispersant by capacitive deionization method for purifying pulping black liquor
  • Method for preparing lignin-based dispersant by capacitive deionization method for purifying pulping black liquor

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0075] 1. each component added in another reactor of present embodiment step (2) is as follows (unit: kilogram):

[0076] Pulping black liquor (masson pine and bamboo pulping black liquor mixture, mass ratio 1:1, solid content 40%): 625.0 kg;

[0077] Oxidizing agent (hydrogen peroxide): 10.0 kg;

[0078] Aldehyde compounds (formaldehyde): 25.0 kg;

[0079] Sulfonating agent (sodium bisulfite): 50.0 kg;

[0080] Sodium hypophosphite: 19.0 kg;

[0081] Quaternizing reagent (3-chloro-2-hydroxypropyltrimethylammonium chloride): 15.0 kg;

[0082] Water: 256.0 kg.

[0083] 2. Preparation method steps and parameters:

[0084] (1) Add the pulping black liquor to the reactor, and use the electrode to remove the charged impurities in the pulping black liquor with a DC voltage of 2V. Electrodes are cleaned once and then reused to continue processing the pulping black liquor raw materials to remove charged impurities in the pulping black liquor;

[0085] (2) Put 625.0 kilograms of...

Embodiment 2

[0087] 1. each component added in another reactor of present embodiment step (2) is as follows (unit: kilogram):

[0088] Pulping black liquor (masson pine and bagasse pulping black liquor mixture, mass ratio 1:1, solid content 45%): 550 kg;

[0089] Oxidizing agent (the mixture of hydrogen peroxide and peracetic acid, the mass ratio is 1:1): 15.0 kg;

[0090] Aldehyde compounds (a mixture of formaldehyde and glutaraldehyde, the mass ratio is 3:1): 30.0 kg;

[0091] Sulfonating agent (a mixture of sodium bisulfite and sodium sulfite, the mass ratio is 2:1): 53.0 kg;

[0092] Sodium hypophosphite: 20.0 kg;

[0093] Quaternizing reagent (3-chloro-2-hydroxypropyltrimethylammonium chloride): 15.0 kg;

[0094] Water: 317.0 kg.

[0095] 2. Preparation method steps and parameters:

[0096] (1) Add the pulping black liquor to the reactor, and use the electrode to remove the charged impurities in the pulping black liquor with a DC voltage of 2V. Electrodes are cleaned once and th...

Embodiment 3

[0099] 1. each component added in another reactor of present embodiment step (2) is as follows (unit: kilogram):

[0100] Pulping black liquor (masson pine and birch pulp black liquor mixture, mass ratio is 2:1, solid content 50%): 500 kg;

[0101] Oxidant (a mixture of hydrogen peroxide and potassium ferrate, the mass ratio is 1:1): 40.0 kg;

[0102] Aldehyde compounds (a mixture of formaldehyde and glutaraldehyde, the mass ratio is 2:1): 55.0 kg;

[0103] Sulfonating agent (a mixture of sodium bisulfite and potassium sulfite, the mass ratio is 1:1): 50.0 kg;

[0104] Sodium hypophosphite: 13.0 kg;

[0105] Quaternizing reagent (a mixture of 3-chloro-2-hydroxypropyltrimethylammonium chloride and tetrabutylammonium bisulfate, the mass ratio is 3:2): 10.0 kg;

[0106] Water: 332.0 kg.

[0107] 2. Preparation method steps and parameters:

[0108] (1) Put the pulping black liquor into the reactor, and use the electrode to remove the charged impurities in the pulping black li...

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Abstract

The invention discloses a method for preparing a lignin-based dispersing agent by purifying pulping black liquor through a capacitive deionization method. The preparation method comprises the following steps of (1), adding the pulping black liquor into a reactor, removing a charged impurity in the pulping black liquor with a direct-current voltage of 1.0V to 3.0V by using an electrode, making the pulping black liquor flow through the electrode at a flow speed of 0.1m / min to 0.5m / min, interrupting a power supply once per 5min to 30min to clean the electrode, then recycling the electrode again, and treating a raw material of the pulping black liquor; (2), adding the pulping black liquor from which the charged impurity is removed into another reactor, raising temperature to 60 to 80 DEG C, adding an oxidant into the another reactor, making an obtained first mixture react for 0.5h to 2.0h, afterwards, adding an aldehyde type compound into the another reactor, making an obtained second mixture react for 0.5h to 3.0h at 60 to 100 DEG C, then adding a sulfonating agent into the another reactor, making an obtained third mixture react for 2.0h to 5.0h at 90 to 130 DEG C, then regulating the PH (Potential of Hydrogen) of a reaction system to be 11 to 13, adding sodium hypophosphite into the another reactor, making an obtained fourth mixture react for 1.0h to 4.0h at 80 to 120 DEG C, then adding a quaternizing agent into the another reactor, making an obtained fifth mixture react for 1.0h to 4.0h, then carrying out cooling and discharging to obtain a black-brown liquid product, and drying the black-brown liquid product, so that powder of the lignin-based dispersing agent is obtained.

Description

technical field [0001] The invention belongs to the fields of fine chemicals, environment-friendly materials and surfactants, and in particular relates to a method for purifying pulping black liquor by capacitive deionization and preparing a lignin-based dispersant. Background technique [0002] Lignin, a natural resource that exists in abundance for sustainable use, is the only non-fossil resource that can provide renewable aryl compounds in nature. At present, the pulping and papermaking industry in my country is dominated by alkaline and sulfite pulping waste liquor. Some large pulping and papermaking enterprises use alkali recovery technology to burn pulping black liquor and recover alkali liquor to eliminate pulping black liquor. pollution, but this method will cause a huge waste of lignin resources, so lignin has not been well utilized, and only 6% of lignin in my country has been utilized [1] Most of them are abandoned in nature as waste, which not only wastes resourc...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C08H7/00D06P1/46C04B24/18C04B35/632
CPCC04B24/18C04B35/632C04B2103/302C08H6/00D06P1/46
Inventor 刘明华林立刘以凡黄映芳
Owner FUZHOU UNIV
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