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Charge gradient hydrogel film for hot-method seawater desalination, and preparation method thereof

A hydrogel film and hydrogel technology, applied in chemical instruments and methods, seawater treatment, water/sewage treatment, etc., can solve the problems of water production rate and anti-pollution stability at the same time

Active Publication Date: 2020-12-08
HUAZHONG UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0005] In view of the above defects or improvement needs of the prior art, the present invention provides a charge gradient hydrogel membrane for thermal seawater desalination, the purpose of which is to solve the problem that the water production rate and anti-pollution stability of the thermal seawater desalination system cannot be balanced at the same time technical issues

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  • Charge gradient hydrogel film for hot-method seawater desalination, and preparation method thereof
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  • Charge gradient hydrogel film for hot-method seawater desalination, and preparation method thereof

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preparation example Construction

[0019] Such as figure 1 As shown, the present invention also proposes a method for preparing a charge gradient hydrogel membrane for thermal seawater desalination, which can be used to prepare the above-mentioned charge gradient hydrogel membrane, comprising the following steps:

[0020] S1, preparing two hydrogel prepolymer membranes with different charge concentrations;

[0021] S2, after the two membranes are closely attached, they are placed in an oxygen-free environment for chemical crosslinking. At the same time, the charge diffuses from the high concentration end to the low concentration end to form a hydrogel film with a continuous gradient distribution of charge concentration.

[0022] Specifically, the charges can be all positive charges or all negative charges; one of the hydrogel prepolymer membranes can be uncharged and the other one can be charged, or both membranes can be charged but have different charge concentrations. The two hydrogel films are placed in an ...

Embodiment 1

[0036] S101, mix acrylamide and sodium 2-acrylamido-2-methyl-1-propanesulfonate at a molar ratio of 1:1 and 1:0.1, respectively, and dissolve them in a certain volume of water to prepare two monomers The monomer solution with a concentration of 3mol / L; then add the same proportion of ammonium persulfate as an initiator to the two monomer solutions, the initiator is a thermal initiator, and N, N-methylenebisacrylamide is used as an exchange Linking agent, nanoclay as thickener; Wherein, the molar ratio of monomer and initiator is 1:0.01; The molar ratio of monomer and crosslinking agent is 1:0.01; The molar ratio of monomer and thickener is 1 : 0.2; Finally fully stirred to obtain a uniformly dispersed hydrogel prepolymer solution;

[0037] S102. Pour the prepared two parts of hydrogel prepolymer solutions into two sealed glass molds with a thickness of 100 μm, and let them stand in a refrigerator at 7°C for 30 minutes. The nanoclay increases the viscosity of the monomer soluti...

Embodiment 2

[0042] S101, mix acrylamide and 3-acrylamidopropyl-trimethylammonium chloride at a molar ratio of 1:1 and 1:0.1, respectively, and dissolve them in a certain volume of water to prepare two monomers with a concentration of 3mol. / L monomer solution; then add the same proportion of potassium persulfate as an initiator to the two monomer solutions, this initiator is a thermal initiator, N, N-methylene bisacrylamide as a crosslinking agent, nano Clay is used as a thickener; wherein, the molar ratio of the monomer to the initiator is 1:0.01; the molar ratio of the monomer to the crosslinking agent is 1:0.01; the molar ratio of the monomer to the thickener is 1:0.2; finally Thoroughly stir to obtain a uniformly dispersed hydrogel prepolymer solution;

[0043] S102. Pour the prepared two parts of hydrogel prepolymer solutions into two sealed glass molds with a thickness of 20 μm respectively, and let them stand in a refrigerator at 7° C. for 30 minutes. The nanoclay increases the vis...

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Abstract

The invention discloses a charge gradient hydrogel film for hot-method seawater desalination, and a preparation method thereof, and belongs to the technical field of water treatment. On the cross section of the charge gradient hydrogel film, the charge concentration is in continuous gradient distribution. Compared with a traditional porous hydrophobic film and a traditional solar seawater desalination evaporator, due to the constraint effect and the salt elimination effect of a polymer network in the hydrogel on liquid water, the hydrogel film has the performance of resisting organic pollutionand inorganic salt scale pollution, and an osmotic pressure pump effect can be formed in the section direction, so that the hydrogel film has a good seawater desalination effect, a faster water delivery rate and a stronger salt elimination effect are provided, and higher water yield and stronger pollution resistance can be realized. Sewage with ultrahigh salt concentration can be stably treated for a long time, and even zero liquid discharge is realized.

Description

technical field [0001] The invention belongs to the technical field of water treatment, and more specifically relates to a charge gradient hydrogel membrane used for thermal seawater desalination and a preparation method thereof. Background technique [0002] With the rapid growth of the world's population, the intensification of human activities and the resulting climate change and environmental pollution, the fresh water resources that can be directly drunk on the earth are increasingly depleted. The water crisis has become one of the most serious challenges faced by human beings in the world. The development of seawater desalination technology will become one of the important ways to alleviate the shortage of fresh water resources. [0003] Industrial seawater desalination technology can be divided into two categories: reverse osmosis technology and thermal desalination technology according to thermodynamic principles. Reverse osmosis is currently the most widely used de...

Claims

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Application Information

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IPC IPC(8): B01D67/00C02F1/44C02F1/16C02F1/14C02F103/08
CPCB01D67/0006C02F1/14C02F1/16C02F1/447C02F2103/08Y02A20/124Y02A20/131Y02A20/142Y02A20/212
Inventor 周军谢文科段将将齐备
Owner HUAZHONG UNIV OF SCI & TECH