CN1736569A

CN1736569A - Method for preparing fixed carrier compound membrane for CO2 separation by utilizing interfacial polymerization

Info

Publication number: CN1736569A
Application number: CNA2005100144530A
Authority: CN
Inventors: 王志; 赵卷; 王纪孝; 伊春海; 王世昌
Original assignee: Tianjin University
Current assignee: Tianjin University
Priority date: 2005-07-11
Filing date: 2005-07-11
Publication date: 2006-02-22
Anticipated expiration: 2025-07-11
Also published as: CN1326599C

Abstract

The invention discloses a method for preparation of CO2 carrier- fixed complex film with interfacial polymerization, belonging to the technique for preparation of film. The method contains the following steps: using a sheet film of polysulfone or polyethersulfone or a hollow fibre film as the basilemma, treating the surface of basilemma with a sodium dodecyl sulfonate water solution; soaking the treated basilemma in a diethylenetriamine, triethylene tetraamine, tetraethylene pentamine or polyethylene polyamine water solution in room temperature, and then adding to a trimesoyl- chloride skellysolve B solution or isophthaloyl- chloride skellysolve B solution or trimesoyl- chloride and isophthaloyl- chloride skellysolve B solution to generate interfacial polymerization; purifying the complex film with ionic hydration and drying naturally or drying naturally after a definite thermal treatment. The prepared complex film has a separation factor of 40- 200 to the mixture of CO2/ CH4, and a penetration ratio of 1- 6* 10- 5cm3(STP)/ cm2.s.cmHg of CO2. The process is simple and it is easy to operate.

Description

Utilize interfacial polymerization to prepare separation of C O 2The method of fixed carrier composite membrane

Technical field

The present invention relates to a kind ofly utilize interfacial polymerization to prepare separation of C O ₂The method of fixed carrier composite membrane belongs to the technology of preparing of composite gas separation.

Background technology

The immobilization carrier composite gas separation is the novel gas separation membrane of a class, has high osmosis and selectivity simultaneously.Compared with other type of carrier film one liquid film and amberplex, fixed carrier composite membrane is difficult for running off because of carrier, and stability improves greatly.Separation of C O ₂The fixed carrier composite membrane of gas is more rare at home and abroad studying, and only a few studies person concentrates on to wait with dip coating or Plasma Polymerization and prepares fixed carrier composite membrane.Interfacial polymerization is a kind of method of simple, the practical ultra-thin composite membrane of preparation.At present, about research work mainly concentrate on interfacial polymerization prepare reverse osmosis composite membrane and Nano filtering composite membrane both at home and abroad, and realized industrialization.And still belong to the basic research stage with the research that interfacial polymerization prepares composite gas separation.The method of interfacial polymerization such as Y.T.Chern, skim gas separating layer in polycondensation on the polysulphone super-filter membrane, this separating layer does not contain carrier, so be not fixed carrier composite membrane.The composite membrane CO that makes ₂Permeation flux is 44.12Barrer, CO ₂/ CH ₄Separation factor 20.51.

At present, almost there is not the researcher to prepare separation of C O with interfacial polymerization ₂The fixed carrier composite membrane of gas.

Therefore, be very necessary at this area new masking technique of exploitation with the separating property of improving fixed carrier composite membrane.Relevant list of references is as follows:

1?Y.T.Chern，L.W.Chen，Preparation?of?composite?membranes?via?interfacialpolyfunctional?condensation?for?gas?separation?applications.Journal?of?AppliedPolymer?Science，44(1992)：1087-1093.

2?Y.T.Chern，L.W.Chen，Interfacial?polyfunctional?Condensation：curing?reaction.Journal?ofApplied?Polymer?Science，42(1991)：2535-2541.

Summary of the invention

The object of the present invention is to provide and a kind ofly utilize interfacial polymerization to prepare separation of C O ₂The method of fixed carrier composite membrane.This inventive method is simple, easy operating, and cost is low, and the composite membrane that makes has superthin structure, and filming performance is good, and has high osmosis and selectivity simultaneously.

The present invention realized by following technical proposals, a kind ofly utilizes interfacial polymerization to prepare separation of C O ₂The method of fixed carrier composite membrane.It is characterized in that comprising following process:

1. be basement membrane with polysulfones or polyether sulfone flat sheet membrane or hollow-fibre membrane, membrane surface handled with the dodecyl sodium sulfate dilute aqueous solution;

2. when indoor temperature is 15～30 ℃, it is 0.5～20% diethylenetriamine that basement membrane after handling is soaked in mass concentration, triethylene tetramine, in the aqueous solution of TEPA or polyethylene polyamine, and in the aqueous solution, add natrium carbonicum calcinatum, its mass concentration is 0.1%～3%, soak time 1～60min, and then move in the hexane solution of the hexane solution of hexane solution that mass concentration is 0.1～10% pyromellitic trimethylsilyl chloride or m-phthaloyl chloride or pyromellitic trimethylsilyl chloride and m-phthaloyl chloride and carry out interfacial polymerization, wherein, pyromellitic trimethylsilyl chloride and m-phthaloyl chloride are pressed mass ratio (90: 10)～(20: 80) preparation, polymerization time 1～20min;

3. the composite membrane that will obtain through step 2, after deionized water is cleaned, air dry under 15～30 ℃ of temperature again; Perhaps the composite membrane that will obtain through step 2 after deionized water is cleaned, is to carry out 1min～40min heat treatment, air dry then under 40 ℃～100 ℃ in temperature again.

The aqueous solution of above-mentioned polyamine is triethylene tetramine, the TEPA or the polyethylene polyamine aqueous solution; Its mass concentration is 1～10%.

The hexane solution of above-mentioned polynary acyl chlorides is the hexane solution of pyromellitic trimethylsilyl chloride or the hexane solution of pyromellitic trimethylsilyl chloride and m-phthaloyl chloride, its solution quality concentration is 0.5～5%, the mass ratio of pyromellitic trimethylsilyl chloride and m-phthaloyl chloride (80: 20)～(40: 60) preparation.

50 ℃～80 ℃ of above-mentioned film heat treatment temperatures; Heat treatment time 2min～20min.

The inventive method is simple, easy operating, and cost is low, and the composite membrane that makes has superthin structure, and filming performance is good, and the composite membrane of preparation is to mist CO ₂/ CH ₄Separation factor 40～200, CO ₂Infiltration rate 1～6 * 10 ^-5Cm ³(STP)/cm ².s.cmHg.

Description of drawings

Fig. 1 is for being the prepared separation of C O of basement membrane with the polyether sulfone flat sheet membrane ₂The surface texture electromicroscopic photograph of fixed carrier composite membrane.

Fig. 2 is for being the prepared separation of C O of basement membrane with the polyether sulfone flat sheet membrane ₂The electromicroscopic photograph of the section structure of fixed carrier composite membrane.

The specific embodiment

Example 1

Poly (ether-sulfone) ultrafiltration membrane is handled with surfactant dodecyl sodium sulfate dilute aqueous solution (mass concentration 0.5%); Power taking deionized water 1400ml, triethylene tetramine 45ml is made into mass concentration and is 2.8% the aqueous solution, adds natrium carbonicum calcinatum 7.283g in addition in the aqueous solution; Get n-hexane 1300ml, pyromellitic trimethylsilyl chloride 12.466g is made into mass concentration and is 1.4% hexane solution.At first at room temperature under (25 ℃) poly (ether-sulfone) ultrafiltration membrane of handling well was immersed the aqueous solution 10 minutes, take out, immerse hexane solution, 3 minutes interfacial polymerization time, take out, electricity consumption washed with de-ionized water composite membrane was heat-treated 3 minutes this composite membrane under 70 ℃ of temperature then, dry getting final product under the last room temperature.Use mist 90vol%CO ₂/ 10vol%CH ₄Composite membrane is tested.When feed gas pressure is 83.5cmHg-548.6cmHg, CO ₂/ CH ₄Separation factor 130-45, CO ₂Infiltration rate remain on 1.01698 * 10 ^-5-1.74537 * 10 ^-5Cm ³(STP)/cm ².s.cmHg, the electromicroscopic photograph of this composite membrane is seen accompanying drawing of the present invention.

Example 2

Polysulphone super-filter membrane is handled with surfactant dodecyl sodium sulfate dilute aqueous solution (mass concentration 0.5%); Power taking deionized water 1000ml, diethylenetriamine 87ml is made into mass concentration and is 8% the aqueous solution, adds natrium carbonicum calcinatum 9.266g in addition in the aqueous solution; Get n-hexane 1000ml, pyromellitic trimethylsilyl chloride 19.678g, m-phthaloyl chloride 20.022g, both are about 50: 50 by mass ratio, are made into mass concentration and are 6% hexane solution.At first at room temperature (20 ℃) immersed the aqueous solution 20 minutes with the polysulphone super-filter membrane of handling well, took out, and immersed hexane solution, 5 minutes interfacial polymerization time, took out electricity consumption washed with de-ionized water composite membrane, air dry under temperature 15 room temperatures then.Use mist 90vol%CO ₂/ 10vol%CH ₄Composite membrane is tested.When feed gas pressure is 83.5cmHg-548.6cmHg, CO ₂/ CH ₄Separation factor 90-40, CO ₂Infiltration rate remain on 2.09723 * 10 ^-5-3.56112 * 10 ^-5Cm ³(STP)/cm ².s.cmHg.

Example 3

Polysulphone super-filter membrane is handled with surfactant dodecyl sodium sulfate dilute aqueous solution (0.5wt%); Power taking deionized water 1000ml, TEPA 130ml is made into mass concentration and is 12% the aqueous solution, adds natrium carbonicum calcinatum 5.421g in addition in the aqueous solution; Get n-hexane 1000ml, pyromellitic trimethylsilyl chloride 26.452g is made into mass concentration and is 4% hexane solution.Under room temperature (25 ℃), the polysulphone super-filter membrane of handling well is immersed the aqueous solution 5 minutes, take out, immerse hexane solution, 2 minutes interfacial polymerization time, take out electricity consumption washed with de-ionized water composite membrane, under 45 ℃ of temperature, this composite membrane was heat-treated 15 minutes then, dry under the last room temperature.Use mist 90vol%CO ₂/ 10vol%CH ₄Composite membrane is tested.When feed gas pressure is 83.5cmHg-1940cmHg, CO ₂/ CH ₄Separation factor 103-72, CO ₂Infiltration rate remain on 4.88821 * 10 ^-5-4.22894 * 10 ^-5Cm ³(STP)/cm ².s.cmHg.

Example 4

Polysulphone super-filter membrane is handled with surfactant dodecyl sodium sulfate dilute aqueous solution (0.5wt%); Power taking deionized water 1400ml, polyethylene polyamine 15ml is made into mass concentration and is 1% the aqueous solution, adds natrium carbonicum calcinatum 2.987g in addition in the aqueous solution; Get n-hexane 2000ml, pyromellitic trimethylsilyl chloride 2.786g, m-phthaloyl chloride 1.452g, both are about 2: 1 by mass ratio, are made into mass concentration and are 0.3% hexane solution.At first under room temperature (23 ℃), the polysulphone super-filter membrane of handling well is immersed the aqueous solution 50 minutes, take out, immerse hexane solution, 12 minutes interfacial polymerization time, take out electricity consumption washed with de-ionized water composite membrane, under 80 ℃ of temperature, handled composite membrane 20 minutes then, dry under the last room temperature.Use mist 90vol%CO ₂/ 10vol%CH ₄Composite membrane is tested.When feed gas pressure is 83.5cmHg-1940cmHg, CO ₂/ CH ₄Separation factor 180-85, CO ₂Infiltration rate remain on 3.01216 * 10 ^-5-4.21113 * 10 ^-5Cm ³(STP)/cm ².s.cmHg.

Claims

1, a kind ofly utilize interfacial polymerization to prepare separation of C O ₂The method of fixed carrier composite membrane.It is characterized in that comprising following process:

(1) is basement membrane with polysulfones or polyether sulfone flat sheet membrane or hollow-fibre membrane, membrane surface handled with the dodecyl sodium sulfate dilute aqueous solution;

(2) when indoor temperature is 15～30 ℃, it is 0.5～20% diethylenetriamine that basement membrane after handling is soaked in mass concentration, triethylene tetramine, in the aqueous solution of TEPA or polyethylene polyamine, and in the aqueous solution, add natrium carbonicum calcinatum, its mass concentration is 0.1%～3%, soak time 1～60min, and then move in the hexane solution of the hexane solution of hexane solution that mass concentration is 0.1～10% pyromellitic trimethylsilyl chloride or m-phthaloyl chloride or pyromellitic trimethylsilyl chloride and m-phthaloyl chloride and carry out interfacial polymerization, wherein, pyromellitic trimethylsilyl chloride and m-phthaloyl chloride are pressed mass ratio (90: 10)～(20: 80) preparation, polymerization time 1～20min;

(3) composite membrane that will obtain through step (2), after deionized water is cleaned, air dry under 15～30 ℃ of temperature again; Perhaps the composite membrane that will obtain through step (2) after deionized water is cleaned, is to carry out 1min～40min heat treatment, air dry then under 40 ℃～100 ℃ in temperature again.

2, utilize interfacial polymerization to prepare separation of C O by claim 1 is described ₂The method of fixed carrier composite membrane, the aqueous solution that it is characterized in that polyamine is triethylene tetramine, the TEPA or the polyethylene polyamine aqueous solution; Its mass concentration is 1～10%.

3, utilize interfacial polymerization to prepare separation of C O by claim 1 is described ₂The method of fixed carrier composite membrane, the hexane solution that it is characterized in that polynary acyl chlorides is the hexane solution of pyromellitic trimethylsilyl chloride or the hexane solution of pyromellitic trimethylsilyl chloride and m-phthaloyl chloride, its solution quality concentration is 0.5～5%, the mass ratio of pyromellitic trimethylsilyl chloride and m-phthaloyl chloride (80: 20)～(40: 60) preparation.

4, utilize interfacial polymerization to prepare separation of C O by claim 1 is described ₂The method of fixed carrier composite membrane is characterized in that 50 ℃～80 ℃ of film heat treatment temperatures; Heat treatment time 2min～20min.