CN1153519A - Process for producing aqueous gel, heavy-metal ion adsorbent, pigment adsorbent, microbe carrier, and carrier for enzyme immobilization - Google Patents

Abstract

A process for producing an aqueous gel easily without the necessity for complicated operations and large-scale equipment, which comprises bringing an aqueous solution of a polymer having repeating units comprising cationic groups represented by general formulae (1) and/or (2) into contact with an aqueous alkali solution to cause deposition of an aqueous gel, (wherein R<1> and R<2> represent each hydrogen or methyl; and X represents an anion). The obtained gel is formed into a heavy-metal ion adsorbent, pigment adsorbent, microbe carrier, and carrier for enzyme immobilization.

Description

The manufacture method of aqueous gel, adsorbent for heavy metal, pigment adsorbent, microbe carrier and carrier for enzyme immobilization

Technical field

The present invention relates to have the carrier that manufacture method, adsorbent for heavy metal, pigment adsorbent, microbe carrier and the immobilized enzyme of the aqueous gel of amidine structure are used.

Background technology

It is just many-sided widely-used at the flowing carrier of the carrier of the sorbent material of sorbent material, the organic sorbent material of anionic property, bacterial body, cell, medicine, immobilized enzyme, thermopnore formula ion exchange resin, biological treatment device, absorbent resin etc. always at interior aqueous gel to comprise the positively charged ion base that dissociates.The aqueous gel that now becomes known for above-mentioned purpose has: the cationic resin of using as resin, have polyethylene amine skeletons such as polyvinylamine or polyisobutylene amine (spy opens clear 61-44902 communique); As uses such as strongly basic anion exchange resin and resin, polyethylene amines such as polyvinylamine or polyisobutylene amine are arranged are cross-linked into globular and undissolved material (spy opens clear 61-51006 communique); The polyethylene amine cross-linking agent (spy opens the 61-51007 communique) that amino content is high; With methacrylic acid dialkyl amido ester and season amide be bridging property polymkeric substance such as polymer of monomers (spy opens flat 1-269493 communique) and vinyl pyridine; Alkaline polysaccharide-the chitosan that obtains after chitin in the crust that is present in crab and shrimp implement handled, the acidic aqueous solution of this chitosan is splashed into resulting solidified chitosan particles in the alkaline aqueous solution (spy opens clear 62-288601 communique) etc.

The manufacture method of these aqueous gels generally is in dispersion agent with an organic solvent, finishes in the presence of linking agent.The shortcoming of this method is that complicated operation also needs a lot of equipment in manufacturing processed.In addition, it is very difficult to want the natural product that obtains in large quantities as the chitosan steady in a long-term, and price is very high.

The object of the invention provide a kind of do not need complex operations and a lot of equipment, economical and make the method for aqueous gel easily, and the carrier that provides the adsorbent for heavy metal, pigment adsorbent, microbe carrier and the immobilized enzyme that constitute by this aqueous gel to use.Invention description

In view of the foregoing, the inventor has carried out research with great concentration, found that, by the aqueous solution with specific cationic macromolecular compound of amidine structure is contacted with alkaline aqueous solution, can make aqueous gel at an easy rate, thereby finish the present invention.

The present invention is the manufacture method of aqueous gel, it is characterized in that, the sub-solution that separates that will have repeating unit that the cationic group of general formula (1) and/or (2) expression forms contacts with alkaline aqueous solution and makes it separate out shaping. (R in the formula ¹, R ²Be hydrogen atom or methyl, X ^-Be negatively charged ion).

The 2nd invention of the present invention is the manufacture method of aqueous gel, it is characterized in that, the aqueous solution that will contain 1～50 weight % of repeating unit and the polymer substance that contain 10～60mol% cyano group that 10～80mol% is made up of the cation radical of above-mentioned general formula (1) and/or (2) expression contacts with alkaline aqueous solution, makes it separate out shaping.

The 3rd invention of the present invention is the manufacture method of aqueous gel, it is characterized in that, in aforesaid the 1st invention, in the polymer aqueous solution and/or alkaline aqueous solution also the coexistence have can with the linking agent of this high molecular intramolecular reactive with active hydrogen.

The 4th invention of the present invention is the manufacture method of aqueous gel, it is characterized in that, in aforesaid the 1st invention, the pH value of alkaline aqueous solution is more than 11.

The 5th invention of the present invention is the manufacture method of aqueous gel, it is characterized in that, in aforesaid the 1st invention, the pH of alkaline aqueous solution is more than 12.

The 6th invention of the present invention is the manufacture method of aqueous gel, it is characterized in that, in aforesaid the 3rd invention, further aqueous gel be impregnated in the acidic aqueous solution, with the swelling of control aqueous gel.

The 7th invention of the present invention is the manufacture method of aqueous gel, it is characterized in that, in aforesaid the 6th invention, acidic aqueous solution is selected from by at least a polyhydric acid aqueous solution in sulfuric acid, phosphoric acid, boric acid, the carbonic acid.

The 8th invention of the present invention is the manufacture method of aqueous gel, it is characterized in that, in aforesaid the 6th invention, acidic aqueous solution is selected from least a monobasic acid aqueous solution in hydrochloric acid, the acetic acid.

The 9th invention of the present invention is the sorbent material of heavy metal ion, it is characterized in that, it is to be made of the aqueous gel that any one invention in the above-mentioned the 1st to the 8th invention makes.

The 10th invention of the present invention is pigment adsorbent, it is characterized in that, it is to be made of the aqueous gel that any one invention in the above-mentioned the 1st to the 8th invention makes.

The 11st invention of the present invention is microbe carrier, and it is to be made of the aqueous gel that any one invention in the above-mentioned the 1st to the 8th invention makes.

The 12nd invention of the present invention is carrier for enzyme immobilization, and it is to be made of the aqueous gel that any one invention in the above-mentioned the 1st to the 8th invention makes.

Adopt aqueous gel manufacture method of the present invention, do not need complicated operations and very big equipment, can easily make aqueous gel.This aqueous gel can be used as the fixing carrier of using of adsorbent for heavy metal, pigment adsorbent and microbe carrier and enzyme, industrial higher utility value is arranged.

Brief description of drawings

Fig. 1 represents the structure of employed aerator tank among the present invention.

The preferred embodiments of the invention

The water-soluble high-molecular compound that can prepare aqueous gel among the present invention, can use have be aforementioned ( 1) and/or the water-soluble high-molecular compound of the represented repetitive amidine unit of (2) formula, preferably Contain the amidine unit of the said units of 10～90mol%, preferably contain 10～80mol The above-mentioned amidine unit of %, and contain 10～60mol% cyano group.

Cationic macromolecule with above-mentioned amidine structure, as polymer coagulant and draining processing and mud Dehydrating agent, the mass market is commercially available already. It can be for the manufacture of aqueous gel of the present invention, macromolecule itself Manufacture method has no particular limits. Generally can produce primary amino radical or produce primary amino radical by conversion reaction with containing The ethylene unsaturated monomer of substituted-amino and acrylonitrile or metering system nitrile form copolymer, make again this altogether Cyano group in the polymers and primary amino radical reaction are made through the amidineization reaction.

The preferred choice for use of above-mentioned ethylene unsaturated monomer is with general formula CH₂＝CR ²-NHCOR ³Compound (the R in the formula of expression²Expression hydrogen atom or methyl, R³＝C ₁～C ₄Alkyl or hydrogen atom). In the EVA,, be easy to change by adding water decomposition or adding ethanol decomposition from the substituted-amino of related compound Become primary amino radical. Further this primary amino radical and the reaction of adjacent cyano group are formed the structure of amidine. Can exemplify N-vinyl formamide (R²＝H、R ³=H) and N-vinyl acetamide (R²＝H、R ³=Me) this compounds is described.

The polymerization mol ratio of these ethylene unsaturated monomers and nitrile is generally 30: 70～and 70: 30. Can exceed this scope if necessary, for example, can adopt the ethylene unsaturated monomer ratio larger The polymerization mol ratio.

The copolymerization process of ethylene unsaturated monomer and nitrile adopts the radical polymerization method usually, also can be with water-soluble The methods such as liquid polymerization, block polymerization, aqueous solution precipitation polymerization, suspension polymerisation, emulsion polymerization. Poly-in solvent When closing, starting monomer concentration is generally 5～80 % by weight, preferably 20～60% % by weight. Polymerization The general free radical polymerization initiator of initator, azo-compound preferably, such as 2,2 '-azo two-2 The hydrochloride of-amidine propane etc.

Polymerisation is generally under inert gas flow, carry out in 30～100 ℃ the temperature. Resulting Copolymer namely carries out the amidination reaction with solution state or suspended state just with previous status or after dilution. In addition, Also can use known method, isolate the solid of copolymer after desolventizing, the drying after, with solid state for amidine Change reaction.

In the amidineization reaction, use the represented N-ethenyl amide compound prodn of aforementioned formula as the ethene insatiable hunger During with monomer, change the substituted-amino in the copolymer into primary amino radical, allow then the primary amino radical that generates with adjacent The reaction of the cyano group that connects forms the amidine structure, can prepare cationic height among the present invention by above-mentioned 2 order reactions Molecular compound. Certainly preferably in the presence of strong acid or highly basic, in water or ethanolic solution, this copolymer is added Temperature generates the amidine structure in a step. It is believed that, even in this case, also be to generate earlier primary amino radical As intermediate structure.

The actual conditions of this reaction for example can be, the substituted-amino of copolymer usually add 0.9～5.0 times, The strong acid of 1.0～3.0 times of equivalents preferably, the most handy hydrochloric acid. Usually with 80～150 ℃, best With 90～120 ℃ of temperature, usually heated 0.5～20 hour. By only stating reaction, just can obtain Cation high molecular with amidine unit. In general, strong acid is to the more big and reaction temperature of equivalent proportion of substituted-amino Spend more highly, the amidineization reaction is carried out more good. In addition, during the amidineization reaction, with respect to the copolymer for reaction usefulness, In reaction system, usually exist more than 10 % by weight, the water more than 20 % by weight preferably.

According to aforesaid explanation, the cationic macromolecule among the present invention, most typical is to make as follows: N-vinyl formamide and acrylonitrile compolymer, with the copolymer that generates normally with the form of suspension of water, Heat under the existence of hydrochloric acid, form the amidine unit by substituted-amino and adjacent cyano group. N during by the adjusting copolymerization The mol ratio of-vinyl formamide and acrylonitrile, and select copolymer amidineization condition, can prepare various The cationic macromolecule that forms.

To be modulated into the water-soluble cationic macromolecular compound that said method obtains more than 0.5 % by weight, Below 50 % by weight, the aqueous solution that preferably 1 % by weight is above, 20 % by weight are following is then with pH More than 11, preferably above, the preferably above alkaline aqueous solution contact of pH12.5 of pH12, Suppress the disassociation of cation radical in the water-soluble cationic macromolecular compound, it is insoluble to make macromolecular compound become water The property resin has formed moisture gel. This phenomenon is owing to have the amino of amidine structure at pH10.5 Disassociation is suppressed when above, becomes due to the hydrophobization.

The alkaline components of this aqueous gel in gel is removed in washing can antiseptic. If there is being alkalescence to become Divide that coexistence is lower preserves, the then cyano group in the macromolecule and amidine unit hydrolysis just becomes carboxyl, formed in the resin with The aqueous gel of the amphoteric type of anionic property group and cationic group.

According to use, available for a long time to impregnated in the alkaline solution for promoting to add the carrying out of water decomposition, Or be dipped in the alkaline solution, heating, can form like this molecular memory at the aqueous gel of many carboxyls.

Usually, in order to suppress this hydrolytic process, acid neutralizes or with the aqueous acid washing, makes obtain moisture Gel is by near neutral, and at this moment, it is original water-soluble that the macromolecular compound that consists of the gel unit recovers, and it is swollen to absorb water Swollen, at last dissolving.

Solution to this problem is, make in the macromolecule aqueous solution of modulating when making aqueous gel or connect Have simultaneously in the alkaline aqueous solution that touches in a molecule, have more than 2 or 2 with macromolecular compound in Amino or the cyano group reaction crosslinking agent that produces the functional group of covalent bond, make then the macromolecule aqueous solution and alkaline water The solution contact. So formed aqueous gel had both used also no longer dissolving of acid neutralization, formed stable, water Insoluble gel.

In and the time used acid when using polyhydric acid such as sulfuric acid, phosphoric acid, the amino in the polymer forms vitriol, phosphoric acid salt, can make the little aqueous gel of swelling.In and the time when using the such monobasic acid of hydrochloric acid, acetic acid, be aqueous gel more than 100 times by regulating the consumption of linking agent, can obtaining the swelling rate.

The object lesson of the linking agent that uses has: formaldehyde, acetaldehyde, oxalic dialdehyde, oxalic dialdehyde paraffinics such as propionic aldehyde, glutaraldehyde.In addition, using has the linking agent that can form the functional group of covalent linkage more than 2 or 2 with primary amino and cyano group reaction in each molecule, also can form aqueous gel.

In addition, when coexistence had the monomer of N-vinyl formamide, N-vinyl acetamide in the synthetic polymkeric substance, these monomer hydrolysis formed acetaldehyde, and it also can play the effect of linking agent, therefore also can specially add linking agent sometimes.

Aqueous gel of the present invention is to contact with alkaline aqueous solution by the aqueous solution that makes the macromolecular compound with amidine structure to make, the concentration of this macromolecular compound aqueous solution is more than the 0.5 weight %, below the 50 weight %, select in the concentration range that preferably 1 weight % is above, 20 weight % are following, this concentration should decide according to the cumulative water-oil ratio of the aqueous gel of final requirement and the intensity of gel.

Generally, the concentration of the macromolecular compound aqueous solution is high more, and moisture ratio is low more, and gel-strength is high more.On the contrary, its concentration is low more, and the viscosity of macromolecular solution is also low more, and when contacting with alkaline aqueous solution, by the impact of liquid level, macromolecular solution is scattered in the basic solution, makes aqueous gel form difficulty.Therefore, low-molecular-weight in general, the preparation aqueous gel is difficulty more under lower concentration.But too high as molecular weight, when it being dripped to or being expressed in the alkaline aqueous solution preparation aqueous gel, the polymer aqueous solution has and leads a property, the out-of-shape of resulting aqueous gel, and thread thrust is arranged.

When the viscosity of the polymer aqueous solution is too high, can suitably dilute, or add oxygenant, cut off molecule, molecular weight is reduced, also can add salts substances such as salt, sodium-acetate, Repone K, to reduce viscosity.

Preparation used basic cpd during aqueous gel can adopt: potassium hydroxide, sodium hydroxide, ammonium hydroxide, yellow soda ash etc.Consider to use sodium hydroxide from price and transportation aspect more.

Salts such as shared sulphur ammonium, awns crystalline substance, salt, Repone K help the generation of aqueous gel in alkaline medium, still can reduce the cumulative water-oil ratio of aqueous gel simultaneously.

The concentration that is used for the basic cpd of alkaline medium will increase and decrease according to the total amount of the macromolecular compound that is in contact with it, and common 1 weight % is between the 2 weight %, and it is also harmless to be higher or lower than above-mentioned scope.By contacting with the polymer aqueous solution, consumed the alkali in the alkaline medium, for this reason, should replenish basic cpd during the preparation aqueous gel.

When forming aqueous gel in extruding or be added drop-wise to alkaline dispersion medium, the ratio of the macromolecular compound aqueous solution is important to be adjusted to identically with the proportion of alkaline dispersion medium, preferably is higher than the latter.For regulating this proportion, in the dissolved macromolecular compound aqueous solution, should add water-insoluble powder such as inorganic water-soluble ionogen such as salt, awns crystalline substance and lime carbonate, talcum, atlapulgite, Powdered oxysome, Powdered Activated Carbon simultaneously.

When preparing aqueous gel with the inventive method, can in the aqueous solution of macromolecular compound, coexist enzyme, bacterium etc., this macromolecular compound can surround them and be fixed up, and is used as the carrier of bioreacter.In addition, will contact with enzyme liquid, make it adsorptive enzyme, can make immobilized enzyme with the aqueous gel that the inventive method obtains.After being dispersed in the macromolecular solution, prepare aqueous gel to antibiotics, sterilant, antiseptic-germicide etc., can obtain the sustained release dosage of these medicaments with the inventive method.In addition, after inorganic powders such as Powdered Activated Carbon, zeolite, ferrite stone are scattered in the polymer aqueous solution, prepare aqueous gel, can adjust the proportion of aqueous gel, make resulting aqueous gel have multiple function simultaneously with the inventive method.

When preparing aqueous gel with the inventive method, normally drip with the aqueous solution of pump of constant delivery type with macromolecular compound, formation is the globular aqueous gel.The particle diameter of this aqueous gel can be by macromolecular solution viscosity, the speed of dripping, the bore that splashes into mouthful etc. change.As being extruded in the alkaline aqueous solution, the polymer aqueous solution can prepare bar-shaped or thread aqueous gel.In addition, the polymer aqueous solution soaking that the present invention is used contacts with alkaline aqueous solution behind materials such as porous insert, fiber assembly again, can form various aqueous gel complex bodys.

With the resulting aqueous gel of the inventive method, can be used for many industrial circles, now illustrate.

1) in biological thermopnore formula drainage processing method, uses as flowing carrier.

2) as the anionic property organism, as dyestuff, the sorbent material of interfacial agent, xylogen, soil ulmin etc. is used for disintegrating system in waste pipe.

3) coat, biologically active substances such as fixing or absorption, fixation of microbe, enzyme, be used for bioreacter.

4) aqueous gel of structure of the present invention is owing to the good result that has as resin, therefore, the water that will contain metal ion is by the packed column with aqueous gel of the present invention, or aqueous gel of the present invention is soaked in the solution of metal ion, can both remove the solution metal ion, concentrate.If in mineral acid, flood, reclaim adsorbing metal ions, can use the regenerated gel repeatedly with crosslinked aqueous gel.

Embodiment

Specify the present invention below by embodiment.But the present invention is not limited to following embodiment.In addition, " % " among the embodiment if no special instructions, is meant " weight % ".(the high molecular preparation method of cationic)

In 4 mouthfuls of flasks of 100 milliliters that have stirrer, nitrogen conduit, cooling tube, put into vinyl cyanide and the mixture 6.0g of N-vinyl formamide and the de-salted water of 34.0g of the vinyl cyanide that contains volumetric molar concentration shown in the table 1.At N ₂Be warmed up to 60 ℃ while stirring in the air-flow, add then 10% 2,2 '-azo, two-2-amidine propane, 2 hydrochloride aqueous solution 0.12g.Keep stirring after 4 hours at 45 ℃, be warmed up to 60 ℃, further be incubated 3 hours, obtain in water, separating out the suspended substance of polymkeric substance.In suspended substance, add 20g water, add the concentrated hydrochloric acid of 2N then with respect to the formyl radical in the polymkeric substance, continue to stir 4 hours, make the polymkeric substance amidineization at 100 ℃.Resulting polymers soln is added in the acetone, makes it to separate out, form solid state polymer A～E after the vacuum-drying.Wherein, polymkeric substance E without acrylonitrile polymerization, also can react equally.Measure composition and the reducing viscosity of this polymer A～E with the following method.The results are summarized in the table 1.(analytical procedure of composition)

According to ¹³C-NMR spectrum is calculated the composition that carries out each preceding stock polymer of amidineization corresponding to the integrated value of the absorption peak of each monomeric unit.Equally, according to ¹³The C-NMR spectrum is calculated the composition of amidineization post polymerization thing A～E corresponding to the integrated value of the absorption peak of each repeating unit.In addition, do not distinguish repeating unit (1) and (2), only obtain its total amount.

In addition, because near absorption peak position 170～185ppm of repeating unit (1), (2) and uncle's ammonia etc. is very approaching, adopt following method to determine to belong to corresponding to the structure of each absorption peak.That is, confirm the weight revenue and expenditure by the ultimate analysis of polymkeric substance, the mensuration of amount of moisture, in addition, except measuring polymkeric substance ¹³Outside the C-NMR spectrum, also measure IR spectrum, and the spectrum of polymkeric substance is done detailed contrast with the spectrum that contains the known compound of amidino groups, amide group and lactam group.(mensuration of reduced viscosity)

In the 1N salt solution, with the solution of 0.1g/100ml, under 25 ℃, measure the viscosity of polymer A-E with Ostwald viscosimeter.

Table 1 type of polymer A B C D E monomer is formed N-ethanoyl methane amide 70 50 40 50 100

Vinyl cyanide 30 50 80 50 0 amidineization condition temperature (℃) 100 100 100 50 100

Time (hour) 555 20 5 polymkeric substance amidino groups, 31 56 55 15 0 composition formyl radical 2006 19 (mol%) cyano group 7 22 34 42 0

Amino 59 22 8 37 81

Amide group 00100

Carboxyl 10230 reducing viscosities (dl/g) 2.8 3.5 3.3 3.1 4.0 embodiment 1

Polymer A～D 5g is added in the 85g distilled water, mix, after treating polymer dissolution, the glutaraldehyde water solution that adds 10g salt and 0.1g 25%, fully stir, with the speed of tubing sucker-rod pump (ア ト-company make), this polymers soln is dripped in the solution that 500ml contains 20% caustic soda with per minute 10ml.Use the speed of stirrer then, stir this soda lye of 2%, the height of drip position and caustic soda liquid level is remained on 2cm with 300rpm.Splash into finish after, continue to stir again 30 minutes, with sulfuric acid soda lye is transferred to pH7.5.With this solution of strainer filtering, obtain aqueous gel (test portion 1～4), clean this aqueous gel with pure water, measure median size and cumulative water-oil ratio, the results are summarized in table 2.The calculation formula of cumulative water-oil ratio is as follows: Comparative example 1

In order to compare, do not contain the polymkeric substance E of amidineization structure except that using, other is all by preparing aqueous gel with embodiment 1 identical operations, but does not form aqueous gel, and polymer dissolution is in soda lye.The results are shown in table 2.

Table 2

Aqueous gel uses polymkeric substance particle diameter (mm) cumulative water-oil ratio (%) embodiment 1 test portion-1 A 2.3 550

Test portion-2 B 2.1 480

Test portion-3 C 1.8 310

Test portion-4 D 2.0 300 comparative examples 1 do not form moisture E--

Gel embodiment 2

Polymer B5g is added in the 85g distilled water, mix stirs, treat polymer dissolution after, add 10g salt, mix and stir up to dissolving fully.

Press the ratio shown in the table 3 and add the glutaraldehyde of 1% concentration in this solution, after the mixing, the method by identical with embodiment 1 drips in the soda lye granulation.After alkaline atmosphere and 30 ℃ were preserved 1 hour, wherein half neutralized with hydrochloric acid with this granulation thing, and second half neutralizes with sulfuric acid, is transferred to pH7.After the filtration, in pure water, soaked 2 hours respectively, filter once more, measure the weight of aqueous gel (test portion 5～8).Then, 105 ℃ of dryings 20 hours, the check weighing amount was obtained the swelling multiple by following formula with this aqueous gel.Gained the results are shown in table 3.

Swelling rate (doubly)=aqueous gel weight (g)/desiccant gel weight (g) comparative example 2

In above-mentioned solution except that the glutaraldehyde that does not add 1% concentration, by the method operation identical with embodiment 1, the gained test portion in and the time dissolving, do not form aqueous gel.The results are shown in table 3.

Table 3

Aqueous gel 1% glutaraldehyde swelling rate (doubly)

In addition (g) the hydrochloric acid neutralisation of sulphuric acid and embodiment 2 test portions-5 1 145 7.1

Test portion-6 2 106 6.8

Test portion-7 5 44 5.1

Test portion-8 10 11 5.0 comparative example 2 does not form moisture 0 can not can not

Gel determination is measured embodiment 3

Polymkeric substance C10g, distilled water 90g and the ferroferric oxide powder 30g below the particle diameter 100 μ m are mixed stirring, after forming the slurries of homogeneous, the acetaldehyde solution that adds 2g 10%, then by and embodiment 1 identical operations, above-mentioned solution splashed in 2% the soda lye.Drip to finish, with sulfuric acid caustic soda liquid is transferred to pH7.5 after, after filtration, made and contained Fe ₃O ₄Aqueous gel.The bulk specific weight of this aqueous gel in water is 1.54, and median size is 2.3mm, and cumulative water-oil ratio is 215%.It can be separated from solution with magnet.Embodiment 4

The aqueous gel of the test portion 2 made among the 250g embodiment 1 is filled in the pillar of diameter 40mm, a high 300mm, pass through the Cupric Chloride Solution of 20mg/l concentration with the flow velocity of per minute 10ml from the pillar lower end, with the copper ion concentration of atom extinction photometer mensuration from the effusive treating water in upper end of Shimadzu Seisakusho Ltd.'s manufacturing.By the copper ion concentration in 200 liters the solution aftertreatment water is 0.08mg/l.Embodiment 5

The aqueous gel of the test portion 3 made among the 250g embodiment 1 is filled in the pillar of diameter 40mm, high 300mm, from the flow velocity of pillar lower end with per minute 2ml, feed the quick scarlet BL of A Erfanuo (ヘ キ ス ト corporate system) of 400mg/l concentration with in-line pump (ア ト-corporate system), measure effusive residual dye concentration with extinction photometer, calculate and obtain 20% the dye adsorption total amount of aqueous gel when following that residual dye concentration reaches original solution from the upper end.Show water-flowing amount and residual dye concentration and dye adsorption semi-invariant in the table 4.Result by table 4 finds out that the dye adsorption ability of this gel is 59.3mg/g.

Table 4 accumulation water-flowing amount (l) 10 15 20 25 30 35 40 residual dye concentration (mg/l) 0.8 1.6 7.2 10.0 30.4 79.6 104 absorbing dye semi-invariants (g) 3.99 5.98 7.94 9.89 11.74 13.34 14.82 embodiment 6

The aerobic thermopnore formula biological treatment device that is used for making carrier mobile diffuser, air riser pipe etc. in aerator tank is being installed, is using embodiment 1 resulting aqueous gel (test portion 4) as carrier.It now is described with reference to the accompanying drawings.

Structure as shown in Figure 1, volume is mud (sludge concentration the is 4000mg/l) 900ml that packs above-mentioned aqueous gel 200g into and obtain from the sewage-farm in the aerator tank of 1L, aeration is after 24 hours in aerator tank, with peristaltic pump (ア ト-corporate system), with flow quantitatively supplier worker's draining (including Sumstar 190 250mg/l, peptone 250mg/l, potassiumphosphate 15mg/l, ferrous sulfate 1mg/l, sal epsom 1mg/l, calcium chloride 1mg/l) in aerator tank of 3L/ day.Keep 25 ℃ during water flowing in the aerator tank.The BOD of this manual draining is 390mg/l.The supernatant liquor of getting treating water after 1 week, 2 weeks and 4 weeks after water flowing begins is analyzed water quality.To the results are shown in table 5.Comparative example 3

In order to compare, do not add carrier, carry out the test identical with embodiment 6.The results are shown in table 5.Comparative example 4

In order to compare, with the 200g median size be the polystyrene spheres of 1mm as carrier, carry out the test identical with embodiment 6.The results are shown in table 5.

Table 5

The water quality of vehicle treated clear liquid waterborne (mg/l)

1 all backs are after 24 weeks of back week

SS BOD SS BOD SS BOD comparative example 3 does not add 211 185 182 146 115 152 embodiment 6 test portions-4 38 59 11 13 12 15 comparative examples, 4 polystyrene spheres 94 177 82 115 58 41

By the result of table 5 as can be seen, during no carrier added(NCA) in (comparative example 3) aerator tank active sludge can not be detained, so can't handle.The aqueous gel (test portion 4) of embodiment 6 is put into aerator tank, active sludge can be fixed in the aqueous gel surface, after 2 weeks, form microbial film on the aqueous gel surface, water quality treatment is good.Use carrier (comparative example 4) as a comparison with polystyrene spheres, also form some microbial films after 4 weeks, water quality also improves, but compares with aqueous gel of the present invention, and the film forming speed of microbial film is slow, and processing efficiency is not good.Embodiment 7

Get the test portion 2 of preparation among the embodiment 1 and each 10g of aqueous gel of test portion 3, with its suspended dispersed in the trichlorine acid buffer of the 0.05mol of 200ml (pH8.0), again it is soaked in phosphoric acid one citrate buffer solution of 0.05mol of 100ml after the filtration and adds saccharase liquid (Sankyo Co., Ltd's system) 20ml, at room temperature stir and carried out immobilization in 3 hours.

Is dipping 1.5 hours in Sodium Tetraborate-hydrochloride buffer of 0.05mol with resulting immobilized enzyme aqueous gel in the concentration that contains 0.6% glutaraldehyde, filter then, filter with the trichlorine acid buffer 1L suspended dispersed of 0.05mol once more, measure the resulting weight that is fixed with the aqueous gel of enzyme.Fixing add 1L to resulting, in citric acid-phosphoric acid buffer of concentration 0.05mol, in the solution of (pH4.2) dissolved 10% sucrose,, obtain formed reducing sugar total amount with methylene blue method 40 ℃ of reactions 60 minutes for enzyme.Table 6 illustrates with 1g immobilized enzyme aqueous gel sucrose decomposition amount hourly.Comparative example 5

For comparing, with commercially available strong basic ion exchange resin-Amberlite IRA-90X (オ Le ガ ノ corporate system), operate by method similarly to Example 7, obtain the sucrose decomposition amount of every 1g resin, will the results are shown in table 6.

Table 6

Carrier sucrose decomposition amount (g/Hr) embodiment 7 test portions-2 133

Test portion-3 156 comparative example 5 Amberlite IRA-90X 58 embodiment 8

With aqueous gel (test portion 2) 10g of polymer B of preparation among the embodiment 1, the washing after-filtration was soaked in it in Sodium Tetraborate-hydrochloride buffer (pH6.0) of 0.05ml 10 minutes then, refiltered.After dialysis treatment, it is dropped in 3 times of diluents of glucose isomerase (long rapids corporate system) of 100ml, after at room temperature slowly stirring, filter.The resulting like this aqueous gel that has immobilized enzyme is soaked in Sodium Tetraborate-hydrochloride buffer of the concentration 0.05mol that contains 0.6% glutaraldehyde 1.5 hours.

This aqueous gel is reached the aqueous gel of not handling with glutaraldehyde be soaked in respectively in 10% salt solution of 1L, stir 1 hour after-filtration, after the washing, relatively glucose is transformed into the ability of fructose respectively.Obtain the glucose transformation energy with following method.

The resulting aqueous gel that has immobilized enzyme is put into 40% glucose solution 1L, that be dissolved in the 0.1mol phosphoric acid buffer, 60 ℃ of reactions 1 hour, obtain formed quantity of fructose with the HPLC method, and obtain the glucose amount (glucose conversion amount) of every 1g aqueous gel conversion fructose.To the results are shown in table 7.

Table 7

Have or not glutaraldehyde to handle glucose conversion amount

Have 12.5

Do not have 0.4

As shown in Table 7, after the aqueous gel adsorptive enzyme of the present invention, handle through glutaraldehyde again, can form the aqueous gel of the immobilized enzyme that enzyme can not come off.

The possibility of industrial utilization

As mentioned above, the invention provides does not need complicated operation and a large amount of apparatus, easily The method for preparing aqueous gel, and by this aqueous gel consist of adsorbent for heavy metal, pigment adsorbent and Microorganism and enzyme are fixedly used carrier.

Claims (12)

1, the manufacture method of aqueous gel is characterized in that, the polymer aqueous solution with the repeating unit that is made of the cation radical shown in following formula (1) and/or (2) is contacted with alkaline aqueous solution, separates out the formation aqueous gel (R in the formula ¹, R ²Be hydrogen atom or methyl, X ^-Be negatively charged ion).

2, the manufacture method of aqueous gel as claimed in claim 1, it is characterized in that, contain unit that 10～80mol% is made of the represented cation radical of above-mentioned formula (1) and/or formula (2) and the solution that contains high molecular 1～5 weight % of 10～60mol% cyano group and contact, make it separate out, be shaped with alkaline aqueous solution.

3, the manufacture method of aqueous gel as claimed in claim 1 or 2 is characterized in that, in the above-mentioned polymer aqueous solution and/or alkaline aqueous solution, coexistence have can with the linking agent of the intramolecular reactive with active hydrogen of this polymer.

As the manufacture method of any one described aqueous gel in the claim 1～3, it is characterized in that 4, the pH of described alkaline aqueous solution is more than 11.

5, as the manufacture method of any one described aqueous gel in the claim 1～3, it is characterized in that the pH of described alkaline aqueous solution is more than 12.

6, the manufacture method of aqueous gel as claimed in claim 3 is characterized in that, described aqueous gel is soaked in the acidic aqueous solution, the swelling of control aqueous gel.

7, as the manufacture method of the aqueous gel of record in the claim 6, it is characterized in that described acidic aqueous solution is selected from the aqueous solution of at least a polyhydric acid in sulfuric acid, phosphoric acid, boric acid, the carbonic acid.

8, the manufacture method of aqueous gel as claimed in claim 6 is characterized in that, described acidic aqueous solution is selected from least a 1 valency acid in hydrochloric acid, the acetic acid.

9, adsorbent for heavy metal is characterized in that, it is made of each described aqueous gel in the claim 1～8.

10, pigment adsorbent is characterized in that, it is made of each described aqueous gel in the claim 1～8.

11, microbe carrier is characterized in that, it is made of each described aqueous gel in the claim 1～8.

12, enzyme is fixing uses carrier, it is characterized in that it is made of each described aqueous gel in the claim 1～8.

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