JP2738943B2 - Polymer complex for oxygen adsorbent - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to the field of oxygen adsorption and desorption used in oxygen enrichment processes in the medical field, combustion gases and the like, and more particularly, to the rapid and reversible release of oxygen. The present invention relates to a novel polymer complex having the property of being able to adsorb and desorb selectively.

[Conventional technology]

Oxygen is used in, for example, oxygen inhalation therapy for patients with lung disease, and is a very versatile substance in the medical field. In addition, it is one of the most widely used chemical substances in the industrial field in connection with the production of metals such as iron and steel, the production of glass, chemical oxidation, combustion, and wastewater treatment. The development of such a process for concentrating oxygen from air with low energy is a very important task, and its ripple effect is large. Conventionally, as a method for concentrating oxygen from air, a cryogenic method, a membrane separation method, and the like are industrially performed, but from the viewpoint of energy saving, the adsorption method is mainly used, especially when a small general-purpose device is required. It is thought to be.

One of the problems of this adsorption method is to develop a material capable of selectively and efficiently adsorbing oxygen (or, conversely, nitrogen) to nitrogen in coexisting air. At present, synthetic zeolite (molecular sieve) is used as an adsorbent that can absorb nitrogen from air and increase the concentration of residual oxygen.
Some have been put to practical use. According to the pressure swing apparatus loaded with these adsorbents, an oxygen-enriched air having a 30% oxygen concentration is obtained by incorporating a multi-base tower process. However, zeolite is (i) a complicated apparatus because of being a nitrogen adsorbent, (ii) adsorption capacity is small, (ii)
i) It has the drawback that the adsorption selectivity is at most 5 or less, so that the oxygen enrichment apparatus using zeolite is large and economical is not always good.

[Problems to be solved by the invention]

In order to obtain high oxygen concentration air highly useful in the medical and industrial fields by a simple pressure swing adsorption / desorption method (PSA method), the oxygen adsorption / desorption agent selectively adsorbs oxygen, Being quick and reversible is an essential requirement.

On the other hand, conventional metal complexes such as cobalt Schiff bases (complexes consisting of conjugated ligands and low-oxidation metal ions)
Is known to be able to reversibly adsorb and desorb oxygen molecules. However, this reversible adsorption / desorption is realized only when these metal complexes are dissolved in an appropriate solvent. In the solid state, the rate of adsorption is remarkably reduced. It was impossible to use as a desorbing agent.
In addition, even in a solution state, when a large amount of air is treated, (i) the solvent evaporates, (ii) the metal complex is irreversibly oxidized, and the life as an adsorbent is extremely short. ing. In addition, this kind of metal complex can selectively adsorb and desorb oxygen, but has an appropriate oxygen affinity (oxygen binding constant) to desorb adsorbed oxygen according to the oxygen partial pressure of the atmosphere. Must have In particular, air under atmospheric pressure (760 mmHg, oxygen partial pressure is 1
50mmHg), relatively easy decompression degree (for example,
In order to desorb adsorbed oxygen at approximately 200 mmHg and oxygen partial pressure of 40 mmHg, the oxygen affinity P (1/2) (oxygen partial pressure at which half of the adsorbent adsorbs oxygen) must be in the range of 80 mmHg to 120 mmHg. There must be. However, there is no known metal complex of this kind that satisfies this requirement and can be put to practical use. Thus, many problems remain unsolved for applying the conventional metal complex to the oxygen adsorption / desorption method.

When a metal complex is used as a substance that can be used as a practical oxygen storage / desorption agent, the following conditions are required. That is, (i) the oxygen bonding site (coordination site) of the metal complex is occupied by molecules that often coexist when the metal complex is prepared in a solid state, and the oxygen bonding ability is lost. Therefore, in order to be able to quickly adsorb and desorb oxygen even in the solid state,
It is indispensable to keep this oxygen adsorption site (coordination site) "empty" so that oxygen molecules can always be adsorbed (before binding oxygen). (Ii) The oxygen affinity of the metal complex is strongly affected by the coordination molecule in the trans position with the metal at the oxygen adsorption site (coordination site) interposed therebetween. Therefore, in order to set P (1/2) (80 to 120 mmHg) for the purpose of oxygen affinity, the type of the trans-coordination molecule becomes a problem. (Iii) As a practical oxygen adsorbing / desorbing agent, the metal complex must not undergo irreversible oxidation and must retain its oxygen adsorbing / desorbing agent ability for a long time. For this purpose, it is effective to place the metal complex in a solid phase so that the metal complex is less susceptible to various chemical reactions. It is also an essential requirement that the trans-coordination molecule be firmly bound to the metal.

An object of the present invention is to provide a polymer complex for an oxygen adsorbing / desorbing agent capable of selectively adsorbing oxygen in a solid phase state and performing quick and reversible adsorption / desorption.

[Means for solving the problem]

The polymer complex for an oxygen adsorbing / desorbing agent according to the present invention comprises a copolymer of vinylimidazole or vinylpyridine and octyl methacrylate, and mesotetrakis (α, α, α,
α-o-pivalamidophenyl) porphinatocobalt (II) complex.

Vinyl imidazole Vinyl pyridine (1), (2)
In the formula, R is _{H-, CH 3 -, C 2} H 5 - is like, H-, CH ₃ - is preferable.

The structural formula of the octyl methacrylate is as follows.

CH ₂ CC (CH ₃ ) —COOCH ₈ The content of vinyl imidazole or vinyl pyridine in the copolymer is suitably from 10 to 80 mol%.

In the following mesotetrakis (α, α, α, α-o-pipalamidophenyl) polyfinato metal (II) complex, the case where M is Co is the complex of the present invention.

In the equation (3), R is The ratio of the metal ion constituting the porphyrin complex to the aromatic amine residue (ligand) contained in the copolymer is suitably in the range of 1: 100 from the viewpoint of molecular dispersion.

As an example, a copolymer of vinylimidazole and octyl methacrylate and mesotetrakis (α, α, α,
The steric structural formula of the polymer complex for oxygen absorbing / desorbing agent composed of α-o-pivalamidophenyl) porphinatocobalt (II) is shown below.

The method for producing the adsorption / desorption agent comprising the polymer complex according to the present invention is not particularly limited, but typical examples are as follows. That is, a copolymer of mesotetrakis (α, α, α, α-o-pivalamidophenyl) porphinatocobalt (II) complex (hereinafter abbreviated as complex) vinylimidazole or vinylpyridine and octyl methacrylate (hereinafter, octyl methacrylate) (Hereinafter abbreviated as a copolymer) is uniformly dissolved in an organic medium, sufficiently deoxygenated, mixed, and freeze-dried to obtain an oxygen adsorbing / desorbing agent comprising a polymer complex. In this case, the content ratio of the complex is appropriately selected within a range of about 1 to 80% by weight. In addition, it is desirable that the production of the adsorption / desorption agent be performed after sufficient deoxygenation.

The type of the oxygen adsorbing and desorbing agent is not particularly limited, but usually a powder having a wall thickness of about 1 to 10 μm is appropriate, and is appropriately selected according to the type of the pressure swing adsorption and desorption apparatus. By using such an oxygen adsorbing / desorbing agent according to the present invention, an oxygen-containing gas having an oxygen concentration of 40% or more can be obtained from air by, for example, a pressure swing adsorption (PSA) method using a small pump.

[Action]

According to the present invention, mesotetrakis (α, α, α, α
The -o-pivalamidophenyl) porphinatocobalt (II) complex has a substituent built around an oxygen bond on its surface, so that it is extremely rapid in the solid state in response to the oxygen partial pressure of the atmosphere. It has the ability to absorb and desorb oxygen (about milliseconds). Further, by using a copolymer of a vinyl aromatic amine and an alkyl (meth) acrylate as a trans-coordinated molecule of porphinatocobalt, it becomes possible to set the oxygen affinity to about 100 mmHg. Further, by using a copolymer of vinylimidazole or vinylpyridine and octyl methacrylate, the binding of the aromatic amine residue to porphinatocobalt is firmly held by a so-called polymer effect, and the porphinatocobalt complex Is molecularly dispersed and fixed on the copolymer, so that the service life as an oxygen adsorbing / desorbing agent can be dramatically improved. For the same reason, the molar amount of the trans-coordination molecule with respect to the porphinato cobalt complex can be reduced, so that the amount of the complex per unit weight, that is, the complex adsorption capacity can be significantly increased. As a result, the selectivity ratio of oxygen to nitrogen exceeds 100, and an unprecedented excellent oxygen selective adsorption power can be obtained. Furthermore, since the copolymer of vinylimidazole or vinylpyridine and octyl methacrylate has high gas permeability, it does not impair rapid oxygen adsorption of the porphinato cobalt complex. In addition, the copolymer retains moldability even after containing the porphinatocobalt complex at a relatively high concentration, and can be formed into an arbitrary shape as an adsorbent.
For example, it can be formed as a fine powder suitable for processing a large amount of gas at high speed.

〔Example〕

Example 1 A benzene solution containing 30 g of mesotetrakis (α, α, α, α-α-o-pivalamidophenyl) porphinatocobalt (II) complex, and a copolymer of vinylimidazole and octyl methacrylate (vinylimidazole) (Hereinafter referred to as POMAIm) in an amount of 70 g.

The two solutions were mixed, the mixture was frozen with a dry ice-methanol solution, and then dried under reduced pressure. The obtained polymer complex for an oxygen adsorbing / desorbing agent had a porous shape with a wall thickness of about 1 μm, and was pulverized into a powder.

The reversible adsorption and desorption of oxygen to the polymer complex for an oxygen adsorbing / desorbing agent is determined by the visible spectrum (oxygenation: 545 nm, deoxygenation: 527
nm).

100 g of the obtained polymer complex for adsorbing and desorbing oxygen was charged into the chamber 1 of the pressure swing device shown in FIG. Then, the electromagnetic valve 2 on the air supply side is opened to blow dry air into the chamber 1 to adsorb oxygen to the adsorbent 7, and then the electromagnetic valve 3 on the exhaust side is opened and the inside of the chamber 1 is pumped by the pump 4.
The pressure was reduced to 150150 mmHg. The gas blown out from the pump outlet at a flow rate of 1.5 l / min was stored in the tank 5, and the oxygen concentration was measured by the oxygen sensor 6. According to the result, oxygen-enriched air having an oxygen concentration of 40% was obtained. The blowing of air into the chamber 1 and the depressurization by the pump 4 were each performed in 10 seconds. These values, the adsorption and desorption agent according to the present invention,
This shows that oxygen can be quickly and reversibly adsorbed and desorbed to supply oxygen-enriched air very effectively.

Similarly, after synthesizing a polymer complex containing 10% of the complex, it was prepared as a powdery adsorbent by a freeze-drying method,
When this was measured with a pressure swing device, oxygen-enriched air having an oxygen concentration of 30% was obtained.

Similarly, after synthesizing a polymer complex containing 45% by weight of the complex, this was prepared as a powdery adsorbent and desorbent by a freeze-drying method, and mounted on a pressure swing device, and measured.
Oxygen-enriched air with an oxygen concentration of 45% was obtained.

Example 2 Synthesis was performed in the same manner as in Example 1 except that the content of vinylimidazole of POMAIm in Example 1 was changed to 3.7 mol%, and then prepared as a powdery adsorbent and desorbing agent, and a pressure swing apparatus shown in FIG. Was used to measure the oxygen concentration. In the case of the polymer complex for oxygen adsorbent containing 10% by weight of the complex, oxygen-enriched air having an oxygen concentration of 30% was obtained.

In addition, after synthesizing in the same manner as in Example 1 except that the content of vinylimidazole of POMAIm in Example 1 was changed to 50 mol%, it was prepared as a powdery adsorbent / desorbent and measured with a pressure swing device. In the case of the polymer complex for oxygen adsorbent containing 45% by weight of the complex, oxygen-enriched air having an oxygen concentration of 45% was obtained.

〔The invention's effect〕

According to the present invention, oxygen is selectively adsorbed in the solid state,
In addition, a polymer complex for an oxygen adsorption / desorption agent capable of quickly and reversibly adsorbing / desorbing is obtained.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing a pressure swing device used in the embodiment. 1 ... chamber, 4 ... pump, 5 ... tank, 6 ...
... oxygen sensor.

Claims (3)

(57) [Claims] 1. A copolymer of vinylimidazole and octyl methacrylate, and mesotetrakis (α, α,
and (α, α-o-pivalamidophenyl) porphinatocobalt (II) complex. 2. A copolymer of vinyl pyridine and octyl methacrylate, and mesotetrakis (α, α, α, α
-O-pivalamidophenyl) porphinatocobalt (II) complex, which is a polymer complex for an oxygen adsorbing / desorbing agent. 3. A mesotetrakis (α, α, α, α-o-
The polymer complex for an oxygen adsorbing / desorbing agent according to claim 1 or 2, wherein the content of the pivalamidophenyl) porphinatocobalt (II) complex is 1 to 80% by weight.