JP2005296768A - Wasted imaging film treatment method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wasted imaging film treatment method by which base films and high-purity silver can be easily recovered from wasted imaging films and which has no risk of adversely affecting the environment. <P>SOLUTION: The wasted imaging film treatment method comprises the steps of (A) to (E) for treating waste imaging films each having a polyethylene film as a base film and a photosensitive layer containing a silver salt and collagen: (A) the step of preparing a dispersion by cutting the waste imaging films and dispersing the cuttings in water or an aqueous alkali solution, (B) the step of obtaining a solid and a liquid by subjecting the dispersion to solid/liquid separation, (C) the step of recovering polyethylene terephthalate films from the solid, (D) the step of obtaining a solid and a liquid by treating the liquid with an acid and subjecting the treated liquid to solid/liquid separation, and (E) the step of recovering silver by treating the solid obtained in step (D) with an acid and electrolyzing the treated solid. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a method for processing image film waste, and more particularly, to a method for processing image film waste that can easily recover a base film and high-purity silver from image film waste.

  Conventionally, image films that are no longer used, such as medical films such as X-ray films, camera films, copying films, movie films, etc., are usually disposed of by incineration. At this time, since silver contained in the photosensitive layer constituting the image film is a valuable resource, after the used image film was incinerated, the silver was separated and recovered from the incineration ash.

  However, in such silver recovery, since a small amount of silver is separated and recovered from a large amount of incinerated ash, it requires a lot of labor and time, and the cost is inevitably high. There was a problem. Further, silver present in the incineration ash has a low purity, and it has been necessary to perform a refining treatment in order to improve the purity. Moreover, there is a problem that the base film, which is also a valuable resource, is burned out.

  Furthermore, incineration of used image film may cause endocrine disrupting substances such as dioxins, which may adversely affect the environment, and may cause damage to the incinerator.

  The present invention solves such a conventional problem, and can easily recover the base film and high-purity silver from the image film waste, and can prevent the image film waste from having an adverse effect on the environment. It is an object of the present invention to provide a processing method.

  In order to solve the above-mentioned problems, the present inventors have made various investigations on processing methods that do not incinerate image film waste, and as a result, image film waste dispersion preparation step, dispersion separation step and identification It was found that the above-mentioned problems can be solved by processing the image film waste through the base film recovery step and the silver recovery step, and the present invention has been completed based on this finding. .

That is, the means for solving the problems of the present invention are:
An image film characterized in that an image film waste comprising a polyethylene terephthalate film as a base film and a photosensitive layer containing silver salt and collagen is processed by the following steps (A) to (E): This is a waste disposal method.
(A) A step of cutting the image film waste and dispersing the obtained cut material in water or an alkaline aqueous solution to prepare a dispersion.
(B) A step of solid-liquid separation of the dispersion to obtain a solid and a liquid.
(C) The process of collect | recovering a polyethylene terephthalate film from the said solid substance.
(D) A step of subjecting the liquid to an acid treatment and then solid-liquid separation to obtain a solid and a liquid.
(E) A step of acid-treating the solid obtained in the step (D) and then electrolyzing it to recover silver.

Preferred embodiments of the means include the following (1) and (2) image film waste processing methods.
(1) A method for processing image film waste having a layer containing gelatin as a protective layer of the photosensitive layer.
(2) A method for treating image film waste, wherein the image film waste is medical image film waste.

  According to the present invention, there are provided a method for processing image film waste by a dispersion liquid preparation step of image film waste, a solid-liquid separation step of the dispersion, and a recovery step of specific base film and a recovery step of silver. For this reason, there exists an effect that a base film and high purity silver can be easily collect | recovered from image film waste at low cost. And since it is a processing method of the image film waste which is not incinerated, there also exists an effect that there is no possibility of having a bad influence on an environment. Therefore, the contribution to the field of disposal of various image films is extremely large.

The image film waste processing method of the present invention comprises an image comprising a polyethylene terephthalate film (hereinafter sometimes referred to as “PET film”) as a base film and a photosensitive layer containing silver salt and collagen. This is a method of treating film waste by the following steps (A) to (E).
(A) A step of cutting the image film waste and dispersing the obtained cut material in water or an alkaline aqueous solution to prepare a dispersion.
(B) A step of solid-liquid separation of the dispersion to obtain a solid and a liquid.
(C) The process of collect | recovering a polyethylene terephthalate film from the said solid substance.
(D) A step of subjecting the liquid to an acid treatment and then solid-liquid separation to obtain a solid and a liquid.
(E) A step of acid-treating the solid obtained in the step (D) and then electrolyzing it to recover silver.

  In the image film waste processing method of the present invention, the image film to be discarded is formed of a base film and a photosensitive layer disposed on the surface thereof. In the present invention, a PET film is used as the base film, and the photosensitive layer is a layer containing silver salt and collagen. Further, if desired, the photosensitive layer may have a layer containing gelatin as a protective layer.

  The thickness of the PET film is usually 0.1 to 0.2 mm, the thickness of the photosensitive layer is usually 0.004 to 0.008 mm, and the thickness of the protective layer is usually 0.001 mm or less. It is. Examples of the silver salt include silver halide (silver bromide, silver chloride, silver iodide, etc.). These silver halides are used as crystals. Collagen is a fibrous protein, and gelatin is denatured collagen. The silver halide contained in the collagen is usually 0.5 to 1.0% by mass.

  The image film waste processing method of the present invention is a photographic film configured as described above, and is applied to an image film that has been developed and has achieved its intended purpose and is no longer needed. As the image film waste to be applied, a medical image film which is discharged in a large amount and has a high demand for disposal can be preferably exemplified. FIG. 1 is a system diagram showing an example of this image film waste processing method. The image film waste processing method of the present invention will be described below with reference to the system diagram shown in FIG.

  In the image film waste processing method of the present invention, first, in step (A), the image film waste is cut, and the obtained cut product is dispersed in water or an alkaline aqueous solution to prepare a dispersion. To do. The cutting may be performed manually or may be mechanical cutting. Usually, it is cut into strips of 3 to 30 × 3 to 30 mm, preferably 5 to 10 × 5 to 10 mm.

  The cut image film waste obtained by cutting is dispersed in water or an alkaline aqueous solution to prepare a dispersion of image film waste strips. The dispersion can be prepared by putting the cut material into water or an alkaline aqueous solution and stirring and mixing. There is no limit to the amount of cut material that can be input.

  In the preparation of the dispersion liquid, a layer containing silver salt and collagen as a photosensitive layer and a layer containing gelatin as a protective layer formed as desired are peeled from a PET film which is a base film for image film waste. This is a process to be performed. As a dispersion medium used for the preparation of the dispersion, water is usually used, but when the above layers are firmly bonded, an alkali metal hydroxide such as sodium hydroxide or potassium hydroxide is dissolved in water. It is preferable to use an alkaline aqueous solution. Although there is no restriction | limiting in particular in the density | concentration of this alkaline aqueous solution, Usually, 2 to 16%, Preferably it is 2 to 6%.

  Moreover, the temperature of the said water or the said alkaline aqueous solution is room temperature (around 25 degreeC)-90 degreeC, Preferably it is 30-85 degreeC. This is because water or an alkaline aqueous solution is preferably in a warmed state, and the peeling can be facilitated by being in a warmed state. The time for stirring and mixing is not particularly limited, but is usually 15 to 90 minutes, preferably 30 to 60 minutes.

  Next, in step (B), the dispersion prepared as described above is subjected to solid-liquid separation to obtain a solid and a liquid. Examples of the solid-liquid separation method include filtration, centrifugation, and standing, but filtration is preferred. As a filter used separately for this filtration, a general-purpose filter such as a normal pressure filter, a pressure filter, a vacuum filter, and the like can be cited. Depending on the cutting state of image film waste, the amount of cut material, etc. A filter and filtration conditions are selected as appropriate.

  Subsequently, in the step (C), the PET film strip used as the base film is recovered from the solid obtained by solid-liquid separation, for example, filtration of the dispersion as described above. At this time, in order to remove impurities adhering to the PET film strips, and to remove alkali when using an alkaline aqueous solution as a dispersion medium when preparing the dispersion, the solids It is preferable to thoroughly wash with water. The collected PET film strip can be reused as a molding material for newly producing a base film.

  On the other hand, in the step (D), as described above, the filtrate obtained by solid-liquid separation, for example, filtration, is subjected to acid treatment and then solid-liquid separation, for example, filtration to obtain a solid (residue). And a filtrate are obtained.

  Next, in the step (E), the solid matter (residue) obtained in the step (D) is again subjected to acid treatment, followed by solid-liquid separation, for example, filtration to obtain a solid matter (residue) and a filtrate, Silver is recovered by electrolyzing the filtrate. The acid treatment is a treatment for obtaining an electrolytic solution, and the electrolysis is an electrochemical treatment for precipitating silver from the electrolytic solution.

  Examples of the acid used for the acid treatment in the steps (D) and (E) include inorganic acids such as nitric acid, hydrochloric acid, sulfuric acid, and phosphoric acid. This acid treatment is performed by, for example, adding 50 to 100 parts by mass, preferably 70 to 100 parts by mass of the acid to 100 parts by mass of the filtrate or the solid (residue), and stirring and mixing. The By these acid treatments, a solution containing silver ions that finally becomes an electrolytic solution is prepared. Although there is no restriction | limiting in particular in the density | concentration of the acid used, Usually, it is 25 to 75%, Preferably it is 30 to 50%.

  The solution containing silver ions thus prepared by acid treatment is subjected to solid-liquid separation, for example, filtration, and the obtained filtrate is subjected to electrolysis as an electrolytic solution. Since the residue obtained by filtration contains gelatin and the like and is not particularly harmful, it is usually discarded as it is. As an electrolysis apparatus used for electrolysis, a general-purpose electrolysis apparatus can be mentioned, and this electrolysis apparatus has an electrolytic cell, an anode electrode, a cathode electrode, and a stirrer.

The electrolysis is carried out by storing the silver ion-containing solution in the electrolytic cell and passing a current at a current density of 1 to 10 mA / cm ² between the anode electrode and the cathode electrode. Silver is deposited on the surface of the anode electrode. This precipitated silver is high-purity silver having a purity of 98% or more and does not require any special refining treatment. For this reason, the precipitated and recovered silver can be reused as it is as a raw material for newly producing silver halide.

  Since the present invention is a method for treating image film waste by the steps (A) to (E), the base film and high-purity silver can be easily recovered from the image film waste at low cost. In addition, since it is a processing method of image film waste that is not incinerated, there is no possibility of adversely affecting the environment. In particular, when applied to medical image film waste, the image film waste processing method can be highly evaluated.

Hereinafter, the present invention will be described more specifically with reference to examples. However, the present invention is not limited to these examples.
(Example)

  Used developing X-ray film (base film: PET film, photosensitive layer: layer containing silver bromide and collagen, protective layer: layer containing gelatin, length 430 mm, width 350 mm, thickness 0.2 mm) Was cut to obtain a cut product of 6 × 6 × 0.2 mm.

  50 g of this cut product was put into 200 ml of 5% aqueous sodium hydroxide solution and stirred and mixed at 85 ° C. for 60 minutes to prepare a dispersion.

  Next, the dispersion prepared as described above was filtered using a normal pressure filter to obtain a solid and a filtrate. Subsequently, the obtained solid was washed with water and dried to collect PET film strips used as the base film. The collected pieces of PET film were reused as a PET film molding material.

On the other hand, 20 ml of 50% nitric acid was added to the filtrate obtained by filtering the dispersion, and the mixture was stirred and mixed at 40 ° C. for 60 minutes for acid treatment, followed by filtration to obtain a residue and a filtrate. Next, 20 ml of 50% nitric acid was added to the obtained residue, and the mixture was stirred and mixed at 40 ° C. for 60 minutes to perform acid treatment. The acid-treated solution is filtered, and the obtained filtrate is accommodated in an electrolytic cell as an electrolytic solution, and electrolysis is performed by passing a current at a current density of 20 mA / cm ² between the anode electrode and the cathode electrode. Carried out. Silver deposited on the surface of the anode electrode was 2 g, and its purity was 98%. This silver was recovered and reused as it was as a raw material for producing silver halide.

It is a systematic diagram which shows an example of the processing method of the image film waste of this invention.

Claims (3)

An image film characterized in that an image film waste comprising a polyethylene terephthalate film as a base film and a photosensitive layer containing silver salt and collagen is processed by the following steps (A) to (E): Waste disposal method.
(A) A step of cutting the image film waste and dispersing the obtained cut material in water or an alkaline aqueous solution to prepare a dispersion.
(B) A step of solid-liquid separation of the dispersion to obtain a solid and a liquid.
(C) The process of collect | recovering a polyethylene terephthalate film from the said solid substance.
(D) A step of subjecting the liquid to an acid treatment and then solid-liquid separation to obtain a solid and a liquid.
(E) A step of acid-treating the solid obtained in the step (D) and then electrolyzing it to recover silver.   2. The image film waste processing method according to claim 1, wherein the photosensitive layer has a layer containing gelatin as a protective layer.   The method for treating image film waste according to claim 1, wherein the image film waste is medical image film waste.

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