SU1191876A1 - Method of regenerating triacetate base of cine film - Google Patents

Abstract

METHOD FOR REGENERATING THE TRIACETATE BASIS OF THE MOVIE PHOTO FILM treatment with an aqueous solution of Universal Bleach for 1-2 minutes, characterized by the fact that, in order to improve the quality of the regeneration of the base while maintaining the amount of recoverable silver, the film is pre-incubated for 6-55 minutes at 20-25 0 in an aqueous solution containing potassium manganic acid, potassium dichromic acid, concentrated sulfuric acid and concentrated nitric acid, and treated at 96-98 ° C in a solution containing additionally oxalic and sulfuric or hydrochloric acid, in the following ratio ingred Solutions of solutions: Potassium manganic acid, g 0.12-1.0 Potassium dichromate, g 0.5-4.0 Sulfuric acid is concentrated8-20 per, ml Nitric acid is concentrated2-110 per, ml To 0.4-0.6 Water, l Universal Bleach, g Oxalic acid, 3-0.8 lots, g Sulfuric acid, concentrated 40-70 na, ml or CO 00 hydrochloric acid concentrated-170%, ml To 1 Water, l Od

Description

The invention relates to a technology for processing films on triacetate film, more precisely to methods for regenerating the basis of a used or rejected film.

The purpose of the invention is to improve the quality of the regeneration of the base while maintaining the amount of recoverable silver.

The essence of the invention is that appropriate selection of the acid combination and an increase in the treatment temperature while maintaining bleaching agent concentration and residence time in the solution created conditions for the effective separation of the emulsion layer and the sublayer from the triacetate base without destroying silver.

The chemistry of the image taking process is as follows: in the presence of sulfuric acid and potassium permanganate, silver from the black-and-white image is converted to silver sulfate, which is soluble in nitric acid, partly in water, and partly in sulfuric acid. A part of silver sulfate enters an exchange reaction with potassium bichromate, forming silver dichromate, which is dissolved in nitric acid. Thus, the bulk of the silver goes into solution. The remaining part of the silver (4-5%) is removed in the second stage of the removal of the gelatin emulsion from the base.

Example 1. Through a glass of glass with 1000 ml of solution 1 containing 20 MP HjSO conc .; 10 ml of HNOj conc., 1 g of KMnOi, 4 g of 1000 ml, at 20 ° C, the developed film film is drawn (by weight

500 g) so that it passes, experiencing vibration, the reaction space for 6 minutes. During this time, film is removed from the film. The film is washed with water and drawn through a second beaker with 2500 ml of an aqueous solution of 2 containing 70 ml of conc., 1000 ml and with 170 ml of HC1 conc .; FIjO GOOO SP, 2-g oxalic acid and 1.5 g Universal Bleach. The solution is heated to 96. The film is drawn in such a way that it passes, experiencing vibration, the reaction space for 2 minutes. The film that is taken out of solution is washed and dried.

Solution 1 is fed to silver from it by one of the known methods, for example, using sodium sulphide, neutralization with an alkali metal hydroxide (silver precipitates as Ag O) or electrolysis.

The pulp and washings which form the basis of solution 2 are fed to additional sedimentation and precipitation of silver by one of the known methods.

Extraction of silver to waste, by optical measurements of solutions i is 100%.

Example 2. The processing of film films is carried out as in example 1, but the processed film is crushed to pieces with a size in the diameter of 5-20 mm and treated in solutions 1 and 2 in parts.

Example 3. Through a vessel of acid-resistant plastic with 1000 ml of solution 1, containing 16 ml of H2SO4 conc., 8 ml of SO conc .; 0.7 g KMp04; 3 g K ,, Cr20.,; to 1000 ml, when film film is pulled (by weight 360 g) so that it passes, experiencing vibration, the reaction space for 17 minutes, and through the second vessel from 1800 ml of solution 2 containing, ml: conc. 50; 1000 or HC1 conc. 100; 1000, including 1.08 g of oxalic acid and 0.9 g of Universal Bleach, heated to, for 2 minutes. Otherwise, the treatment was carried out in Example 1.

Example 4. Through a vessel with 1000 ml of solution 1 containing 10 ml of conc .; 5 ml HNOj conc .; 0.5 g 2 g, up to 1000 ml, with a film film (240 g by weight) is drawn in such a way that it passes, experiencing vibration, the reaction space for 25 minutes, and through the second vessel with 1200 ml of solution 2 specified in example 3, with - for, 5 minutes

Otherwise, the processing is carried out according to example 1.

Example 5. Through a vessel with 1000 ml of solution 1 containing 8 ml of conc .; 4 ml HNOj conc .; 0.25 g KMp04; 1 year; HjO up to 1000 ml, at 24 C, film film is transported (by mass, l / 120 g) so that it passes, experiencing vibration, the reaction space during 37 missions, and through the second vessel with 600 ml of solution 2 containing, ml HgSO conc. 40; HjO 1000 or HC1 conc. 85; HoO lOOOj containing 0.24 oxalic acid and 0.27 g of Universal Bleach, heated to 1.5 min. Otherwise, the treatment is carried out as in Example 1. Example 6. Through a vessel with 1000 ml of solution 1 containing 8 ml of HjSO, conc; 2 ml of HNQ conc .; 0.12 g KMp04; 0.5 g of HjO up to 1000 ml, with a film film being drawn (by mass, l 60 g) so that it is pro- tected by vibrating the reaction space for 55 minutes, and through the second vessel with 300 ° ml of solution 2 containing ml: conc. 40.NLO 1000 or HC1 conc. 85; 1000, including 0.09 g of oxalic acid and 0.12 g of bleach Univer-. greasy, heated to, for 1 min. Otherwise, the treatment is carried out according to Example I. The percentage of saponification of CeLet triacetate is determined by dissolving a portion of the washed base in a mixture of 88Z methylene chloride, 9.8% methanol and 2.2% n-butanol, in which cellulose does not dissolve, and weighing residue from dissolution. The example data for extreme and average content of ingredients of processed solutions, including options for technical equivalents, are listed in the table.

Claims (2)

METHOD FOR REGENERATING A TRIACETATE BASIS FOR FILM FILM, incl. which finishes treatment with an aqueous solution of bleach Universal for 1-2 minutes, distinguishing with the fact that, in order to improve the quality of regeneration of the main, while maintaining the amount of recoverable silver, the film is preliminarily held for 6-55 minutes at 20-25 ° C in an aqueous solution, containing potassium permanganate, potassium dichromate, sulfuric acid concentrated and concentrated nitric acid, and treated at 96-98 ° C in a solution containing additional oxalic and sulfuric or hydrochloric acids, in the following ratio of ingredients Potassium permanganate solutions, g Potassium dichromate, Sulfuric acid concentrated g, ml Concentrated nitric acid, ml Water, l Universal bleach, g Oxalic acid, g Sulfuric acid, concentrated. Naya, ml or concentrated hydrochloric acid, ml Water, l 0.12-1.0 0.5-4.0 8-20 2-1 ° Up to 1 · 3 0.4-0.6 0.3-0.8 40-70 85-170 Up to 1 SU „.1191876