SU957101A1 - Synthetic detergent solution washing ability determinaton method - Google Patents

Description

(B) METHOD FOR DETERMINING THE POWER OF ABILITY OF THE SOLUTION OF SYNTHETIC WASHING MEANS

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The invention relates to washing and the chemical industry engaged in the manufacture of household chemicals, and more specifically to methods for evaluating the performance of detergents of synthetic detergents (CMC), and can be used to create new

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The known method 13, which means that the machine is loaded to a minimum capacity with laundry contaminated naturally to degree II with artificially contaminated samples attached, and is filled with a regulated concentration CMC solution. The laundry is done according to the known process conditions. The washing ability of the CMC solution is determined by the degree of washing of the artificially contaminated samples. The level of washing O in one cycle is determined by the formula of Stüpel: - 1s - БЗ

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100 ,

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where B is the whiteness of the tissue sample in

initial state; B — whiteness of the tissue sample after artificial contamination; B. - whiteness of an artificially 3ai- r of a known sample after washing in a CMC solution. The disadvantage of this method of determining the degree of washing of the samples is that they fill 10 to the nominal capacity with naturally soiled linen, the degree of contamination of which is determined visually, therefore, the composition of soils introduced into the CMC from each batch of naturally soiled laundry, different and not quantifiable, which leads to a decrease in the accuracy and reliability of the determination of the washing ability of the CMC.

The closest in technical essence is the method which consists in cutting samples of 120x120 mm in size to determine the quality of washing; because of cooking, previously polluted suspension of a regulated composition (GOST 8051-76): Sunflower oil, refined 0.5 Spindle oil 0, 25 Vaseline oil 0.02 Soot lamp PM-15 0.05 Black pigment (iron oxide) 0.01 Oleic acid 0.4 Sintanol DS-10. 0.01 Ammonia water 0.2 Casein 0.08 Ascorbic acid 0.005 Distilled water Up to 100 The machine is loaded into the nominal capacity with clean materials and artificially contaminated samples attached to them, filled with CMC solution of permentated concentration, and washed and rinsed with a known in a way. The CMC detergency is calculated according to the degree of washing of the network of artificially contaminated samples using the formula (I) f2. The disadvantage of the known method of determining the washing capacity of CMC according to the degree of washing of the samples is that the filler is clean products of nominal capacity, while the concentration of detergents corresponds to the concentration recommended for washing the naturally soiled laundry of the same nominal capacity. This is the reason for the abundant foaming, which leads to a decrease in the mechanical action and reduces the reliability of the assessment of the detergency of the CMC. The purpose of the invention is to increase the information content, accuracy and reliability of the method. The goal is achieved by determining the detergency ability of the OMC solution by applying a contaminant suspension to clean tissue samples followed by washing, which is carried out sequentially until the sample deteriorates, each time the CMC is added to the solution before each wash. suspension (by photometry of the samples, calculation of the detergency capacity of the OMC solution by the formula) and its washing capacity 9 4 judged by the weight of the contaminant suspension. PRI me R 1. Laboratory method. For the test, cotton chiffon, artificially contaminated with a suspension of the composition used in the known process, is taken. The reflectance of the tissue is determined by photometry on a Zeiss meter. The laundry is performed in a laderometer type laboratory washing machine. The machine is a water thermostat with automatically controlled water temperature, in which there is a rotating element consisting of a rotor with eight sockets and two on each side) for installing metal cans with test solutions. Banks are fastened to the nests. The rotor rotates at 0 rpm. The laundry is carried out in metal cans with a capacity of 500 ml, which are closed with metal lids. To create a mechanical impact on the fabric, ten metal balls with a diameter of 5 mm are placed in jars. Before washing, prepare tissue samples and test solutions CMC. Samples of a uniformly soiled fabric of 50x50 mm are measured. With the aid of a leukometer, the reflection coefficient of each sample (on both sides) is determined and the average value is taken. The contaminating suspension added to the washing solution is taken of the same composition in which the samples are contaminated. For each concentration of contamination, three repeated washes are carried out, each time erasing two samples of contaminated fabric. Examine CMC solutions with a concentration of k g / l at and 5 g / l at 85 ° C. The concentration of the contaminant is taken from 0 to 6 g per 1 liter of CMC solution. The laundry is performed as follows. Pour into the tank of the machine tap water to the specified mark. Set the desired temperature on the temperature gauge and turn on the heating system with a thermostat. Ten metal balls are placed in each jar and 50 ml of the tested solutions are poured.

CMC at a temperature of 3-5 ° C above the selected washing temperature. Two numbered and fortometric samples of contaminated tissue are placed in jars. Contaminated concentrations are poured. Close the cans with lids, transfer them to the tank and fix them in the sockets of the rotor, two cans in one row, next. After that, the motor is turned on and the starting time of the wash is marked. Duration of washing is 20 min. At the end of the wash the motor is turned off. Drain the waste solution.

Rinsing tissue samples is carried out in the same jars. For this purpose, 100 ml of water are poured into each jar at 25 ° C after washing at Qy and 50 ° C and after washing at 85 ° C, the jars are closed with lids, transferred to the machine and fixed in the rotor slots, the motor is turned on. and mark the time of rinsing. Rinse duration 2 min.

The second rinse is carried out in the same jars at a water temperature for 2 minutes.

Samples of tissue after rinsing dry, iron between the sheets of filter paper and photometrically.

The amount of washability of tissue samples, by which the detergency of CMC is determined, is determined by the formula 1 1).

The proposed method characterizes such an important property of this CMC as the ability to retain a certain amount of contaminants in a solution — the capacity that you know, can be given scientifically grounded recommendations: on the consumption of CMC at a certain degree of contamination, the products are processed: on the repeated use of CMC solutions.

Using known methods for determining detergency, not wiping Away back 40, 3 38.7 42.7 .3 36.5L1.6 42.8 Capacity, o / o

allows to vary the concentration of the soil in the CMC solution, which does not allow to obtain the value of such an important indicator of any CMC as capacity.

EXAMPLE 2. Production tests.

From a clean, unapproved white cotton fabric, products of a known assortment are made, and samples of the same fabric, 50x50 mm in size, are polluted with a slurry.

Washing; the machine is loaded with items with sewn samples (8 samples) to the nominal capacity, water is poured at a certain temperature, the CMC is filled up with a regulated concentration, and the contaminant suspension is filled with a certain concentration. Wash for 15 minutes. After the end of the wash, rinse and spin are performed.

Samples are sewn, dried, ironed between sheets of filter paper and the amount of washability is determined by the formula D1).

Experiments have shown that the CMC is capable of washing contaminants from the surface of the fabric. Laxity of the tissue occurs in the presence of a certain concentration of contamination. With

when the critical concentration of the contamination is reached, the washability begins to decrease.

An increase in the amount of wash- ing, when adding a contamination, is explained by a decrease in foaming, which is observed when washing a clean filler — without contamination (concentration. Foaming reduces the mechanical effect, which leads to a decrease in washability.

The data of experiments conducted using a known method, are given in table.1.

Table 1 k2.6 39.5, 3 5, i 35.3 7. The use of naturally polluted linen, the composition of the contaminants of which is heterogeneous and quantitatively different from experiment to experiment, leads to a large number of experimental results, which reduces their accuracy and reliability. Standard deviation g S (Xcp - Xi) - n-1 where XCP arithmetic mean value; X is the average value of the washing capacity of each wash; n is the number of washes. Si (0 3) + (0.8-38.7) + (- ° D, 7.) (/ - / tf, 3j (4l, 8 - 3) 1+ (0,, 6) (40, 8) H (/ 40.8-42, 6f + (4Q, 8-39.5), 8-40.3) (40.8-45, (40.8-35.3) 11 Scope of oscillation of results experiments, Rn 46.5-42.3 4.22, i.e., decreased by 2.4 times compared with the known method. The use of a contaminant suspension instead of naturally contaminated underwear reduces the value of the standard deviation by a factor of 6. The method for assessing the detergency of CMC solutions with known shows that the former has a number of advantages in 18 The magnitude of another indicator of experimental results variation, which is on the scale, i.e. R Otah Ornin I where, the extreme values of the washability, in this case is equal to. R 45.4-35.3 10.1 G. This method does not allow to determine the value of the capacity of different CMC, since using It is practically difficult to vary the amount of contamination in a CMC solution in naturally contaminated belts. The use of a contaminant suspension, the composition of which is the same from experiment to experiment, significantly reduces the value of the standard deviation of the experimental results. When washing in a washing machine using a CMC Era automat with a concentration of 5 g / l, a concentration of a contaminant suppression of 0.9 g / l at a temperature of the washing solution of 85 ° C, the data presented in table 2 were obtained. I Table 2 tissue samples of the contaminating suspension followed by washing the samples in the solution of the synthetic detergent, photometric them and calculating the detergency by the formula, characterized in that, in order to increase the informativeness of the method, the samples are washed successively until the sample is deteriorated before each washing, in addition to the portion of the detergent solution, an additional portionwise increasing amount of the contaminant suspension and its detergency are judged by the weight your contaminant suspension.

Sources of information taken into account during the examination 1. Instructions for assessing the quality of washing a washing machine using art 95710110

contaminated samples. M., MZHKH, RSFSR, 1970, p. eleven.

2. Household washing machines. GOST 8051-76, s. 11 (prototype).

Claims (1)

Claim A method for determining the washing ability of a solution of synthetic detergent 'by applying a contaminant suspension to clean tissue samples, followed by washing the samples in a synthetic detergent solution, photographing them and calculating the washing ability according to the formula, characterized in that, in order to increase the information content of the method, the samples are washed sequentially until deterioration, washable ™ samples when synthetic detergent is introduced into the solution before each wash, an additional portion of age the amount of contaminant suspension and its washing ability is judged by the weight amount of the contaminant suspension. 9 957 101 10