RU2760813C1 - Standard samples for metrological support of tests for measuring corrosion activity in dynamic conditions of jet engine fuels - Google Patents

Abstract

FIELD: analytical chemistry.SUBSTANCE: invention relates to analytical chemistry, in particular to standard samples for measuring corrosion activity under dynamic conditions of jet engine fuels. Standard samples for metrological support of tests for measuring the corrosion activity of jet engine fuels under dynamic conditions containing chemically pure decalin and 1-methylphanthaline additionally contain dodecane, with the following component ratio, wt.%: dodecane 70.00-85.0, decalin 11.5-29.5, 1-methylnaphthalene the rest.EFFECT: increase in the reliability of the results of measuring the corrosion activity of jet engine fuels under dynamic conditions and reducing the duration of the certification process of the CITO-M installation, which determines the corrosion activity of jet engine fuels under dynamic conditions, expanding the range of standard samples for metrological support of petrochemicals tests.1 cl, 4 tbl

Description

The invention relates to analytical chemistry, in particular to standard samples for measuring corrosivity in dynamic conditions of fuels for jet engines, and can be used as a means of metrological support of a method for measuring corrosivity in dynamic conditions of fuels for jet engines during their production and use ...

Metrological support for testing petroleum products is based on certified reference materials, which act as a measuring instrument in the form of a certain amount of a substance or material, designed to reproduce and store the dimensions of quantities characterizing the composition or properties of this substance (material), the values of which are established as a result of metrological certification , used to transfer the size of a unit during verification, calibration, calibration of measuring instruments, certification of measurement procedures [GOST 8.315-97 Standard samples of composition and properties of substances and materials].

A known technique for measuring corrosivity in dynamic conditions of fuels for jet engines, that is, their propensity to corrode metals and alloys and the formation of insoluble corrosion products that cause fuel contamination. The essence of the technique is to assess the corrosiveness of the fuel by the loss of mass of a copper or bronze plate after its contact with the fuel circulating through the closed test loop of the CITO-M installation for 9 hours (three stages of 3 hours each) at a temperature of 150 ° C and by changing fuel temperature behind the control filter element during the first stage of testing [STO 08151164-0246-2017 Fuel for jet engines. Method for assessing corrosivity under dynamic conditions. - M .: FAU "25 State Research Institute of Chemotology of the Ministry of Defense of Russia", 2017]. The results of testing a fuel sample by this method are obtained in the form of four indicators:

- indicator of the corrosivity of fuel K _{1 (m)} in relation to copper, g / m ² ;

- indicator of the corrosivity of fuel K _{1 (br)} in relation to bronze, g / m ² ;

- indicator of plugging of the control filter element with corrosion products K _{2 (m)} in relation to copper;

- indicator of plugging of the control filter element with corrosion products K _{2 (br)} in relation to bronze.

According to this technique, the results obtained are compared with the results obtained under identical conditions on standard samples, which are prepared before each test of the next sample.

The authors were faced with the task of creating standard samples of fuels for jet engines for measuring corrosivity in dynamic conditions according to the method of STO 08151164-0246-2017.

When analyzing the sources of scientific, technical and patent information, the authors were unable to identify technical solutions that can be used as standard samples of fuels for jet engines when determining corrosivity in dynamic conditions according to the method of STO 08151164-0246-2017.

Nevertheless, some technical solutions have been identified that are closest in technical essence to the invention, which are compositions of individual hydrocarbons taken in the ratios necessary to obtain the required measurement results using the appropriate techniques.

Known composition of standard samples for determining the fractional composition of liquid hydrocarbon fuels [Patent RU 2292041, cl. G01N 25/00], which is a mixture containing a minimum amount of hydrocarbon components, one of which is a petroleum product containing an aromatic hydrocarbon, and the remaining components are paraffinic hydrocarbons of normal structure. It is proposed to use toluene or transformer oil as an aromatic hydrocarbon, and n-nonane, n-undecane, n-pentane, n-dodecane, n-tetradecane, n-decane and n-eicosane as paraffinic hydrocarbons of normal structure. The mixture is prepared with corresponding to each of the investigated fuels indicators of temperatures of the beginning, end of distillation and 10, 50, 90% distillation. The developed standard samples can be used to determine the fractional composition of liquid hydrocarbon fuels.

Known composition of standard samples for setting and checking instruments for express control of temperatures of the beginning and end of the distillation of light petroleum products [Patent RU 2030742, cl. G01N 31/00], which is a mixture of individual hydrocarbons, includes n-octane, n-nonane, n-undecane, n-dodecane, n-pentadecane. The developed standard samples are used for metrological certification of test methods and devices for monitoring the composition and properties of substances, namely for checking and adjusting the NKP-E express analyzer designed to determine the temperatures of the beginning and end of the distillation of gasolines, diesel fuels, fuels for jet engines and other petroleum products. ...

Known composition of standard samples for metrological support of testing motor gasolines in assessing their tendency to form deposits on the parts of the nozzles [Patent RU 2663154, class. G01N 33/22], which is a mixture of individual hydrocarbons, includes hydrocarbons n-pentane, octene-1, toluene, cyclohexane, isooctane, which are most often found in the gasoline produced. The content of the components of the mixture is determined in such a way as to provide test results in the range of the upper and lower limits of the definition of the installation.

The closest in technical essence and taken as a prototype is a technical solution, according to which standard samples are known, consisting of chemically pure hydrocarbons decalin, 1-methylnaphthalene and "-undecane with the following ratio of components, (wt.%): Decalin (12-23) , 1-methylnaphthalene (2-5), n-undecane (the rest), which are used for metrological support of tests to measure the chemical stability of fuels for jet engines (patent No. according to application No. ).

The standard sample of the corrosiveness of jet fuels under dynamic conditions is supposed to be used for metrological control of the test methods according to STO 08151164-0246-2017 in order to determine the compliance of the metrological characteristics with the established requirements, as well as for certification of the used test equipment (laboratory unit CITO-M). In this regard, the developed reference material should be a mixture of individual hydrocarbons, adequate to the chemical composition of fuels for jet engines.

The composition of the standard sample of the corrosivity of fuels for jet engines under dynamic conditions is selected in such a way as to ensure the values of corrosivity indicators in the range of values determined by the methodology STO 08151164-0246-2017 (Table 1 of the present invention).

In terms of quantitative composition, the closest is any standard sample containing chemically pure hydrocarbons, each of which has limitations in the field of application.

The technical result of the invention is to increase the reliability of the results of measuring the corrosivity of fuels for jet engines under dynamic conditions and reduce the duration of the certification process of the CITO-M installation, on which the corrosiveness of fuels for jet engines is determined under dynamic conditions, expanding the range of standard samples for metrological support of testing petroleum products.

The specified technical result is achieved by the fact that standard samples for metrological support of tests for measuring the corrosivity of fuels for jet engines under dynamic conditions, containing chemically pure decalin and 1-methylnaphthalene, according to the invention additionally contain dodecane, with the following ratio of components, wt%:

dodecane 70.0-85.0 decalin 11.5-29.5 1-methylnaphthalene rest

Hydrocarbons of various structures produced by the industry of the Russian Federation were used as components of standard samples.

Indicators of corrosivity under dynamic conditions of individual hydrocarbons used as components for the preparation of standard samples (dodecane, decalin and 1-methylnaphthalene) are presented in table 2 of the present invention.

The qualitative composition of the components of standard samples is due to the fact that the structure of organic compounds affects the corrosivity of fuels. The selected components of reference materials are compounds present in the composition of fuels for jet engines, which is confirmed by studies of the individual and group composition of fuels for jet engines produced by various technologies [Yanovskiy LS, Dubovkin NF, Galimov FM. and other Engineering foundations of aviation chemotology. - Kazan: Publishing house Kazan, un-that, 2005. S. 210-227].

Each of the components is an individual hydrocarbon [Chemical encyclopedia in five volumes. Publishing house "Soviet Encyclopedia", 1990]:

dodecane is a colorless liquid with a density of 750 kg / m ³ , melting point - minus 9.6 ° C, flash point 74 ° C;

decalin is a colorless liquid with a weak gasoline odor, having a density of 870 kg / m ³ , a melting point - minus 31.5 ° C, a flash point of 58 ° C;

1-methylnaphthalene is an anhydrous and pinkish liquid with a density of 1020 kg / m ³ , a melting point of minus 141.5 ° C, and a flash point of 82 ° C.

Standard samples are prepared by mixing and thorough mixing of individual hydrocarbons. The samples were subjected to laboratory tests according to the method of STO 08151164-0246-2017, according to which they circulate through a closed test loop of the CITO-M installation for 9 hours at a temperature of 150 ° C, where they are in contact with a metal plate made of copper or bronze. The corrosiveness of the fuel is assessed by the decrease in the mass of the plate before and after the test, and by the change in the temperature of the fuel behind the control filter element [STO 08151164-0246-2017 Fuels for jet engines. Method for assessing corrosivity in dynamic conditions. - M .: FAU "25 State Research Institute of Chemotology of the Ministry of Defense of Russia", 2017].

To substantiate the quantitative content of components in standard samples, samples were prepared, the composition of which is presented in Table 3.

As follows from the test results presented in table 3, the values of the indicators of plugging of the control filter element by corrosion products K _{2 (m)} and K _{2 (br} ) of sample No. 1 do not correspond to the measurement range of these indicators (see table 1 of the present invention), therefore the composition cannot be used as a standard sample for metrological support of tests to measure corrosivity in dynamic conditions of fuels for jet engines.

Samples No. 8-9 in terms of the corrosivity of fuel K _{1 (m)} do not fall within the measurement range determined by the methodology STO 08151164-0246-2017, therefore, their compositions cannot be used as standard samples.

Samples No. 2-7 for four indicators of corrosivity in dynamic conditions correspond to the measurement range, which is determined by the method of STO 08151164-0246-2017 (see table 1 of the present invention). Therefore, the quantitative and qualitative composition of reference materials for metrological support of tests to measure corrosivity in dynamic conditions of fuels for jet engines corresponds to the compositions of samples 2-7.

Thus, the qualitative and quantitative composition of reference materials for measuring corrosivity under dynamic conditions of jet fuels was confirmed by the test results.

To determine the shelf life of reference materials for metrological support of tests to measure corrosivity in dynamic conditions of fuels for jet engines, the shelf life of each of the components of reference materials was initially assessed. The smallest shelf life (according to the petrochemical plants - component manufacturers) among all the components used was one year. However, each of these components (according to the petrochemical factories - component manufacturers) has its own shelf life. Therefore, to determine the shelf life of the developed standard samples, studies were carried out to assess the compatibility of their components.

Verification of the expected shelf life of standard samples for metrological support of tests to measure corrosivity in dynamic conditions of fuels for jet engines was carried out using the algorithm given in clause 5.3 of the recommendations [RMG 93-2015 State system for ensuring the uniformity of measurements. Evaluation of the metrological characteristics of reference materials. - M .: Standartinform, 2016. - 32 p.], According to which 9 copies of standard samples are thermostated at an elevated temperature (50 ° C), that is, they are subjected to artificial aging. Every 7 days, one sample is taken and tests are carried out to measure corrosivity in dynamic conditions with measurement of corrosivity indicators K _{1 (m)} and K _{1 (br)} , plugging of the control filter element with corrosion products K _{2 (m)} and K _{2 (br)} The results obtained are compared with the certified values of the standard sample, taking into account the margin of error. The certified values of the standard sample and the margin of error of the certified value were also determined in accordance with [RMG 93-2015 State system for ensuring the uniformity of measurements. Evaluation of the metrological characteristics of reference materials. - M .: Standartinform, 2016. - 32 p.].

The shelf life of standard samples for metrological support of tests for measuring corrosivity in dynamic conditions of fuels for jet engines was estimated using a sample that contains the maximum amount of dicycloalkane decalin, which is most prone to oxidative transformations, and the minimum amount of 1-methylnaphthalene, the most stable aromatic hydrocarbon. The results of measurements of corrosivity under dynamic conditions of 9 samples of the reference material No. 2 (according to Table 3), held for different times at 50 ° C, as well as the certified values and the error limits of the certified values of the reference material are shown in Table 4 of the present invention.

The deviations of the test results of the standard sample held at an elevated temperature from the certified value turned out to be within the range of error limits of the certified value. Thus, the minimum shelf life of standard samples of corrosive activity under dynamic conditions of fuels for jet engines is assumed to be one year.

The shelf life of standard samples with the preservation of their properties - at least one year - is ensured by the use of non-volatile components with boiling points in the range of 186-245 ° C (table 2 of the present invention).

The obtained standard samples are stored in amber glass vials with a sealing cap with a volume of 2500 ml under normal conditions (temperature not exceeding 25 ° C) and are used as needed for qualification of test equipment. One year warranty.

The results obtained indicate the possibility of using the developed standard samples for measuring the corrosivity in dynamic conditions of fuels for jet engines according to STO 08151164-0246-2017.

The invention is feasible and reproducible, and the essential features of the invention (qualitative and quantitative composition), given in the claims and confirmed by the test results, make it possible to increase the reliability of ranking jet fuels by the level of corrosivity by bringing the values of corrosivity indicators of reference materials closer to similar indicators of fuels for jet engines.

The present invention creates a technical basis for reproducing, storing and transferring values characterizing the corrosivity in dynamic conditions of jet fuels and can be used for certification and control of accuracy indicators of the method for measuring corrosivity in dynamic conditions of jet fuels in accordance with STO 08151164-0246-2017 , for certification of test equipment used to measure corrosivity in dynamic conditions of fuels for jet engines, control of the accuracy of measurement results in accordance with STO 08151164-0246-2017, verification of the competence of the testing laboratory in the accreditation process, conducting interlaboratory comparative tests to verify the proficiency of testing laboratories.

Claims (2)

Standard samples for metrological support of tests for measuring the corrosivity of fuels for jet engines under dynamic conditions, containing chemically pure decalin and 1-methylnaphthalene, characterized in that they additionally contain dodecane at the following ratio of components, wt%: dodecane 70.0-85.0 decalin 11.5-29.5 1-methylnaphthalene rest