RU2479036C1 - Method to recognise and identify batches of commercial petrols - Google Patents

Abstract

FIELD: information technologies.

SUBSTANCE: method consists in measurement by a producer for each initial component used for making a batch of commercial petrol, and a batch of finished commercial petrol, of the values of dielectric permeability and specific electric conductivity with reduction to temperature of accounting, generation and application of an identifying mark onto support documents, publication of data on the issued batch of commercial petrol in public sources of information, inspection by a receiver of compliance of the identifying mark applied onto the supporting documents and the identifying mark specified in the published data, the control measurement by the receiver of the values of dielectric permeability and specific electric conductivity of commercial petrol and inspection of the received results by means of reference to the information resource.

EFFECT: provision of permanent and well-defined monitoring of quality of produced batches of commercial petrols.

6 cl, 1 dwg

Description

The present invention relates to the field of quality control and logistics of petroleum products, namely commercial gasoline.

The well-known need for quality control of petroleum products, primarily gasoline, prevents the mass appearance on the market of products of inadequate quality, counterfeits for products of large manufacturers, unaccounted for products manufactured outside production control. Quality control is closely related to the control of the movement of consignments of commercial gasoline, which prevents theft and substitution of products. Known control due to the introduction of gasoline chemical markers that change the color of gasoline, which is not effective enough due to the comparative ease of imitation of the marker. The most effective way to control the quality of gasoline is to measure its chemical and / or physical characteristics. Effective is the quality control of gasoline, based on the measurement of electrophysical parameters (dielectric constant, electrical conductivity), interrelated with the qualitative composition of gasoline, known, for example, from patent US 6869013, published March 22, 2005, and also from patent RU 2305283, published on August 27, 2007 . These patents do not describe the methodology of gasoline quality control, both in production and in its promotion through warehouse and retail chains.

The present invention will eliminate the disadvantages of the known control methods, providing constant and unambiguous quality control of produced batches of commercial gasoline at the production stage, transport and storage enterprises, wholesale and retail enterprises.

The basis of the proposed method for the recognition and identification of consignments of marketable gasolines is the measurement by the manufacturer for each of the starting components used to manufacture the consignment of marketable gasoline, and the finished batch of marketable gasoline, the dielectric constant and electrical conductivity, respectively, for each of the starting components and the finished marketable gasoline. The indicated electrophysical characteristics serve as complex parameters of product quality and components used.

The manufacturer generates an identifying label, including the measured values of the dielectric constant and electrical conductivity, reduced to the metering temperature, as well as the value of the frequency at which the measurements were made. In addition to the measured values of the electrophysical characteristics: dielectric constant and electrical conductivity, the identifying label includes the brand code of the gasoline, batch number, production date of the batch of marketable gasoline, recipe number, list of starting components, the actual octane number according to the research and / or motor batch method of marketable gasoline; the code of each of the starting components used for the manufacture of a batch of marketable gasoline, the forecast octane number by the research and / or motor method and the mass fraction in the marketable gasoline of this batch for each of the starting components used to manufacture a batch of marketable gasoline. An identifying label in the form of a bar code or another combination of letters, numbers and / or other symbols is applied to the accompanying documentation of the finished consignment of commercial gasoline. The manufacturer publishes in publicly available information sources, mainly on its own website, information about the released batch of finished commercial gasoline, including an identifying label, measured values of dielectric constant and electrical conductivity.

The recipient of a consignment of commercial gasoline (transport company, warehouse terminal, wholesale and retail enterprises, as well as the centralized quality control service) checks the conformity of the identifying mark, the accompanying documentation of the consignment of finished commercial gasoline, and the identifying mark indicated in the information published by the manufacturer about the released lot ready-made commercial gasoline. The control receiver measures the dielectric constant and electrical conductivity of the finished commodity gasoline of a given lot by the recipient of the batch of ready-made gasoline and then checks the results of the control measurement by the recipient of the marketable gasoline batch by referring to the information resource allocated for these purposes. Verification of the results of the control measurement can be performed by referring to the information on the released batch of finished commercial gasoline published by the manufacturer in publicly available information sources or by contacting the means of automated quality assessment with the initial data - the results of the control measurement.

The proposed method is as follows (see diagram).

For gasoline components obtained during the production cycle of oil refineries, the electrophysical parameters are constantly monitored: dielectric constant and electrical conductivity with reference to the temperature of measurement, the measured values are entered into the production database. A similar control of the dielectric constant and electrical conductivity is performed for batches of ready-made commercial gasoline obtained by mixing the components, the obtained data are also entered into the production database. Thus, for each batch of commercial gasoline sold by the refinery, the values of dielectric constant and electrical conductivity are known, in addition, the values of the electrophysical characteristics for the starting components used in the manufacture of the batch of commercial gasoline are also known. Since the electrophysical characteristics of commercial gasoline are interconnected with the electrophysical characteristics of the starting components used to obtain a consignment of commercial gasoline according to a proportionally additive law (the characteristics of the finished product are composed of the characteristics of the components in the proportions of their concentrations), further operations to recognize and identify batches of commercial gasoline with forecasting gasoline quality parameters.

For each batch of commercial gasoline, the manufacturer 1 forms an identifying label 1 ₂ , including the measured values of the dielectric constant and electrical conductivity 1 ₁ . In most cases, the label will be a numerical sequence displayed as a barcode; it is also possible to display the label as a sequence of characters. In addition to the listed values of the electrophysical characteristics, the identifying label includes the brand code of gasoline, batch number, production date of a batch of commercial gasoline, recipe number, a list of initial components, the actual octane number according to the research and / or motor batch method of commercial gasoline; the code of each of the starting components used for the manufacture of a batch of marketable gasoline, the forecast octane number by the research and / or motor method and the mass fraction in the marketable gasoline of this batch for each of the starting components used to manufacture a batch of marketable gasoline. The listed information is published 1 ₃ on the website of the enterprise, including a list of identifying tags. Thus, at the production stage, the quality of produced marketable gasoline is uniquely controlled.

Lots of commercial gasoline are sold to wholesale buyers. Recipient of a consignment of commercial gasoline 2: a transport company, a warehouse terminal, wholesale and retail enterprises, as well as centralized product quality control services, can at any time perform quality control of the supplied commercial gasoline, which will reveal the delivery of products of inadequate quality, as well as theft or substitution of supplied products . During the control, first of all, the conformity of the identification tag of the accompanying documentation and the tags presented on the website of the refinery 2 _{1 is} checked, thereby cutting off the “gross” falsifications of the delivered consignment. Then, the electrophysical characteristics of the incoming consignment of marketable gasoline 2 ₂ are monitored: dielectric constant and electrical conductivity with reference to the metering temperature. The measurement results are verified 2 ₃ according to information on the website of the refinery, respectively, the identity of the batch of gasoline and the quality of gasoline itself are determined, thus eliminating the possibility of falsifications when changing batches, using low-quality raw materials during theft, etc. A similar check, in case of difficulties in Internet connection, can be carried out by contacting the means of the calculated automated quality assessment with the initial data - the results of the control measurement of electrophysical characteristics.

Thus, a constant and unambiguous method for controlling the quality of marketable gasolines is proposed both at the production stage and at the product sales stage.

Claims (6)

1. The method of recognition and identification of consignments of commercial gasoline, including
measurement by the manufacturer for each of the starting components used for the manufacture of a batch of marketable gasoline and a batch of finished marketable gasoline, the values of dielectric constant and electrical conductivity with reference to the temperature of accounting
the formation and application by the manufacturer of the accompanying documentation of the finished batch of marketable gasoline identifying labels, including the measured values of the dielectric constant and electrical conductivity, as well as the frequency at which the measurements were made;
publication by the manufacturer in publicly available sources of information, mainly on its own website, of information on the released batch of finished commercial gasoline, including an identifying label, the measured values of the dielectric constant and electrical conductivity, as well as the frequency at which the measurements were made;
verification by the recipient of a consignment of commercial gasoline of the conformity of an identifying mark applied to the accompanying documentation of a finished consignment of commercial gasoline and an identifying mark indicated in the information published by the manufacturer about the released consignment of commercial gasoline,
control measurement by the recipient of a consignment of marketable gasoline of the values of dielectric constant and electrical conductivity of commercial gasoline of a given party,
verification by the recipient of a consignment of commercial gasoline the results of the control measurement by referring to the information resource allocated for these purposes. 2. The method according to claim 1, characterized in that the identification tag includes
brand code, batch number, production date of a batch of marketable gasoline, recipe number, list of starting components, actual octane number by research and / or motor method of a batch of marketable gasoline;
the code of each of the source components used for the manufacture of a batch of commercial gasoline,
the forecast octane number by the research and / or motor method and the mass fraction in the commercial gasoline of a given batch for each of the starting components used for the manufacture of a batch of commercial gasoline. 3. The method according to claim 1 or 2, characterized in that the identification label applied to the accompanying documentation of the finished batch of commercial gasoline is a barcode. 4. The method according to claim 1 or 2, characterized in that the identification label applied to the accompanying documentation of the finished batch of commercial gasoline is a combination of letters, numbers and / or other symbols. 5. The method according to claim 1, characterized in that the verification of the results of the control measurement is performed by referring to the information on the released batch of commercial gasoline published by the manufacturer in publicly available information sources. 6. The method according to claim 1, characterized in that the verification of the results of the control measurement is performed by contacting the means of automated quality assessment with the source data - the results of the control measurement.