RU2137111C1 - Method identifying grade of commercial gasoline and device to implement it - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: comparison sample of gasoline displaying excitation and radiation spectrum and stable value of output fluorescence is calibrated by value of intensity of fluorescence of standard grades of commercial gasoline. Then fluorescence is excited within limits of halfwidth of excitation band in comparison sample and in sample of identified gasoline. Integral value of intensity of fluorescence of identified gasoline and comparison sample is recorded in dark blue-green region of spectrum. Relation of measured values is determined and used to find out grade of identified gasoline by comparing obtained relation with value of fluorescence of standard grades of gasoline taken as unit. Device for implementation of method has comparison sample, mechanism of reciprocating motion where comparison sample and sample of gasoline to be identified are fixed. EFFECT: simultaneous increase of accuracy and authenticity of measurement results, simplified design of device. 5 cl, 2 dwg

Description

 The invention relates to the field of measuring equipment and is intended for use in industries related to the production and use of petroleum products, and mainly at stationary and mobile points of commercial sale of commercial gasoline and motorists in road conditions.

 A known method of identifying brands of commercial gasoline, including the excitation of fluorescence and registration of its intensity [1]. Fluorescence of commercial gasolines is excited with a wavelength of 337 nm and a spectral distribution of radiation intensity is observed depending on the wavelength of the emitted fluorescence light. The emission spectra of commercial A-76 and AI-93 gasolines are identical in position of the maximum fluorescence wavelengths and half-width of the emission band and differ in intensity in the maximum fluorescence, which makes it possible to identify brands of commercial gasolines.

 The disadvantage of this method is that the excitation of gasoline samples is not at the maximum of the excitation spectrum of gasoline fluorescence, but at its long-wavelength edge, which necessitates the use of a powerful fluorescence excitation source, for example, a nitrogen laser, which complicates the implementation of the method.

 A device is known for identifying a brand of commercial gasoline [1], comprising an optical fluorescence excitation system including a light source, a sample placement means and a fluorescence intensity recording system including a monochromator, a photodetector, the output of which is connected to an amplifier, and an indicator.

 A disadvantage of the known device is that it is a stationary installation, which is difficult to configure and use for work in road conditions due to the fact that, for example, an ultraviolet nitrogen laser is used as a source of fluorescence excitation. To achieve reproducible measurement accuracy during operation, frequent instrument tuning is required; special training of staff is also needed.

 A known method of identifying brand of commercial gasoline [2], the closest to the proposed solution to the technical problem, including the excitation and registration of fluorescence of commercial gasoline, converting the fluorescence intensity into electrical signals, the value of which is identified.

 The disadvantage of this method is the low accuracy and reliability of the measurement results due to the fact that the fluorescence of commercial gasoline is excited in the region of 420 nm, and the intensity value is recorded at 425 and 450 nm. The recorded intensity value at a wavelength of 425 nm can be significantly distorted due to the excitation light entering the photodetector from the region of 420 nm, and further multiplication of the converted electrical signals at 425 and 450 nm increases the error in determining the measured signal value.

 A device for identifying brands of commercial gasoline, which is the closest to the proposed invention to solve the technical problem [2]. The device comprises an optical fluorescence excitation system, including a light source sequentially located on its optical axis, a first optical filter and means for locating a sample of identifiable commercial gasoline, a fluorescence intensity registration system, including a second optical filter and a photodetector, the output of which is connected to the amplifier, and indicator. The device is based on a method that includes the excitation and registration of the fluorescence intensity of gasoline, allows identification of the brand of gasoline. The gasoline fluorescence is excited in the region of 420 nm, and the intensity value is recorded at 425 and 450 nm, while highlighting the aforementioned excitation and observation regions with interference filters, the optical excitation path being at right angles to the direction of fluorescence observation with a maximum of 425 and 450 nm, the amplitudes of electrical signals corresponding to both intensities are recorded using two photomultipliers. The amplified and multiplied values of electrical signals are then read from the indicator scale, graduated from a gasoline sample with a known octane number.

 A disadvantage of the known device is its low accuracy and reliability during measurements due to the fact that the excitation is carried out in the region with a maximum of 420 nm, and the first fluorescence amplitude of a gasoline sample is recorded already at 425 nm, which can distort the value of the recorded intensity due to the incomplete elimination of exciting light. In addition, the device is not portable and autonomous, therefore, cannot be used for work in road conditions. The presence of interference filters in the device complicates and increases the cost of this device.

 The main task, the claimed method and device for identifying the brand of commercial gasoline is aimed at, is to increase the accuracy and reliability of the results of determining the brand of commercial gasoline in road operating conditions, as well as simplifying the design of the device.

 The only technical result achieved by the implementation of the claimed invention is the simultaneous increase in the accuracy and reliability of measurements and simplification of the design of the device.

 The specified technical result is achieved by the fact that in the known method of brand identification of commercial gasoline, including the excitation of fluorescence and registration of its intensity, according to this invention, the used comparison sample having a spectrum of excitation and radiation in the field of excitation and radiation of gasoline and a stable value of the fluorescence output, is calibrated by value the fluorescence intensities of the reference gasoline trademarks, then excite within half the width of the excitation band fluorescence in about the comparison sample and in the identifiable gasoline, after which the integral value of the fluorescence intensity of the identifiable gasoline and the reference sample are recorded in the blue-green region of the spectrum, then the ratio of the measured values is determined and the brand of identifiable gasoline is judged by comparing the obtained ratio with the fluorescence of the reference grades of gasoline accepted for a unit.

 The specified technical result in particular cases is achieved by the fact that fluorescence is excited in the wavelength range of 230 - 320 nm, and recorded in the range of 400 - 600 nm.

 The specified technical result is achieved in that in a known device for identifying a brand of commercial gasoline containing an optical fluorescence excitation system, including a light source sequentially located on its optical axis, a first optical filter and means for locating a sample of identifiable gasoline, and a fluorescence intensity recording system including sequentially located on its optical axis, a second optical filter and a photodetector, the output of which is connected to an amplifier, and the ikator, according to this invention, the device further comprises a comparison sample having a stable fluorescence yield and a spectrum of excitation and radiation in the field of gasoline excitation and fluorescence, and a reciprocating movement mechanism, on the movable element of which a comparison sample and means for placing a sample of identifiable gasoline are fixed, and having the ability to install alternately at the point of intersection of the optical axes of the excitation and registration systems, and the wavelength pass The first optical filter is selected in the ultraviolet range, and the second in the blue-green region of the fluorescence spectrum.

 The specified technical result in particular cases of a specific implementation is achieved by the fact that the transmission wavelength range of the first optical filter is 230-320 nm, and the second 400-600 nm.

The specified technical result in particular cases of a specific implementation is achieved by the fact that the angle between the optical axes of the excitation and registration systems does not exceed 45 ^o .

 The analysis of the prior art carried out by the applicant has established that analogues that are characterized by sets of features that are identical to all the features of the claimed method for identifying commercial gasoline brand and device for its implementation are absent, therefore, each of the claimed group inventions meets the “novelty” condition.

 The search results for known technical solutions in this and related technical fields in order to identify features that match the distinctive features of the claimed invention showed that they do not follow explicitly from the prior art.

 From the prior art determined by the applicant, the influence of the transformations provided for by the essential features of each of the claimed inventions on the achievement of the indicated technical result has not been revealed, therefore, each of the claimed group inventions corresponds to an "inventive step".

 The application complied with the requirement of unity of invention, since the claimed objects of the method for identifying brand of commercial gasoline and devices for its implementation are intended to implement a single technical result - at the same time increasing the accuracy and reliability of measurements and simplifying the design of the device.

 The figure 1 shows the fluorescence spectra of (a) and excitation (b) for the comparison sample (1a, 16) and reference grades of commercial gasolines: AN-92 (2a, 2b), AI-95 (3a, 3b), AI-76 ( 4a, 46), and FIG. 2 shows a block diagram of a device for identifying a brand of commercial gasoline, where 1 is a light source, 2 is a first optical filter, 3 is a means for placing a sample of gasoline, 3a is a fluorescent reference sample, 4 is a second optical filter, 5 - photodetector, 6 - DC amplifier, 7 - indicator, 8 - reciprocating movement mechanism.

 The patented method includes excitation of fluorescence and registration of its intensity, characterized in that the comparison sample having a spectrum of excitation and radiation in the field of excitation and emission of gasoline and a stable fluorescence yield is calibrated by the magnitude of the fluorescence of reference gasoline brands, then they are excited within the half-width of the strip excitation fluorescence in the reference sample and in identifiable gasoline, after which the integral signal is recorded in the blue-green region of the spectrum Achen fluorescence intensity value and comparing the identified gasoline sample is then determined by the ratio of measured values and judged on the brand of gasoline identified by comparing the obtained ratio with the magnitude of the fluorescence standard grades of gasoline taken as unity.

The patented method is as follows. A “blue” lumogen having an excitation and radiation spectrum located in the field of excitation and fluorescence of gasoline (see Fig. 1) and a stable fluorescence yield is applied onto the substrate as a reference sample. Its fluorescence is excited in the wavelength range of 230 - 320 nm, and the intensity value is measured in the range of 400 - 600 nm, which is calibrated by the magnitude of the fluorescence of reference gasoline brands. (Reference grades are standardized samples of commercial gasoline with well-known GOST). Then, fluorescence in the reference sample and identifiable gasoline is sequentially excited within the half-width of the excitation band, and the integral value of the fluorescence intensity in the blue-green region of the spectrum is measured for the reference sample — I _o and identifiable gasoline — I. Next, the ratio of the measured values is determined I / I _o . The resulting value is compared with the fluorescence intensity of the reference grades of gasoline, taken per unit. For example, the intensity value normalized by the above-described method, AI-92 gasoline grades with a quality certificate, obtained at gas stations in different regions of the north-western region is 100 arbitrary units (conventional units). At the same time, the ratio I measured and calculated by the method described above, / I _o for gasoline grade AI-76 with a certificate of quality is 60 conv. units, and for certified commercial gasoline AI-95 - 80 conventional units The error of the normalized intensity value of reference grades of gasoline, calculated for a series of experiments when measuring 15 samples of certified grades of commercial gasoline, is within ± 10% for gasoline grades AI-76 and AI-92, and for AI-95 within ± 4% . Thus, if, when identifying an unknown brand of commercial gasoline, the value of the ratio I / I _o lies in the range of 90 conventional units. <I / I _o <110 conventional units, then the identified gasoline corresponds to the AI-92 brand. If the ratio is located in the range of 76 srvc <I / I _o <84 srvc. units, then the identifiable gasoline corresponds to the AI-95 brand. If 50 srvc. units <I / I _o <70 conventional units, then the brand of identified gasoline can be defined as AI-76. The maximum and minimum boundary values of the intervals of the I / I _o ratio for different brands of commercial gasolines are determined by the magnitude of the error in the measurement method. The fact that the boundary values for different brands do not overlap allows a reliable way to judge the brand of gasoline and to identify it with the required accuracy.

A patented device for identifying a brand of commercial gasoline contains a fluorescence excitation system, including a light source 1 sequentially located on its optical axis OO ₁ , a first optical filter 2 and a means for placing a gasoline sample 3, and a fluorescence intensity registration system including successively located on its optical axis OO ₂ , the second optical filter 4 and the photodetector 5, the output of which is connected to the amplifier 6 and indicator 7. The mechanism of the reciprocating movement 8, on An adjacent element of which a fluorescent reference sample 3a and means for placing a sample of identifiable gasoline 3 are fixed, it is possible to alternately establish at the intersection point O the intersection of the optical axes OO ₁ and OO ₂ of the excitation and registration systems either a comparison sample or a test sample of gasoline.

The device operates as follows. The fluorescence is excited by ultraviolet radiation that occurs in the light source 1. Ultraviolet radiation passes through the first optical filter 2, the transmission range of which is 230 - 320 nm and focuses on the comparison sample 3A or on a sample of identified gasoline 3. The mechanism of reciprocating movement 8, made , for example, in the form of a revolving device, sets in front of the exciting light alternately either a comparison sample or a test sample. The fluorescent reference sample is rigidly integrated into the socket located on the moving part of the mechanism. In the adjacent nest, a means for placing the sample is fixed. A sample of identified gasoline is applied to a non-luminescent paper filter. The presence of reference sample 3a in the device provides comparable results regardless of the stability of the flow of exciting light. The location of the optical axes for the excitation and registration systems at an acute angle not exceeding 45 ^° allows increasing the value of the recorded fluorescence luminous flux, since this value depends on the cosine of the angle between the direction of propagation of the light flux and the normal to the surface. This increases the accuracy of the measurements, since the geometry in this case is the most optimal. The fluorescence excited by ultraviolet light of the reference sample or test sample passes through a second optical filter 4, which emits only light in the transmission range of 400 - 600 nm and does not transmit exciting light from the region of 230 - 320 nm. The observed fluorescence enters the window of the photodetector 5, which converts the optical signal into an electrical signal, which is fed to the input of the DC amplifier 6 and from its output to indicator 7. The indicator scale is made in the form of a visual indication, the ranges of which can be marked, for example, in different colors , which corresponds to the ranges for determining the brands of identifiable gasolines. The device is powered by a battery.

As follows from the foregoing, the achievement of a unified technical result of both the method and the device for its implementation is ensured by the fact that the method uses a comparison sample having a spectrum of excitation and radiation in the field of excitation and radiation of gasoline and a stable value of fluorescence output, fluorescence is excited in the range 230 to 320 nm, and register in the range of 400 - 600 nm, and when implementing the method, the device additionally contains a comparison sample, a reciprocating mechanism Oh moving, optical filters that emit light in the ranges of 230 - 320 nm to 400 - 600 nm and the angle between the optical axes of the excitation and registration systems does not exceed 45 ^o . A comparison of the parameters characterizing the claimed invention and the prototype allows us to conclude that the additional use in the method and device of a comparison sample, which has a spectrum of excitation and radiation in the field of excitation and radiation of gasoline and a stable value of fluorescence output, as well as the optimal excitation ranges and registration of fluorescence and the structural arrangement of the excitation and registration systems relative to each other allows to achieve increased accuracy and stovernosti results definition of commodity grade gasoline in road conditions.

 In addition to the indicated technical result achieved and the advantages of the declared group facilities, their additional advantages should also be noted, such as expressness and simplicity of the method, simplification of the device design, its portability (small dimensions and weight), ease of use - taking measurements without the need for special technical training for the user.

Thus, the above information shows that when implementing the claimed group of inventions, the following conditions are met:
- means embodying the invention in their implementation, are intended for their use in industries related to the production and use of petroleum products, namely, at stationary and mobile points of commercial sale of marketable gasoline and motorists in road conditions;
- for the claimed inventions in the form as described in the independent claims, the possibility of their implementation using the described or other solutions known prior to the filing date of the application is confirmed,
- means embodying the invention in their implementation, are able to provide the specified technical result.

 Therefore, the claimed group inventions comply with the patentability condition "industrial applicability".

Sources of information:
1. V.P. Zaburnyagin, P.N. Yarovoy "Application of laser fluorescence analysis for the identification of petroleum products" // ZhPS, 1988, vol. 48, issue 5, pp. 819 - 822
2. A. G. Varekhov, V. A. Enuchenko and A. S. Markish "Method for the identification of gasolines", AC N 1733982, 05.15.92n

Claims (5)

 1. A method of identifying a brand of commercial gasoline, including excitation of fluorescence and recording its intensity, characterized in that the comparison sample having a spectrum of excitation and radiation in the field of excitation and radiation of gasoline and a stable value of fluorescence output, is calibrated by the magnitude of the fluorescence intensity of the reference trademarks of gasoline, then, fluorescence is excited within the half-width of the excitation band in the reference sample and in identifiable gasoline, after which they are recorded in blue-green t he area of the spectrum integral value of fluorescence intensity and comparing the identified gasoline sample is then determined by the ratio of measured values and judged on the brand of gasoline identified by comparing the obtained ratio with the magnitude of the fluorescence standard grades of gasoline taken as unity.  2. The method of identifying commercial gasoline brand according to claim 1, characterized in that the fluorescence is excited in the wavelength range of 230-320 nm, and recorded in the range of 400-600 nm.  3. A device for identifying a brand of commercial gasoline containing an optical system for exciting fluorescence, including a light source sequentially located on its optical axis, a first optical filter and means for locating a sample of identifiable gasoline, and a fluorescence intensity recording system, including a second one located on its optical axis an optical filter and a photodetector, the output of which is connected to an amplifier, and an indicator, characterized in that the device further comprises a comparison sample having a stable fluorescence yield and a spectrum of excitation and radiation in the field of gasoline excitation and fluorescence, and a reciprocating movement mechanism, on the movable element of which a comparison sample and means for placing a sample of identifiable gasoline are fixed and having the possibility of alternating installation at the intersection of optical the axes of the excitation and registration systems, and the transmission wavelengths of the first optical filter are selected in the ultraviolet range, second - in the blue-green region of the spectrum the fluorescence.  4. A device for identifying brand of commercial gasoline according to claim 3, characterized in that the transmission wavelength range of the first optical filter is 230-320 nm, and the second 400-600 nm.  5. A device for identifying a brand of commercial gasoline according to claim 3, characterized in that the angle between the optical axes of the excitation and registration systems does not exceed 45 °.

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