RU2138042C1 - Process determining content of gluten in wheat and device for its implementation - Google Patents

Abstract

FIELD: physical methods of analysis of gluten. SUBSTANCE: process consists in measurement of spectral characteristics of specimens of wheat and in subsequent determination of content of gluten by their values with allowance for graduation measurements. Device for implementation of process includes radiation source, dish, photodetector and measurement unit. In the course of realization of process measurement of integral intensities of diffuse transmission is conducted in two spectral intervals of 400-600 nm and 600-850 nm and content of gluten is found by formula

where C is content of gluten; A is graduation coefficient, J_k is intensity of integral transmission in 600-850 nm interval; J_o is intensity of integral transmission in 400-600 nm interval. Insertion of diffuser, two filters and photodetector makes it feasible to shorten measurement time and to increase authenticity of obtained data. EFFECT: speeding up of measurement process and elimination of effect of quality of grinding on final result. 2 cl, 1 dwg, 1 tbl

Description

 The invention relates to methods and devices for assessing the quality indicators of agricultural products, namely grain and wheat flour, and can be used at breeding stations, in laboratories of research institutes, variety testing laboratories, grain receiving points, etc.

 A known method for determining the amount of gluten in wheat (Krischenko V.P. and other. Analysis of gluten by measuring the intensity of reflection of infrared radiation. - Agrochemistry, N 7, 1980, pp. 103-107), which consists in measuring several wavelengths in the infrared range, the intensity of reflection of infrared radiation of ground wheat grain samples, mathematical calculation and determination of the desired amount of gluten by the calibration curve.

 This method is carried out by a device known from the same source, consisting of a continuous radiation source, a monochromator, a cell compartment, a photodetector.

The disadvantages of the known method and device are:
- the dependence of the readings of the device on the quality of the grinding of the grain and the density of the flour in the cuvette, while the reflective characteristics of the measured sample change;
- the device is complex and requires serious mathematical support;
- the presence of a monochromator (scanning spectrum) leads to an increase in the duration of the analysis and the inability to work in real time.

 The closest technical solution to the proposed invention is a method for determining the quality and quantity of gluten (see ed. St. N 1567977, priority 04.01.87, MKI G 01 N 33/10, publ. In BI N 20, 05.05.90 g.).

 This method consists in measuring the relative coefficient of diffuse reflection in the ultraviolet region of the optical range and then determining the amount of gluten from the values of spectral characteristics taking into account calibration measurements.

 The disadvantage of this method is the long analysis time (due to the need for sequential measurement at several spectral points), and low accuracy in determining the amount of gluten (± 5%), which is even more dependent on the quality of the grain grinding.

 The same copyright certificate No. 1567977 describes a device for implementing the method, consisting of a light source, a monochromator, a cuvette, a photodetector and a photometric ball.

 The disadvantage of this device is the necessity of using a monochromator (scanning system) for measurement at several spectral points, which leads to an increase in the analysis time and the inability to use the device in real time.

 The invention solves the problems of both preserving the studied grain for breeding purposes by eliminating the grain grinding operation and thereby accelerating the measurement process, and eliminating the influence of the grain grinding quality on the final measurement result by determining the measurement range where there are spectral features associated with the amount of gluten.

где C - количество клейковины;
A - градуировочный коэффициент;
J_k - интенсивность интегрального диффузного пропускания в интервале 600-850 нм;
J_o - интенсивность интегрального диффузного пропускания в интервале 400-600 нм.The stated problems solve the method consisting in measuring the spectral characteristics of wheat samples and then determining the amount of gluten from the values of spectral characteristics, taking into account calibration measurements. Measure the integrated intensities of diffuse transmittance in two spectral ranges 400-600 and 600-850 nm and determine the amount of gluten according to the formula:

where C is the amount of gluten;
A is a calibration factor;
J _k is the intensity of the integrated diffuse transmittance in the range of 600-850 nm;
J _o - the intensity of the integrated diffuse transmittance in the range of 400-600 nm.

 A device for determining the amount of gluten by the proposed method consists of a light source, a cuvette, a photodetector and a measuring device, in addition to which diffuse diffuser and photodetector are introduced, as well as two filters for transmitting radiation, respectively, in the region of 400 - 600 nm and in the region of 600 - 850 nm and registration photodetectors, and the diffuse diffuser is installed with the possibility of directing radiation from the light source to the cuvette.

 The drawing shows a diagram of the device.

 The device contains a light source 1, a diffuse diffuser 2, a cuvette 3, light filters 4 and 5, transmitting radiation in the region of 400 - 600 and 600 - 850 nm, respectively, photodetectors 6 and 7, a measuring device 8.

 The diffuse diffuser is installed with the possibility of directing radiation from the light source to the cuvette.

 The method is carried out in the following sequence. Wheat grains or flour are placed in a cuvette 3. Radiation from a light source 1 is sent through a diffuse diffuser 2 to a cuvette 3. The cuvette 3 is made with windows transparent in the visible spectral region (400-850 nm).

 The radiation passing through the samples falls on filters 4 and 5, which transmit radiation one in the region of 400-600 nm, the second in the region of 600-850 nm, and is recorded by the corresponding photodetectors 6 and 7.

Photodetectors measure the integrated intensity of diffuse transmission of samples in the range of 600-850 (J _k ) and in the range of 400-600 nm (J ₀ ).

и по градуировочной зависимости

,
где C - количество клейковины, а A - градуировочный коэффициент, получаемый при калибровке прибора, по образцам с известным содержанием клейковины, определяет содержание клейковины.By special experiments with wheat samples with gluten determined according to GOST 13586.1-68, it was shown that the radiation intensity (J _o ) in the region of 400-600 nm passed through the sample does not depend on the gluten content and serves as a normalizing indicator for the second range , the radiation intensity (J _k ) in the range of 600-850 nm, as established in the same experiments, is associated with gluten content. The measuring device calculates

and according to the calibration dependence

,
where C is the amount of gluten, and A is the calibration coefficient obtained when calibrating the device, using samples with known gluten content, determines the gluten content.

 The proposed method and device can determine the amount of gluten in real time.

 The table shows a comparison of the amount of gluten in the samples according to GOST and the proposed method.

 Measurements using the proposed method and device provide high expressivity and accuracy, the resulting error does not exceed 1%.

Claims (2)

1. The method of determining the amount of gluten in wheat, which consists in measuring the spectral characteristics of wheat samples and subsequently and determining the amount of gluten from the values of spectral characteristics, taking into account calibration measurements, characterized in that they measure the diffuse transmission integral intensities in two spectral ranges of 400 - 600 nm and 600 - 850 nm, and the amount of gluten is determined by the formula

,
where C is the amount of gluten;
A - calibration factor;
J _k is the integrated transmission intensity in the range of 600 - 850 nm;
J _about - the intensity of the integrated transmission in the range of 400 - 600 nm.  2. A device for determining the amount of gluten, consisting of a light source, a cuvette, a photodetector and a measuring device, characterized in that it additionally includes a diffuse diffuser and a photodetector, as well as two filters for transmitting radiation, respectively, in the region of 400 - 600 nm and 600 - 850 nm and registration with photodetectors, and a diffuse diffuser is installed with the possibility of directing radiation from the light source to the cuvette.

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