RU190943U1 - Flow analyzer to monitor the quality of hydrocarbon fractions - Google Patents

Abstract

The utility model relates to the field of industrial in-line analyzers and can be used to control the quality of liquid hydrocarbon systems, such as oil products and oil fractions, with a boiling point of 180-360 ° C according to the color characteristics of photographic images in real time. The task of the utility model is to create a constructively simple and efficient device for the rapid registration of the non-stationarity of the technological regime. A flow analyzer for monitoring the quality of hydrocarbon fractions, comprising a housing with an integrated digital recording device, an opening upper lifting cover on hinges with a monitor mounted on the outside and standard light sources on the inside, a motherboard connected to the monitor and a power supply that are fixed to the back the wall of the housing, switches of standard radiation sources mounted on the bottom of the housing grooves, additionally contains a transparent flow cell and a hydraulic support system through which the process fluid passes, as well as a video camera as a digital recording device, while the program for the ColorAverage electronic computer is installed on the motherboard. 1 ill.

Description

The utility model relates to the field of industrial flow analyzers and can be used to control the quality of liquid hydrocarbon systems, such as oil products and oil fractions, with a boiling point of 180-360 ° C according to the color characteristics of photographic images in real time.

Known devices for determining the physicochemical properties of liquid and solid hydrocarbon systems such as:

- coking with micromethod (coking oven with annular heating chamber according to GOST 32392-2013) and Conradson coking with Coaxiality (Conradson’s GOST 19932-99 (ISO 6615-93));

- density (areometer GOST 3900-85),

- viscosity characteristics (viscometer type VU GOST 6258-85, rotational viscometer GOST 1929-87 reotest 2.1, kinematic viscosity VPZH-1, VPZH-2, VPZH-4, VZHZ GOST 33-2000),

- flash point in closed and open crucibles (ATV-20 GOST 6356-75, ATV-2 GOST 4333-87,

- temperatures of the beginning and end of boiling (ARN-LAB-3 GOST 2177-99),

- effective electron affinity and effective ionization potential (standard spectrophotometer for UV and visible ranges of the SF-2000 type, Dolomatov M.Yu., Mukaeva G.R. A method for determining ionization potentials of aromatic molecules. Patent for the invention of the USSR No. 4,464,576 / 25. Announced 22.07.1988. Published on 23.03.1991, BI No. 11.; Dolomatov M.Yu., Shulyakovskaya D.O., Paymurzina N.Kh., Shutkova S.A. Assessment of the electronic structure of hydrocarbon conductive materials using the EFS method / / Electrotechnical and information systems and systems, 2013. V. 9, No. 2. - P. 121-129.).

The common disadvantages of these devices are:

1. for each physico-chemical properties requires its own set of devices;

2. the high cost of each device

3. the duration of the determination of each physico-chemical properties, which can vary from 30 minutes to several hours;

4. the complexity and bulkiness of devices, which excludes the possibility of use in a portable mobile version;

5. the need for highly qualified personnel.

The closest to the claimed technical essence and the achieved result is a device for determining the physico-chemical properties of multicomponent hydrocarbon systems, based on the registration of photographic images of solutions of these systems [Manapov RS, Shulyakovskaya D.O. A device for determining the properties of complex molecular systems from photographic images // Collection of abstracts of the II All-Russian Scientific Youth Conference "Actual problems of nano-and microelectronics", December 2-5, 2014, Ufa: Bashkir State University. - 2014. - p. 126; Shulyakovskaya D.O. Abstract of the thesis "Development and application of optical methods for determining the physicochemical properties of high-boiling oil fractions", Ufa: UGNTU. - 2015. - 24 p.]. This device is a housing with a built-in digital camera, opening top lifting lid hinges with fixed standard sources of light on the inside, switches of standard radiation sources, two grooves mounted on the bottom of the housing for fixing the cuvette with the hydrocarbon system under investigation for digital processing of the video image of this liquid by a special algorithm.

The disadvantages of this device are:

1) the lack of automation of operations in determining the physicochemical properties: first you need to register the photo image in a special camera, then copy the photo image on the computer, then in the raster graphic editor use the photo image to determine the color coordinates of the system under study, then determine the physicochemical value using color coordinates properties by a special technique;

2) the time costs associated with this sequence of operations;

3) the need for a computer.

The objective of this utility model is to create a constructively simple and effective device for the rapid registration of the non-stationarity of the technological regime.

This problem is solved by the fact that an in-line analyzer for monitoring the quality of hydrocarbon fractions, comprising a housing with an integrated digital recorder, an opening upper lifting lid hinged with an external monitor and standard light sources on the inner side, connected to the monitor motherboard and unit power, which are fixed to the rear wall of the housing, switches of standard radiation sources, grooves mounted on the bottom of the housing, according to the useful The model additionally contains a transparent flow cell and a hydronic carrier system through which the process fluid passes, as well as a video camera as a digital recording device, while the program “Color A verage” is installed on the motherboard.

A general view of a flow analyzer for monitoring the quality of hydrocarbon systems is presented in the figure in axonometric projection with the top lid open.

The device consists of a housing 1 with an elongated front platform; opening hinged top lid 2 on hinges, on the outer top of which there is a liquid crystal monitor 3, and on the inner wall of the lid 2 are standard sources of light radiation 4 of the type CIEA, B, C or D ₆₅ ; back wall with attached motherboard and power supply 5; digital video camera 6, radiation source switches 7, located on the site of housing 1, the bottom, in which there are two grooves 8 for fixing a transparent flow cell with oil fractions. The body is made of white PVC plates. The device also contains a power cable not specified in the drawing for connecting the power supply unit to an electrical outlet, a button for switching on the device on the side of the case, a usb cable for connecting a digital video camera to the motherboard, four usb connectors that are located on the side of the case for connecting to the motherboard of a video camera, computer mouse, keyboard, flash media for storing data.

The proposed device works as follows.

When working with a liquid sample, the latter flows through the transparent flow cell 10. The transparent flow cell 10 is installed in one of the slots 8 on the bottom of the body 1 by opening the upper lifting cover 2. The cover is closed and the power cord is plugged into the 220 V. Then turn on the device by pressing the button on the side of the case. A modern digital video camera with a resolution of more than 10 megapixels (matrix size of more than 3872 × 2592 pixels) is used. The selected standard light source 4 of type CIEA, B, C or D _{65 is} turned on by pressing the corresponding switch button 7. A sample is fed into the flow cell 10 through the hydraulic carrier 9, the video image of the sample is recorded in the cell. Digital video camera 6 is connected to the motherboard 5 via a usb cable (on the motherboard, as in personal computers, there are: a processor with a fan, a video card, a hard disk, RAM). On the LCD display 3 connected to the motherboard, a registered video image is selected. The special program ColorAverage installed on the motherboard 5 performs the calculation and displays the color characteristics of the sample in colorimetric systems sRGB and XYZ (color coordinates and chromaticity coordinates), then displays the trend line of the liquid hydrocarbon system if the quality of this oil fraction changes, then the trend line changes abruptly. The results of the experiment showed the sensitivity limit of the device when the concentration of fuel oil in diesel fuel was 8.5 10 ^-5 g / ml.

The proposed device allows you to monitor the quality of hydrocarbon fractions in real time, does not require special user training, allows for the possibility of free movement in remote places to control properties, convenient in operation and repair. The rate of registration of the non-stationarity of the technological mode is user-adjustable and can reach 1 / 30s (frame rate), which will make it possible for staff to notice the change in mode without delay.

The device has the advantage of lower cost in comparison with the known in-line devices for monitoring the process conditions in installations and monitoring the quality of the raw materials.

Claims (1)

An in-line analyzer for monitoring the quality of hydrocarbon fractions, comprising a housing with an integrated digital recorder, an opening top hinged lid with a monitor mounted on the outside and standard light sources on the inside connected to the monitor motherboard and a power supply that are attached to the back the wall of the case, switches of standard radiation sources and grooves installed at the bottom of the case, characterized in that it additionally contains a transparent The flow cell and the hydronic carrier system, which the technological fluid passes through, as well as the video camera as a digital recording device, while the program for the ColorAverage electronic computer is installed on the motherboard.

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