RU82492U1 - MOBILE LABORATORY FOR FUEL - Google Patents

Abstract

The utility model relates to mobile fuel laboratories, in particular, to determine the physicochemical quality indicators, the presence and quantity of additives in the fuel, as well as the type of motor oil, can be used in places remote from stationary laboratories. The mobile fuel laboratory is mounted in a thermally insulated casing mounted on the vehicle chassis, contains tables and a set of instruments and laboratory glassware necessary for fuel analysis, as well as a portable computer 6 and printer 7; a means of protecting the IR Fourier spectrometer 4 when the vehicle moves against vibration . The invention reduces the analysis time without compromising reliability requirements.

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Description

The utility model relates to mobile laboratories for monitoring the quality of fuel, in particular fuels, engine oils, lubricants and special fluids, and can be used in places where fuel is stored and refueling vehicles removed from stationary laboratories.

As practice has shown, as a result of economic reform, the simplification of the quality control system of fuels and lubricants (fuels and lubricants), the number of manufacturers has increased significantly, however, for various reasons, the quality of fuels and lubricants has noticeably worsened, the lack of quality control laboratories at oil and gas companies led to substandard fuel and lubricants began to fall into consumer equipment, which increased the number of accidents, and sometimes led to the exit of standing equipment. The need to implement express methods directly in the field of application of fuel and lubricants quality control practice dictates the urgency of developing mobile laboratories for express fuel quality control equipped with high-tech analytical equipment.

The authors were faced with the task of developing a mobile fuel laboratory, allowing in a short time (up to 15 minutes) using express -

methods to identify automobile and aviation gasolines, jet fuels, diesel fuels, oils, lubricants, fuel oils, special fluids and expressly evaluate individual indicators of fuel quality (octane number, cetane number, VCR content, detergent additives in gasoline and density). The mobile fuel laboratory equipment should take samples from tanks and containers and evaluate the presence of water and fur in stored fuel. impurities. The main task of a mobile fuel laboratory is to quickly evaluate the quality of a larger volume of fuel samples and deliver samples that have not passed express control to a stationary laboratory to evaluate their quality using standard test methods.

Known mobile chemical analytical laboratory, which is used to analyze the composition and properties of natural and technological water of the seaport, the content of toxic components, exhaust gases, the identification of oil products from spills. In the mobile laboratory, there are protective equipment when driving a car. The following equipment is located inside the laboratory: chromatograph, chromium mass spectrometer, apparatus for electrochemical methods, apparatus for gas analysis, photocolorimeter, spectrofluorograph (RU No. 2252596 B60P 3/14).

The disadvantages of the laboratory are limited scope, i.e. the impossibility of analyzing fuel and detecting the presence of additives in marketable petroleum products. This laboratory determines only their presence in water.

The closest in technical essence and taken as a prototype is a mobile laboratory of fuel PLG-4, consisting of a thermally insulated body mounted on the chassis of the vehicle, and containing a fire extinguishing system, plumbing and sewage system, autonomous power center, electric generator

which has a voltage stabilizer located inside the case along its walls, workstations with drawers for storing reagents and laboratory glassware for sampling fuel from various storage media, instruments for determining the physicochemical parameters of fuel quality, and instrumentation for determining quality indicators using standard methods (this equipment includes: hydrometers, VLKM-550 scales, AKOV-10 device (determination of water content), ionomer (VKSC content), POS-77 (actual resin content), device t TVZ (determination of the flash point in a closed crucible), TVO apparatus (determination of the flash point in an open crucible), TKV apparatus (determination of the kinematic viscosity at a positive temperature), analytical balance with an error of not more than 0,0002 g (determination of acidity and acid number) , apparatus ТСРТ-2 (determination of thermal stability), muffle furnace PL-5 (determination of ash content), apparatus for distillation of oil products ARNS-1E (determination of fractional composition)). (Proceedings of the 25th State Research Institute of the Ministry of Defense of the Russian Federation, issue 54 M. 2008., p.327-328).

Despite the fact that according to the test results using standard methods it is possible to draw up documentary evidence that the quality of the sample meets the requirements of GOST (TU), the drawback of the laboratory is the inability to determine the presence and amount of additives in the fuel, the type of motor oil, octane number, cetane number, detergent content additives in motor gasolines, as well as a limited duration of up to five tests per shift.

EFFECT: increased efficiency of a mobile fuel laboratory by increasing the number of analyzed samples and by promptly delivering samples that have not passed express control to a stationary laboratory to evaluate their quality using standard test methods.

The specified technical result is achieved by the fact that the well-known mobile fuel laboratory, consisting of a thermally insulated body mounted on the chassis of the vehicle, and containing a fire extinguishing system, a plumbing and sewage system, is located between the driver’s cabin and the heat-insulated body, an autonomous power unit, the electric generator of which has a voltage regulator, placed inside the case along its walls work tables with drawers for storing reagents and laboratory glassware for sampling mountains of which from various storage means and for determining physico-chemical indicators of fuel quality and control and measuring equipment for determining the cloud point, crystallization and solidification of liquid petroleum fuels and motor oils, means for determining the amount of fuel and the content of settling water in storage tanks, the appearance of the fuel , content of mechanical impurities, fuel density, content of water-soluble acids and alkalis, kinematic viscosity and alcohol strength, according to the utility model for optionally contains a desiccator for cuvettes mounted on a vibration-protected platform on a separate table with an IR-Fourier spectrometer, the center of gravity of which is equally removed from the axles of the front and rear wheels of the vehicle, a program control unit for controlling the control sequence associated with the informative output of the IR-Fourier spectrometer, measuring instruments the presence and quantity of additives in the fuel, the type of engine oil, octane number, cetane number and the content of detergent additives in gasoline, a library of normative beginnings of fuel quality indicators, one group of which is entered into the program unit and is the comparison base, and the other, in the form of tables and calibration graphs, is placed above certain desktops in accordance with the means for determining physico-chemical indicators of fuel installed on them, sensors connected to the control unit temperature, humidity and

pressure in a heat-insulated casing, in the ceiling of which additionally introduced fire detectors are installed connected with the fire extinguishing system, the windows and door of the mobile fuel laboratory are equipped with a mosquito net, the inner lining of the casing is made of inert to combustible material, and the floor is made of double flooring with the formation of a cavity, which laid pipelines associated with a plumbing system for draining water from workstations, and electric power supply cables from an autonomous power center and to instrumentation, while the insulated housing is grounded, and also that it additionally contains a sealed unit for storing samples, and the fact that filter cleaners are included in the plumbing system

Figure 1 shows a mobile fuel laboratory (general view of a car chassis);

- figure 2 is a block diagram of a mobile fuel laboratory (with the roof removed, the side and rear walls).

The mobile fuel laboratory includes a building (without a pos.), Which is a Gazel van. Outside painted with reflective paint. The inner walls of the cabin are sheathed with a material inert to fuel. Under this material a heater is applied, which makes the case heatproof. An entrance door is located in the rear wall of the housing. Windows 1 (two on each side of the case) are made in the upper part. The door and windows are equipped with a mosquito net, which is easily dismantled depending on the area of the object being examined. The body floor consists of two metal layers, between which a cavity (channels) is made, in which flexible pipelines (without poses) for distilled water supply are laid. In addition to pipelines in this cavity, electric cables for supplying power to control and measuring instruments and means for lighting workplaces are fixed.

The ceiling of the housing is made in a known standard way. Two-wire smoke detectors of the IP-212-44 type are installed in the ceiling. Inside the case, on one longitudinal side, a work table 2 is installed, on which a vibration-proof platform 3 is installed with an IR Fourier spectrometer 4, the center of gravity of which is equally removed from the axles of the front and rear wheels of the vehicle l ₁ = l ₂ and the desiccator for the cell 5 , laptop computer 6 (the laptop computer is a software control unit). Library of normative values of fuel quality indicators: is a table of density transfer at a test temperature of 20 ° C, a set of infrared spectra. Printer 7 is used to print the result of a fuel quality assessment.

To the left of the entrance is a box 8 with fire extinguishing means - fire extinguishers. To the right of the entrance, a distiller 9 is located in the upper corner. To maintain the optimum temperature, the air conditioner is installed in the laboratory 10. In the lower right corner of the case there is a cabinet 11 with a container for draining liquids and a working table 12 with chemical. reagents (methyl orange, phenolphthalein) and equipment for sampling (samplers, containers for draining the selected fuel), on which the device 13 for determining the low-temperature properties of fuels (PONS) is firmly installed. Next to the work table 12 is a work table 14, in the cabinets of which there are flexible fasteners (not shown): cabinet 14a - for storing measuring instruments for octane number and cetane number (octanometer), IT-VKSC indicator tubes for determining the content of water-soluble acids and alkalis ; cabinet 14b - for storing means for determining the water content (water-sensitive paste), fur. impurities (glass cylinders), fuel density (hydrometers) and the content of detergents in gasoline (cylinder with ground stopper). In the right corner there is a table 15 with storage compartments in accordance with the requirements of the regulatory documentation of the selected samples.

Between the cabin and the laboratory building there is an autonomous power unit 16, which includes a gas-electric unit and a distribution panel, from which the electric cables to the instrumentation depart.

The laboratory operates as follows.

Example.

When inspecting the tank farm in the month of December, it is necessary to assess the quality of diesel fuel. A mobile fuel laboratory arrives at a fuel tank farm. The car is installed on a flat surface on a hand brake, check for grounding, turn on an autonomous electrical unit 16, fix the vibration-proof platform 3 in a stable position, then turn on the heating or air conditioning systems of the passenger compartment. Upon reaching a temperature of 20 ° C in the laboratory premises, they begin to work. Using a water-sensitive paste, the presence of water in the tanks is determined. From the desktop 12 take out a sampler and a container to obtain a combined sample. A combined fuel sample is taken (according to GOST 2517-84), divided into three parts: one sample is monitored on site (with a positive result, the other two samples are destroyed). If the result is negative, the second sample is delivered to a stationary laboratory to assess its quality using standard test methods. Third, for arbitration analysis, it remains to be stored at the tank farm.

This breakdown fills the glass cylinder and determines the presence of fur. impurities are normal. The hydrometer for diesel fuel determines the density - normal. Next, on the device 13 (PONS), the pour point, cloud point and crystallization temperature are determined. The indicator tube IT-VKSCH determines the presence of water-soluble acids and alkalis - absence. Further using

an octanometer determines the cetane number - normal. All data is entered into the program block for controlling the sequence of operations. Next, fill the cuvette with fuel (0.2-0.3 ml.) And install it in an IR-Fourier spectrometer. We carry out IR spectrophotometry. Then we remove the fuel cell and install in its place in the IR-Fourier spectrometer a comparison cell (to compensate for the absorption of the cell containing fuel caused by the material). We carry out IR spectrometry. We remove the comparison cuvette from the IR Fourier spectrometer.

Using an automated system for identifying fuel quality control (ASI KKG), we launch software for identifying a fuel sample. The program runs for 1-2 minutes. As a result, we have a result indicating the brand of fuel and its quality indicators for a full analysis.

After the analysis, the laboratory glassware and instruments are washed sequentially with solvents and water from the distiller 9, the remaining fuel and detergents are poured into the drain compartment 11 without polluting the environment, because filters and cleaners are included in the plumbing system.

If it is necessary to carry out fuel quality control in the field, the mobile fuel laboratory quickly assesses the quality without using a hospital.

The use of a mobile fuel laboratory will make it possible to assess the quality of a larger volume of samples (more than twenty per shift) in places where fuel is stored, refueling equipment and delivering samples that have not passed express control to a stationary laboratory to evaluate their quality using standard test methods.

Claims (3)

1. Mobile fuel laboratory, consisting of a thermally insulated body mounted on the chassis of the vehicle, and containing a fire extinguishing system, a water supply and sewage system, located between the driver’s cab and the heat-insulated body is an autonomous energy unit, the electric generator of which has a voltage regulator, working inside the body along its walls tables with boxes for storing reagents and laboratory glassware for sampling fuel from various storage media and for determining physical fuel quality indicators and instrumentation for determining the cloud point, crystallization and solidification of liquid petroleum fuels and engine oils, means for determining the amount of fuel and the content of settling water in storage tanks, the appearance of the fuel, the content of solids, the density of the fuel, the content of water-soluble acids and alkalis, kinematic viscosity and alcohol strength, characterized in that it further comprises a desiccator for the cell, mounted on vibros a protected platform on a separate table, an IR-Fourier spectrometer, the center of gravity of which is equally remote from the axles of the front and rear wheels of the vehicle, a program control unit for controlling the control sequence associated with the informative output of the IR-Fourier spectrometer, means for measuring the presence and amount of additives in the fuel, type motor oils, octane number, cetane number and the content of detergents in gasoline, a library of standard values for fuel quality indicators, one group of which is established on in the program block is the comparison base, and the other, in the form of tables and calibration graphs, is placed over certain working tables in accordance with the means for determining physical and chemical indicators of fuel installed on them, temperature, humidity and pressure sensors connected to the control unit in a thermally insulated case , in the ceiling of which are installed additionally introduced fire detectors associated with the fire extinguishing system, the windows and door of the mobile fuel laboratory are equipped with a mosquito net, The upper sheathing of the case is made of a material inert to combustible, and the floor is made of double flooring with the formation of a cavity in which pipelines are connected, connected to the plumbing and sewer system for draining water from workstations, and electric power supply cables from an autonomous energy center to control and measurement ones instruments, while the insulated housing is grounded. 2. The mobile fuel laboratory according to claim 1, characterized in that it further comprises a sealed unit for storing samples. 3. The mobile fuel laboratory according to claim 1, characterized in that filter cleaners are included in the plumbing and sewage system.