RU2471186C1 - Effective monitoring device of biofuel quality - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: device includes hollow housing, turbulator housing, separator, positive electrode, turbulator, fastener, and terminal. In upper part of turbulator housing there installed perpendicular to longitudinal symmetry axis of device is inlet connection pipe of non-treated biofuel. In lower part of separator there located perpendicular to longitudinal symmetry axis of the device is outlet connection pipe of dirty biofuel. Outlet connection pipe of treated biofuel is installed along longitudinal symmetry axis of device in lower part of separator. Heater, temperature sensor and fuel turbidity sensor are installed on inlet connection pipe. Monitoring turbidity sensor is installed on outlet connection pipe of treated biofuel.

EFFECT: effective monitoring of quality and improvement of biofuel quality.

1 dwg

Description

The invention relates to automotive technology, in particular to methods for controlling the quality of biofuels and preparing fuel for combustion.

A known method of monitoring fuel quality [RF Patent No. 2320983 "Method and system for monitoring fuel quality". - Publ. April 27, 2008], which consists in the following: fuel is supplied from the tank of a vehicle to a fine filter, where its quality is analyzed by the content of contaminants and water, as well as the determination of its cetane (octane) number. At the same time, it is subjected to centrifugal cleaning and treated with an electromagnetic field. Next, the fuel enters the internal combustion engine, and pollution and water enter the fuel tank of the vehicle. Information on fuel compliance with regulatory quality indicators is displayed on the dashboard of the vehicle or transmitted to the on-board computer.

The known method of monitoring the quality of fuel and a device for its implementation have the following disadvantages:

- the inability to quickly control the quality of biofuels,

- low quality biofuels.

The purpose of the invention is the operational quality control and improving the quality of biofuels.

This goal is achieved by the fact that in the upper part of the turbulator body perpendicular to the longitudinal axis of symmetry of the device, an inlet fitting of untreated biofuel is installed. At the bottom of the separator, perpendicular to the longitudinal axis of symmetry of the device, an exhaust fitting of contaminated biofuel is installed. On the longitudinal axis of symmetry of the device in the lower part of the separator set the outlet fitting of the processed biofuel. A heater, a temperature sensor and a fuel turbidity sensor are installed at the inlet fitting. On the outlet nozzle of the processed biofuel, a control turbidity sensor is installed.

Figure 1 presents a General view of the device operational quality control of biofuels.

An on-line biofuel quality control device comprising a hollow body 1, a turbulizer body 2, a separator 3, a positive electrode 4, a turbulizer 5, a mount 6, terminal 7. In the upper part of the turbulizer 2 body, an inlet of the raw biofuel 8 is installed perpendicular to the longitudinal axis of symmetry of the device, at the bottom of the separator 3, perpendicular to the longitudinal axis of symmetry of the device, an outlet fitting of contaminated biofuel 9 is installed, along the longitudinal axis of symmetry of the device, in the lower part of the separator 3 is installed treated biofuel outlet fitting 10, the inlet fitting mounted on heater 11, temperature sensor 12 and a turbidity of 13 biofuel sensor on the outlet fitting 10 is treated biofuel controlling turbidity sensor 14.

The temperature sensor 12 is a thermocouple, which is installed perpendicular to the inlet pipe of untreated biofuel 8. The turbidity sensor 13 is located on the inlet fitting of the raw biofuel 8. The turbidity sensor 13 is installed on the inlet fitting of the untreated biofuel 8. The control turbidity sensor 14 is mounted on the outlet of the processed fuel 10.

Device operational quality control of biofuels works as follows.

The biofuel from the tank is fed into the inlet of the raw biofuel 8, and then the biofuel is heated in the heater 11 and the heating temperature of the biofuel is controlled by a temperature sensor 12, then the biofuel is subjected to initial quality control by the turbidity sensor 13, then the biofuel is fed to the turbulator 5, where it is rotated and served in the positive electrode 4, passing through which the biofuel is subjected to treatment with an inhomogeneous electromagnetic field created between the positive electrode 4 and the hollow body 1, having a fastening 6 using the control unit of the system 15 and a step-up transformer 16, after which the biofuel is cleaned in the separator 3 and fed to the control turbidity sensor 14 after passing the exhaust nozzle of the processed biofuel 10, the biofuel is fed into the tractor engine, the contaminated biofuel from the separator 3 is fed to the vehicle’s fuel tank for reprocessing.

To reduce the measurement error and better processing of biofuels, a heater 11 is installed on the input nozzle of the raw biofuel 8, the temperature of the biofuel is controlled by the temperature sensor 12 by the heater 11. Due to this, the readings of the turbidity sensor 13 will not depend on the temperature of the incoming biofuel. The turbidity control sensor 14 is installed on the outlet fitting of the processed biofuel 10, according to the testimony of which it is concluded that the biofuel is suitable for use on a tractor engine.

The on-line biofuel quality control device performs on-line quality control of the processed and refined biofuels entering and leaving the device and informs the driver (driver) of the used biofuel using the display panel 17 or the vehicle’s on-board computer, based on which the driver (driver) makes technical maintenance of a motor engine.

The use of a heater 11, a temperature sensor 12, a turbidity sensor 13, and a control turbidity sensor 14 in the device for operational quality control of biofuels will allow us to quickly monitor and improve the quality of biofuels entering the tractor engine.

Claims (1)

An operational biofuel quality control device comprising a hollow body, a turbulator body, a separator, a positive electrode, a turbulator, a fastener, a terminal, characterized in that an input raw biofuel nozzle is installed in the upper part of the turbulator body perpendicular to the longitudinal axis of symmetry of the device, and the bottom part of the separator is perpendicular to the longitudinal an outlet fitting of contaminated biofuel is installed on the axis of symmetry of the device, along the longitudinal axis of symmetry of the device at the bottom of the separator The outlet nozzle of the processed biofuel is installed, a heater, a temperature sensor and a fuel turbidity sensor are installed at the inlet nozzle, and a turbidity monitor is installed at the outlet nozzle of the processed biofuel.

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