RU49269U1 - DEVICE FOR MEASURING FLASH TEMPERATURE OF LIQUID OIL PRODUCTS - Google Patents

Abstract

The utility model relates to the field of testing materials by heating by determining the ignition temperature, in particular to installations for the study of petroleum products, and can be used in automated control systems in the oil refining industry. A device for measuring the flash point of liquid petroleum products contains a reaction chamber 1 with a crucible 2 located therein, a heating element 3, a pressing spring 4, an ignition unit 5, thermocouples for registering the temperature of the liquid 6 and the temperature of the vapor of the liquid 7. The thermocouple 7 is placed in the reaction chamber above the liquid level 8, a thermocouple 6 is placed in liquid 8. A hole 9 is made in the cover 13 of the reaction chamber 1, into which either a continuous removable insert 10 or a removable insert 11 containing ventilation ducts 12 is inserted.

Description

The utility model relates to the field of testing materials by heating by determining the flash point, in particular to installations for the study of petroleum products, and can be used in automated control systems in the oil refining industry.

A device is known for automated testing of flash points (1). The test liquids are tempered in sealed test vessels, subjected to an ignition test, and, upon successful ignition, flash points are recorded. The test vessels are filled with pre-tested liquids and closed with test caps, which are equipped with means for recording temperature and indicating flash points, as well as means for turning the test cap and mixing the test liquid, and thereby form test inserts, thus prepared test inserts are inserted into the tempering device and create detachable connections and / or contacts between the head of the parallel functions of the machine and the test insert so that the means for recording the temperature and indicating the flash temperature receive an electrical contact and are again disconnected after completion of ignition and after testing the flash temperature. Means of recording temperature and indicating flash temperature are connected to the head of parallel functions and to the signal analysis unit by means of electrical contacts only for the duration of the test insert in the tempering

device. To change samples, the ignition is disconnected from the test cover using a controlled drive. Electrical contacting, mechanical coupling, positioning of the ignition, and rotation of the test cover are made by lowering and / or installing a parallel function head. In addition to indicating the flash temperature inside the test insert, a further indication of the flash temperature outside the test insert is carried out. An additional indication of the flash temperature is made above the ignition hole. Means of mixing and turning the lid are connected to the drives mechanically. A device for automated flash temperature testing consists of a test vessel that contains the test liquid and is configured to close the test lid with a stirrer, temperature sensor, flash temperature indicator, tempering device and ignition, moreover, the total device consists of a stationary head of parallel functions and a mobile test inserts, and the test insert is equipped in a pre-equipped condition with a temperature sensor and a temp indicator perature flash, and to the simultaneous function head attached contacting elements to create an electrical connection with the temperature sensor and flash point indicator and at least one coupling element for creating a mechanical connection between the actuator and the agitator stirrer itself. A rotary valve actuator with a control element is attached to the head of parallel functions. An ignition is additionally attached to the test insert, equipped with communication elements for connecting to the head of parallel functions. The temperature sensor and flash temperature indicator are located inside the sleeve. Outside the test insert, an additional flash point indicator is located above the ignition hole.

A disadvantage of the known device is its complexity and, as a consequence, the high cost of its production.

A device for determining the temperature of flammable liquids (2). A device for determining the temperature of flammable liquids contains a closed chamber with a heater located in its walls, an exhaust valve located on the chamber cover and consisting of a cylinder with ventilation holes and a piston coaxial with it. The flash sensor consists of a high voltage transformer, an intermediate transformer, an electric spark gap. The elements of the flash sensor are also a signal divider, a high-frequency generator, a counter and a locking element. The device also contains a high-voltage pulse generator, the output of which is connected to the terminals of the primary winding of the high-voltage transformer, a heater, a temperature sensor, a temperature display unit, the output of which is connected to the first control input of the high-voltage pulse generator.

The disadvantages of the known design include the complexity of the exhaust gas system after combustion and the low reliability of the device.

A known installation for automated determination of the flash point of petroleum products (3). In one thermostatic housing there are two recesses for crucibles, into which both fuel and oil can be poured, as well as fuel and oil of different grades, by eliminating the influence of external conditions when conducting parallel determinations and using temperature sensors for oil products, photocells for detecting a flash of oil products and a microprocessor controlling ignition means, a stirrer drive and crucible heaters in a predetermined range.

The disadvantage of this installation is the design complexity due to the presence of two crucibles at the same time.

The closest in technical essence to the proposed utility model is a device for determining the flash point of flammable liquids (4). The device comprises a closed chamber with a heater located in its walls, a measuring system with an ignition unit in

in the form of an electric spark gap placed in the chamber above the level of the test liquid and connected to a high-voltage pulse generator, a temperature sensor, an indication unit, the output of which is connected to the control input of the high-pulse generator, and an exhaust valve with a flash sensor located on the chamber cover. The exhaust valve consists of a cylinder with ventilation holes and a piston coaxial with it. The flash sensor is a magnet mounted on a piston and a magnetically controlled contact mounted on the cylinder cover. A magnetically controlled contact is connected to the control inputs of the display unit and heater power supply and an additional input of a high-voltage pulse generator.

A disadvantage of the known device is the ability to measure the flash point only in a closed crucible (according to the method of Pensky Martens), which narrows the temperature range of the flash of petroleum products.

The objective of the proposed utility model is the ability to determine the flash point both in closed (according to the Pensky Martens method) and in open (according to the Cleveland method) crucibles and to provide the ability to measure the flash point of oil products in a wider range with one instrument.

The problem is solved in that in a device for measuring the flash point of liquid petroleum products, containing a measuring system with an ignition unit and temperature recording means, a reaction chamber with a lid provided with an opening, and a heating element, according to a utility model, the reaction chamber is additionally equipped with a crucible, and a measuring the system is made with the possibility of combined registration of the flash point of the liquid in an open or closed crucible, while the hole in the lid is made with the possibility alternately placing two interchangeable inserts, one of which is made continuous, and the other contains ventilation ducts, the inserts are tightly coupled with the open top of the crucible, and its bottom is brought into contact with the heating element

(NE), and the temperature registration means is configured to parallelly measure the temperature of the liquid and vapor phases of oil products.

The temperature registration means is made in the form of two thermocouples, one of which is placed in the crucible of the reaction chamber in the zone with the liquid, and the second in the zone with the vapor phase of the studied oil product, while the flash point of the latter is determined by the ignition temperature of the liquid vapor.

In the recording mode of the flash temperature in a closed crucible, the hole in the lid contains a continuous removable insert.

In the flash temperature recording mode in an open crucible, the hole in the lid contains a removable insert with ventilation channels.

The essence of the utility model is illustrated by drawings.

Figure 1 presents a schematic diagram of a device for measuring the flash point of liquid petroleum products.

Figure 2 is a view of a continuous removable insert.

Figure 3 is a view of a removable insert with ventilation ducts.

A device for measuring the flash point of liquid petroleum products contains a reaction chamber 1 with a crucible 2 located therein, a heating element 3, a pressing spring 4, an ignition unit 5, thermocouples for registering the temperature of the liquid 6 and the temperature of the vapor of the liquid 7. The thermocouple 7 is placed in the reaction chamber above the liquid level 8, a thermocouple 6 is placed in liquid 8. A hole 9 is made in the cover 13 of the reaction chamber 1, into which either a continuous removable insert 10 or a removable insert 11 containing ventilation ducts 12 is inserted.

A device for measuring the flash point of liquid petroleum products is as follows.

Liquid 8 is poured into crucible 2 to a level at which the thermocouple for detecting the temperature of the liquid 6 is immersed, while the thermocouple for detecting the temperature of the vapor of the liquid 7 remains above the level

the measured liquid 8. The crucible 2 with the liquid 8 is placed in the reaction chamber 1 on the heater 3. The compression spring 4 presses the crucible 2 with the liquid 8 to the lid of the reaction chamber 1. In the opening 9 of the lid 13, either a continuous removable insert 10 or a removable insert 11 is placed, containing ventilation ducts 12. When using solid insert 10, determine the flash point in a closed crucible (according to the Pensky Martens method), when using insert 11 containing ventilation ducts 12, measure the flash point in an open crucible (according to the Pensky Mar method Jens). When heated above the surface of the liquid 8, steam is formed. Using thermocouples 6 and 7 measure the temperature of the liquid and liquid vapor, respectively. Between the electrodes of the ignition unit 5, an electric spark periodically slips, which, at a liquid temperature equal to the flash point, leads to the rapid combustion of accumulated vapors. The flash point is determined by a sharp change in the temperature of the liquid vapor 8 measured by the thermocouple 7. The liquid temperature measured with the thermocouple 6 is the flash point of the liquid in the closed crucible when the cover of the solid insert 10 is in the hole 9, or the flash point of the liquid in the open crucible, when placed in the hole 9 of the cover 13 of the insert 11 containing ventilation ducts 12. The entire process of determining the flash temperature is provided by the measuring system and takes place without human intervention.

A device manufactured in accordance with a utility model has the following characteristics.

Flash Temperature Range 102-180 ° C Open crucible 30-260 ° C In a closed crucible The absolute error in determining the flash point No more than 2% Sample heating rate before flash 5-6 ° C / min

Test sample volume 15 ml Overall dimensions of the device 300 × 260 × 180 mm Instrument weight No more than 7 kg Power consumption No more than 0.7 kVA

Sources of information:

1. Patent RU No. 2166189 C2, IPC ⁷ G 01 N 25/52; (21), (22) 971028902, 1997.02.26, (24) 1997.02.26, (54) “Method and apparatus for automated testing of flash points”, (72) Handshuk Bernhard et al. (DE).

2. Patent RU No. 2178885 C2, IPC ⁷ G 01 N 25/52; (21), (22) 2000108625, 2000.04.06, (24) 2000.04.06, (54) “Device for determining the flash point of flammable liquids”, (72) G. Mikheev

3. Patent RU No. 2187097 C2, IPC ⁷ G 01 N 25/50; (21), (22) 2000132385, 2000.12.25, (24) 2000.12.25, (54) “Installation for the automated determination of the flash point of oil products”, (72) Chechkenev I.V., Privalenko A.P., etc. .

4. SU, No. 1806359, IPC ⁵ G 01 N 25/52; (21), (22) 4868903, 1990.09.25, (46) 1993.03.30, (54) “Device for determining the flash point of flammable liquids”, (72) Mikheev G.M., Antonov V.I.

Claims (4)

1. A device for measuring the flash point of liquid petroleum products, comprising a measuring system with an ignition unit and temperature recording means, a reaction chamber with a lid provided with an opening, and a heating element, characterized in that the reaction chamber is additionally equipped with a crucible, and the measuring system is configured to be combined recording the temperature of the flash of liquid in an open or closed crucible, while the hole in the lid is made with the possibility of alternately placing two interchangeable grease, one of which is made solid, and the other contains ventilation channels, the inserts are tightly coupled with the open top of the crucible, and its bottom is brought into contact with the heating element (NE), and the temperature recording means is made with the possibility of parallel measurement of the temperature of the liquid and vapor phases petroleum products. 2. The device according to claim 1, characterized in that the temperature recording means is made in the form of two thermocouples, one of which is placed in the crucible of the reaction chamber in the zone with the liquid, and the second in the zone with the vapor phase of the test oil, the flash point of the latter determined by the ignition temperature of the liquid vapor. 3. The device according to claim 1, characterized in that in the recording mode of the flash temperature in the closed crucible, the hole in the lid contains a continuous removable insert. 4. The device according to claim 1, characterized in that in the mode of recording the flash temperature in the open crucible, the hole in the lid contains a removable insert with ventilation channels.