PL112054B2 - Device for high pressure measurements - Google Patents

Description

The subject of the invention is a device for measuring high pressures, especially for measuring the pressure at the heads of gas and oil-gas wells. Until now, reference and precision manometers are used to measure high pressure at the heads of gas or oil-gas wells, which are known, for example, from the book W Pietraszewicz, A.Styrczula, J. Glogowski and E. Szulc Fri. "Manometers", published by PWT, Warsaw 1957. These manometers do not allow for a sufficiently accurate reading due to the fact that the reading value for the position of the pointer between the plots is estimated. Moreover, it is not possible to check the mounting of the manometer on the head in vertical position, i.e. a position corresponding to the conditions of its stamping on a truck press. A major inconvenience during pressure measurement is overcoming the friction of the manometer mechanism and bringing the pointer to a state of equilibrium. This is done by lightly tapping the manometer housing, which is performed in various ways The issue of temperature is also an essential issue, which is often different during measurements than during pressure gauges. All these drawbacks cause inaccuracies in pressure measurements. The device for measuring high pressure according to the invention is characterized by the fact that the manometer is placed on a stand equipped with a spirit level and is placed in an isothermal housing, inside which there is a thermometer and an isothermal tank. Furthermore, the device has a relief valve mounted downstream of the shut-off valve in the line supplying pressure from the point to be measured. The manometer has a pointer equipped with a vernier that enables measurement with an accuracy of 1/10 part of the gauge scale, and also has an attached elastic element vibrating with a rod, used to bring the manometer mechanism into equilibrium with a pointer. According to the invention, the device allows for measuring pressure with high accuracy , which is necessary to assess the condition of natural gas resources in the field and to determine the proper production characteristics of the wells and to determine the appropriate permitted gas extraction from the well. The accuracy of the measurement has a significant impact on the control of the course of the exploitation of natural gas deposits and allows for earlier detection112,054 of possible changes taking place in the boreholes. The device is simple in construction and easy to use, and thanks to the fact that it is equipped with an elastic vibrating element, the manometer tips are brought to the equilibrium state under identical conditions, which guarantees the repeatability of the readings obtained. 1 shows the high pressure measuring device in a schematic form and FIG. 2 shows the mounting of the vibrating element on the back wall of the pressure gauge. The high pressure measuring device according to FIG. 1 and FIG. 2 comprises a pressure gauge 1 located on a stand 2 equipped with a spirit level 3, which is placed in a double-walled isothermal housing 4 in a transparent material insulating the effects of external temperature. Inside the isothermal shield 4 there is a thermometer 5 and an isothermal tank 6 filled with a liquid with a temperature allowing the temperature inside the shield 4 to reach the temperature during the calibration of the pressure gauge 1 on a truck press. On the line 7 supplying the pressure from the measured point, downstream the cut-off valve 8, there is a relief valve 9, which suddenly eliminates gas pressure surges on the pressure gauge 1. On the back wall of the pressure gauge 1 there is a resilient vibrating element 10 with a rod 11 used to bring the pressure gauge mechanism into equilibrium 1 with hand 12 with vernier 13.. The method of measuring pressure is as follows. After positioning the tripod 2 and leveling the nanometer 1, using the knobs 14, use the spirit level 3 to connect the device with the cable 7 to the pressure measuring point. The shut-off valve 8 is then closed and the discharge valve 9 is open. After introducing gas into line 7 and checking the tightness, the shut-off valve 8 slightly opens, regulating the small gas flow that flows into the atmosphere with the relief valve 9. Then, observing the pointer 12 T.LMometer 1, the relief valve 9 slowly closes in this way so that the pointer 12 tilts into the equilibrium position by the water movement. After the pressure relief valve 9 is completely closed, the shut-off valve 8 opens. After the pointer 12 has reached its maximum deflection, the elastic element 10 is moved several times by a rod 11. The vibrations of the elastic vibrating element 10 are transmitted to the pressure gauge 1, causing the vibrations that fade away from the driving elements this mechanism. Thus, they change the static friction into kinematic friction, and as a result, it allows to achieve the equilibrium state of the pointer 12 of the pressure gauge 1. The pressure value is determined on the basis of the reading with an accuracy of 1/10 of a division on the pressure gauge scale and the previously made pressure gauge marking chart on a truck press. which are done in a known way. If the temperature inside the isothermal shield 4 differs from the temperature during the movement of the pressure gauge 1 on a truck press, the differences are compensated with a liquid with an appropriate temperature in the isothermal tank 6. Patent claim A device for measuring high pressure, especially for measuring wells gas and oil-gas, including a pressure gauge, characterized by the fact that the pressure gauge (1) is located on a stand (2) equipped with a spirit level (3) and is placed in an isothermal housing (4) inside which there is a thermometer (5) and a tank isothermal (6), the pressure gauge (1) has a pointer (12) equipped with a vernier (13) enabling measurement with an accuracy of 1/10 of the scale division of the manometer, and also has an attached elastic vibrating element (10) with a rod (11) for equilibrium of the manometer mechanism with the pointer (12), and moreover, the device has a relief valve (9) mounted behind a shut-off valve (8) on the line (7) supplying pressure from the point to be measured 112 054 ¦ 'vs »m» vv,' 'v' "y 'WV; '*' - * 'V' - '' iv 'V' V * ¦ '* "', .xV ^; \ n \\ V ^ \ x \ ^ 'vv \; tfv \ a ^ v \ A.Flg .l PL

Claims (1)

1. Patent claim A device for measuring high pressures, in particular for measuring the pressure at the heads of gas and oil-gas wells, including a manometer, characterized by the fact that the manometer (1) is located on a stand (2) equipped with a spirit level (3) and is placed in an isothermal casing (4), inside which there is a thermometer (5) and an isothermal tank (6), where the pressure gauge (1) has a pointer (12) equipped with a vernier (13) enabling measurement to the accuracy of 1/10 part of the pressure gauge scale, d, moreover, it has an attached resilient vibrating element (10) with a rod (11) to bring the pressure gauge mechanism into equilibrium with a pointer (12), and the device has a relief valve (9) mounted downstream of the shut-off valve (8) on the conduit (7) ) supplying the pressure from the point to be measured. 112 054 ¦ 'vs »m» vv,' 'v' "y 'WV;' * '- *' V '-' 'iv' V 'V * ¦' *" ',. xV ^; \ n \\ V ^ \ x \ ^ 'vv \; tfv \ a ^ v \ A. Flg.l PL