SU70932A1 - Deep gas meter - Google Patents

Description

A depth gasometer according to the invention is intended to determine the amount of free gas that rises along a wellbore filled with water in different sections of its height. A gas generator consists of a cylindrical vessel lowered on a cable into the well, fitted with a valve in the upper part and open at the bottom.

A specific feature of the proposed gasometer is the use of a float enclosed inside the vessel, freely attached to the rod, movably fixed along the vessel axis with the possibility of longitudinal movement in such a way that when the gasometer is lowered into the well under the action of the water filling the vessel, closing the valve as a result of the transfer of the rod to the upper position by spring force, and then as the vessel is filled with gas - the reverse lowering of the float causing the reverse transfer a stem and a valve for discharging the gas filling the vessel to determine the quantity of gas emitted by the oscillation frequency of the float.

The drawing shows the proposed depth gasometer. The gasometer is lowered into the well on a single-core cable 8 and consists of a cylindrical cup 7, a bottom cover 2, an upper cover 3 and a float 5 that slides freely over the rod 4. The latter is attached below the spring 6 with its lower end, and its upper end can freely move in bearing cap 9.

The lid 2 has a hole in the center, whereby the cup 4 is open at the bottom. When the entire instrument is immersed in the water of the well, the water will begin to raise the float, filling the glass. Air from the glass will then escape through the opening of the open valve. When the float reaches its extreme upper position, it will press the valve 7, mounted on the stem 4, transfer the entire stem upwards and expel the spring 6 into the upper position (shown by dotted lines). At the same time, the hole in the upper lid is closed with a rubber valve 7. After closing the lid, which rises along the well bore, the gas accumulates in the glass and force out the corresponding

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water volume. As the water level in the cylinder is lowered, the float will also be lowered until it is with children on the spring. Under the weight of the float, the spring will be blown out into the lower position, as a result of which it will open again in the upper cover, through which the gas will quickly escape. The appliance is refilled with water, after which the whole process is repeated again.

Obviously, the rate of filling the vessel with gas and, accordingly, the oscillation frequency of the float will depend on the amount of gas released or raised along the well per unit time.

In order to be able to count from the surface the quantities of filling the vessel with gas, an electric contact device was used in the gasometer. It consists of a contact U, which each time the rod is raised with the valve 7 closes on the body. The electrical impulses arriving at the surface of the earth each time the float is raised can be counted. It is possible to determine the volume of gas by the time that flows between the periods of current flow through the galvanometer and the absence of current. When calculating it is necessary, however, to take into account that the volume of gas at depth will vary depending on temperature and pressure.

Subject invention

Claims (2)

1. A deep gas meter for measuring the amount of gas released at various locations along the length of a well filled with water and consisting of a cylindrical vessel open below the well which is lowered into the well and equipped with a valve in the upper part, using a float enclosed inside the vessel. a rod movably fixed along the axis of the vessel with the possibility of longitudinal movement in such a way that when the gas meter is lowered into the well under the action of the filling water of the vessel, the first melting and, correspondingly, closing the valve as a result of the transfer of the rod to the upper position by spring force, and then, as the vessel is filled with gas, the float is reversed, causing the valve stem to be returned by releasing the gas filled to the vessel when the lower position is reached gas at the frequency of oscillation of the float. 2. In the gasometer according to claim 1, use a contact device designed for each movement of the rod to close the signal circuit and count the number of oscillations of the float.