SU635443A1 - Electric discharge-type source of elastic waves in liquid - Google Patents

Description

awakened vibrations. Consequently, in the case of a leredvizi container with an emitter along the wellbore nli in the water column, the duration and intensity of the excited oscillations at a constant amount of electrical energy vary depending on the hydrostatic pressure, which makes it difficult to compare the logging data or seismic sounding.

The aim of the invention is to increase the stability and autonomy of the source.

The goal is achieved by the fact that the R source is supplied with an additional container connected to the main container by a rigid gas-permeable partition, with the main n partially additional containers filled with electrolyte, ij from the part not filled with electrolyte up to 11 O.L1Table container pump out the air; electrolyte in an additional container takes from H to A - its volume; containers are made in the form of rigid sealed containers.

The drawing is shown schematically and electrically 0, the source of the "l1K elastic wolf s1; eze.

The source contains the main I and an additional 2 coithainers, made by T5 of the Herm7 type of 1 volumes from a material that can withstand a given hydrostatic pressure, and connected by a rigid gas-permeable partition 3. Electrolyte 4 is filled with main 1 container and partially additional container 2 in the range from CHA to / a its volume. A coaxial cable 5 is inserted into the ICOH container, whose inner core 6 is electrically connected to one of the discharge electrodes 7, and the braid 8 is electrically connected to the second discharge electrode 9. Both electrodes 7 and 9 are located in electrolyte 4 below the partition 3. Input of the coaxial cable 5 in containers 1 p 2 is sealed. From the cavity 10 of the container 2, which is above the electrolyte level, air is pumped out, resulting in a rarefied space in the cavity 10.

The operation of the device proceeds as follows.

The source is lowered into the fluid filling the well, or into the reservoir, so that the cavity 10 is in the upper part of the source. An electrical voltage is applied to the electrodes 7 and 9 through the coaxial cable 5, as a result of which an electrical discharge occurs in the electrolyte 4, which is accompanied by the excitation of elastic waves emitted through the container 1k into the environment. The gaseous products arising in the discharge process, through a gas-permeable barrier, go into the cavity 10. As a result, the excitation conditions in the electrolyte are maintained almost constant until the pressure in the cavity 10 rises significantly compared with the initial pressure, saturated NAR electrolyte in this stone.

Thus, the number of bits that can be produced without re-pumping out of cavity 10 is determined by the volume of this cavity, the energy of a single

discharge and electrolyte composition.

The use of the proposed device makes it possible to automatically maintain constant excitation conditions in the area where the electrical discharge occurs.

Thus, there is no need to use complex devices for the output of decomposition products. As a result, the autonomous operation of the emitter of the other waves becomes possible, which is perfectly

necessary when using the radiator; for logging in wells. In addition, the device makes it possible to eliminate the influence of hydrostatic pressure on the parameters of the excited oscillations, which is important not only for well, but also for some types of marine seismic studies. in particular, with vertical seismic sounding on the water area ..

F o) m o l and inventions

1. An electric discharge source of elastic waves in a liquid, made in the form of a container containing an electrolyte and two electrodes, one of which is fixed in

container and electrically isolated from it, so that in order to increase the stability and autonomy of the work of the source, an additional container is inserted into it, which is connected to the transparent container of a permeable gas-permeable a partition, moreover, the main | and partially supplementary containers are filled with electrolyte, and air is pumped out of the unfilled part of the additional container.

2. Source for and. 1, that is, with the fact that the electrolyte, in an additional container, takes from / 4 to / 3 of its volume.

3. Source by ip. 1 and 2, characterized in that the containers are made

in vnde rigid hermetic tanks.

Sources of information taken into account in the examination:

1. V.A. Kalinin, A.V. Kalnnin, Fatal: M.Iev Yev. “Experimental studies of an electric-spark pressure sensor. MSU Bulletin of Seri Geologicheskaya, 1967, AB 5, p. 158-175.

2. Kalini A.V., Fataliyev M.Kh. “Electrospark source of elastic oscillations for detailed seismoacoustic profiling in freshwater and sea water areas - Applied Geophysics, 1974,

№ 75, p. 69-75.

YU