DE2427031A1 - Extn of oil, sulphur, etc. from natural deposits - using microwave energy for prim or tert prodn - Google Patents

Abstract

In a process for the sepn. of liquefiable or volatile materials in solid carrier substances, esp. rock, whereby the material to be sepd. has greater permeability and dielectricity than the carrier, a magnetic field is generated in the carrier with a frequency corresp. to the natural (resonance) frequency of the material to be sepd., and the material which emanates intermittently from the carrier is removed. The equipment used is smaller than for conventional methods, and the efficiency is higher.

Description

PROCESS FOR DEPOSITING OR SEPARATING ITEMS IN THE FIXED TRACER, IN LIQUID OR GAS PHASE BRINGABLE MATERIALS The present invention is not applicable refer to a method for the deposition or separation of in the solid support, in particular located in the rock, in liquid or. Substances that can be brought into the gas phase are larger Permeabi-.

quality and dielectricity as the carrier, especially of mineral oil, of sulfur and similar substances.

The yield of mineral oil and similar substances are different Process known In the, for Oil yield most widespread, so-called Primary construction method is that in the oil-containing soil layer for ver.

Disposable potential deposit energy is used.

Only a relatively small proportion / 20-40% / of the available oil supply are burned up.

In the interest of increasing the oil yield, various Secondary and ternary building methods worked out. The essence of these procedures is there in the fact that at a corresponding distance from the point of extraction various substances and energy sources are transported to the storage to be smoked, thereby reducing the yield a part of the remaining oil is made possible. They are thermal oil expulsion processes and oleic blowing processes based on the use of surfactants known. The most widespread are: the burning "in 8itutf of the oil, injection from steam and hot water, injection of surface-active substances Water etc.

The obvious inadequacy of the known procedures exists that their efficiency is insufficient, their implementation difficult and costly is, furthermore, that it is only available in certain oil fields and only in a certain phase the yield are usable.

The purpose of the invention is to eliminate the deficiencies the known procedures.

never 4ufgahe dey invention is the elaboration of a method for Excretion or separation of those in the solid support, in liquid resp. Substances that can be brought into the gas phase, in particular from mineral oil, from sulfur and of similar substances that in every store, in every phase of the yield can be used with sufficient efficiency and economically.

According to the invention, this object is achieved in that in the carrier an electromagnetic F @ Ld of one into which to deposit or separate intended substances characteristic resonance band generated falling frequency and the substances emerging from the carrier with a time difference are secreted will.

The electromagnetic Fed is conveniently with the help of a Radiation means, advantageously a horn antenna, slot antenna and / or parabolic antenna generated.

Before the deposition or separation, it is advantageous to use the most absorptive one Part of the carrier with radiation means and reflectance measuring means, expediently confined with radiation of reduced energy and then during deposition or separation, the radiation means is directed at this part.

The electromagnetic energy is expediently through a Transmission line passed to the radiation means.

Several carrier layers can be selectively irradiated at the same time. Layers of initial adhesive water saturation or of greater water saturation can also be irradiated. The increased water saturation can be done artificially with added water be brought about.

The method according to the invention can be independent of the properties the trough layer and the fluids contained in it both from the technical, as even from the economic point of view, either with primary or secondary, or they can be used advantageously in the case of ternary yield. The procedure requires Much smaller plant than the known method, and ensures a very gluten Efficiency.

The invention is further based on the in the accompanying drawing example shown in detail.

From the power supply unit 7 electrical energy of the line frequency is in the Magnetron 6! Reflex klystron, or other microwave converter / passed through that the energy from the mains frequency is converted into microwave energy.

The microwave energy. is through the, in the riser 9 of the im During the drilling of the oil-bearing soil layer arranged rilbrunnens arranged / e.g.

coaxial / transmission line passed into the oil-containing layer 8.

The transmission line consists of an outer conductor 3 / sheath /, from an inner conductor 4 / core / and from insulating elements 5. To the in the. oily Layer 8 at the end of the transmission line will be a suitable radiation head connected, which consists of an antenna 2 and a reflector 1. By The microwave energy carried on the transmission line is with the help of the radiation head radiated into the oil-containing layer 8, creating an electromagnetic microwave field therein is brought about. Only with the help of the electromagnetic field is the oil then the water is separated from the existing water-oil-gas mixture. at the Separation remains both the 1 and the water in a liquid state. With the Induced changes may also favor the transformation of hydrocarbons caused by certain pressure energy to yield the liquid oil contributes. As a result of the very large loss factor ./tgj / a part of the water turns into steam. The vapor pressure also contributes for the separation of the oil, it should rather be emphasized. that this effect only makes up an insignificant part of the whole mechanism of action, so the process has a very good efficiency.

Treatment with electromagnetic microwave fields can be carried out in one or several wells or in the entire carrier rock simultaneously, continuously / can even be used for decades / or periodically. The carriage of the. electromagnetic Energy can be transferred to the carrier layer with a relatively small loss of energy be carried out. The energy of the resonance of the apparition is more characteristic Frequency / greater than 1 GHz / has such an effect on the water in the substance, that this is forced to flow off with great speed. This effect appears as the resultant of several partial phenomena, of which the selective Wave absorption capacity of water, as well as the dielectric constant or the magnetic permeability increasing effect of the alternating electromagnetic Field are the most important. The water flows as a result of this complex Effect partly through thermal evaporation, partly through mechanical movement from the carrier.

The energy transfer can be in the manner described with relative simple means and is practically lossless.

Of course, de absorb in the compounds of the mineral oil hostile highly volatile substances of relatively water dielectric and Permeability energy, or their gases and vapors also contribute to the yield of the mineral oil contribute.

If the microwave energy e.g. through a, in the riser of the existing The transmission line discharged from the well is routed into the corresponding layer, About 70-80% of the energy is used at the point of use, i.e. in the substance itself, to useful energy. When converting the energy from mains frequency to microwave energy the loss is determined by the efficiency of the magnetron. The one in the strahfting Any loss that occurs is negligible because the absorbent material is the whole radiated amount of energy absorbed with excellent efficiency.

If before the beginning of the effective yield in the twisting of the with antenna and reflex box designed radiation means - with reduced Energy - a so-called "aiming" is performed / determining in which Direction are the best absorbent layers / and the high performance is now blasted in the appropriate direction, an energy transfer can with very good efficiency can be achieved.

The procedure described can be used in any phase the Yield and in any field / also in fields with one or two floors / ve @ turns will. The irradiation method of the microwave energy may vary according to the circumstances to be changed.

Claims (8)

PATENT CLAIMS e procedures for the deposition or separation of in the solid support, in particular Substances that are in the rock and can be brought into the liquid or gas phase are larger Permeability and dielectricity as the carrier e t that in the carrier an electromagnetic field vnn into which the deposited or to separate intended substances characteristic resonance band falling Frequency is generated, and the substances dustred from the carrier with a time difference be segregated. 2. The method according to claim 1, characterized g ek e n n z e. not me t that the electromagnetic field with the help of a radiation means, advantageous a horn antenna, slot antenna and / or parabolic antenna is generated. 3. The method according to claim 2, characterized in that g e -k e n n z e i c h n e t that before the separation or Separation of the most absorbent part of the wearer with radiation media and reflecting means, conveniently confined with radiation of reduced energy and then during the deposition or separation, the radiation medium on this part is judged. 4. The method according to claim 2 or 3, characterized in that g e k e n n z e i c h n e t that the electromagnetic energy to the radiation means through a transmission line is directed. 5. The method according to any of the preceding claims, characterized in that g e k e n n n z e i c h n e t, that at the same time several carrier layers be irradiated. 6. Method according to any of the preceding claims thereby G e K e n n n 2 e i c h n e that a layer of @ initial adhesive water saturation is irradiated will. 7. The method according to any one of claims 1 to 5, characterized it is not noted that a layer is greater than the initial water saturation is irradiated. 8. The method according to claim 7, characterized in that g ek e n n z e i c h n e, t that the increased water saturation with added water brought about artificially will. L e r s e i t e