UA80997C2 - Capacitor with film-type dielectric for boring devices - Google Patents

Abstract

A high-voltage pulse capacitor with film-type dielectric for boring devices relates to electrical engineering, in particular to high-voltage pulse capacitors and may be used for creation of capacitorsaccumulators of electrical energy in electric-hydro pulse boring devices for stimulation of oil production. The high-voltage pulse capacitor includes a hollow cylindrical pack of series connected sections located in a cylindrical metal body. Sections consist of metal plates and a dielectric located between plates, which saturated with electrical insulating material. Metal covers with insulators, inside of which current terminals of positive polarity located, are connected with a section butt end. Current terminal of negative polarity is connected with the section butt end and the metal body. One of metal covers is installed in such a way that makes a gap to the butt end of cylindrical section pack. A hollow is filled with gaseous dielectric. Butt ends of metal body are made with possibility of hermetical connection. Between capacitor plates a dielectric composed of three layers of polymer film is located. Near each plate it is located a layer of rough polypropylene film. Between polypropylene film layers it is placed polyethylene terephthalate film layer and a dielectric set saturated with phenyl xyliletane. The technical result is increasing of rated capacity and capacitor energy density enhancement.

Description

Description of the invention

The invention relates to electrical engineering, in particular to high-voltage pulse capacitors, and can be used. for the creation of capacitive accumulators of electrical energy in electrohydropulse well devices for the intensification of oil production.

The well-known power high-voltage pulse capacitor (patent of Ukraine Mo4849 MPK5 НО101/02 publ. 28.12.1994, Bull. Mo 7-1) contains a hollow cylindrical package of sequentially connected cylindrical sections containing metal linings placed in a cylindrical metal case between which there is a 70 castor oil-impregnated paper-film dielectric, metal covers with insulators, inside of which there are current outlets of positive polarity, connected to the end of the section, a current outlet of negative polarity, connected to the end of the section and the metal body of the capacitor, a temperature expansion compensator with vent, the capacitor is equipped with an additional current outlet made in the form of a "hollow cylindrical glass and connected to a current outlet of positive polarity, while the temperature expansion compensator 72 is located inside the additional current outlet, and one of the current outlets of positive polarity, located inside the insulator, is hollow and is used as an air duct, and the ends of the metal case are made with the possibility of a hermetic connection.

The features that coincide with the essential features of the technical solution that is claimed are as follows - a hollow cylindrical package of serially connected cylindrical sections containing metal linings, between which a dielectric impregnated with an electrically insulating liquid is located, is placed in a cylindrical metal case, metal covers with insulators, inside which there are current outlets of positive polarity, connected to the end of the section, current outlet of negative polarity, connected to the end of the section and the metal case of the capacitor, the ends of the metal case are made with the possibility of hermetic connection.

To the reasons that prevent obtaining the necessary technical. result, it is worth to attribute the low c value of the specific energy of the stored capacitor. In addition, the temperature expansion compensator used in the design of the capacitor Ge) is designed for a strictly defined temperature range (up to 80 es) and does not allow reliable operation of the capacitor at elevated temperatures (over 100 2).

A high-voltage pulse capacitor (patent of Ukraine Mo 17616 МПК5 НО101/02 publ. 07.16.2001, Bull. Mo 6) was adopted as a prototype, containing a hollow and cylindrical package of serially connected cylindrical sections placed in a cylindrical metal case metal linings/between which Ge) a dielectric impregnated with an electrically insulating liquid is located, metal covers with insulators, inside of which there are current outlets of positive polarity, connected to the end of the section, a current outlet of negative Ф polarity, connected to the end of the section and the metal body of the capacitor, the ends of the metal the housings are made of "with the possibility of a hermetic connection, while one of the metal covers is installed with a gap to the end of the package of cylindrical sections, and the formed cavity is filled with a gaseous dielectric and aluminum oxide granules in the ratio from 8:11 to 12:11, which use as a temperature expansion compensator, and a valve containing an elas gasket is installed on the cover material and the clamping screw.

The features that coincide with the essential features of the claimed invention are as follows - a hollow cylindrical package of sequentially connected cylindrical sections is placed in a cylindrical metal case, containing metal linings, between which a dielectric impregnated with an electrically insulating liquid is located, with metal covers with insulators, inside of which there are current outlets of positive polarity, connected to the end of the "z" section, current outlet. of negative polarity, connected to the end of the section and the metal body of the capacitor, the ends of the metal body are made with the possibility of a hermetic connection, while one of the metal covers is installed with a gap to the end of the package of cylindrical sections and the formed cavity is filled with a gaseous bo 75 dielectric.

Among the reasons preventing the achievement of the required technical result, it is worth mentioning the low (α) value of the specific energy of the stored capacitor. c The invention is based on the task of improving the design of the capacitor dielectric, which allows creating a capacitor with high values of the stored specific energy. (Se) 20 The essence of the invention is that in a high-voltage pulse capacitor, which contains a hollow cylindrical package of serially connected cylindrical sections, containing metal linings, between which the impregnated is located, placed in a still cylindrical metal case. electric insulating liquid dielectric, metal covers with insulators, inside of which there are current outlets of positive polarity, connected to the end of the section, a current outlet of negative polarity, connected to the end of the section and the metal body of the capacitor, while one of the metal covers is installed with a gap to the end a package of cylindrical sections and

GF) the formed cavity is filled with a gaseous dielectric, and the ends of the metal case are made with the possibility of 7 hermetic connections, according to the invention, a dielectric of three layers of polymer film is located between the covers of the capacitor sections, while a layer of rough polypropylene film is located near each of the covers, and between the layers of rough polypropylene film there is a layer of polyethylene terephthalate film and 60 the entire set of dielectric is impregnated with phenylxylylethan.

Revealing the causal relationship between the set of essential features of the claimed invention and the technical result that can be achieved, it is necessary to note the following.

An increase in the specific energy of the stored capacitor, M/u" in accordance with the prototype, is possible either due to an increase in the relative permittivity of the capacitor dielectric, or due to an increase in the working strength of the electric field in the dielectric E r

(0 ud yah Er

An increase in the specific energy of the stored capacitor due to an increase in the relative permittivity of the dielectric materials used is limited by the small range of these materials that can be used in high-voltage capacitor construction, because a dielectric with a high value of relative permittivity must also have high electrical strength. For example, ceramic /o materials are of the order of several thousand, but the magnitude of their electrical strength does not exceed 1008, while the values of the operating voltage of the electric field in the dielectric of modern high-voltage pulse capacitors exceed 100 kV/mm. Thus, the most optimal way to increase the specific energy of the stored high-voltage impulse capacitors is to increase the working voltage of the electric field, especially since their relationship according to formula (1) has a quadratic dependence.

Both in the prototype capacitor and in the analogue capacitor, a paper-film dielectric is used as the dielectric of the capacitor. In the proposed technical solution, a dielectric based on a polymer film is used, which has a higher electrical strength compared to a paper-film dielectric, which in turn allows for a 1.7-fold increase in the working strength of the electric field in the dielectric.

An increase in the value of Er is achieved by reducing the number of serially connected sections, this leads to a decrease in the mass and overall dimensions of the capacitor, which in turn leads to an increase in the specific energy of the stored capacitor.

It is necessary to note the factor due to which an increase in the energy of the stored capacitor is achieved when a dielectric based on polymer films is used in its design. The energy of the stored capacitor. MU is determined by the well-known formula сч 7 sig i9) счи 2 where C is the nominal capacity of the capacitor, Ф; -

Shu is the nominal voltage of the capacitor, V.

The capacity of the capacitor C, in turn, is inversely proportional to the thickness of the dielectric 4 of the capacitor Ф (22) 1 8) с шк (ав) d)

Compared to paper-film dielectric, the film dielectric has a higher electrical strength, which allows reducing the thickness of the capacitor dielectric, and this, taking into account formulas (2) and (3), .' leads to an increase in the specific energy of the stored capacitor. "

The application in the design of the claimed capacitor, in combination with a polypropylene film having an is 2.2, polyethylene terephthalate film having an is - 3.2, increases the equivalent relative dielectric - s permeability of the film dielectric in comparison with the polypropylene dielectric, and this is in accordance with formula "» (1) leads to an increase in the specific energy of the stored capacitor. " Ensuring high electrical strength of the film dielectric is achieved by impregnating it with an electrical insulating liquid. And the use of a rough polypropylene film in the design of the film dielectric ensures high-quality impregnation of the film dielectric. When choosing the type of impregnating liquid, the compatibility of this liquid with the used polymer films plays a very important role, which should also ensure the wetting of the polymer films, and as shown by the studies conducted at the Institute of Technical Sciences of the National Academy of Sciences of Ukraine, phenylxylylethane most fully meets these requirements when impregnating a polypropylene-polyethylene terephthalate dielectric. d) The essence of the invention is explained by the attached drawings. Figure 1 shows the design of a high-voltage SO 20 pulse capacitor for well devices. Fig. 2 shows a cross section of the capacitor dielectric. "m High-voltage pulse capacitor (Fig. 1) contains a cylindrical metal case 1, a hollow cylindrical package 2 of serially connected cylindrical sections 3 containing metal linings, between which a dielectric impregnated with an electrically insulating liquid is located, metal covers 4 with insulators 5, 2, inside of which there are current outlets b of positive polarity, connected to the end 7 of section C, current outlet 8 of negative polarity, connected to the end 9 of section C and the metal body 1. One of the metal covers 4 is installed with a gap to the end of the package 2 cylindrical sections C and the formed cavity 10 is filled with a gaseous dielectric. The ends 11 of the metal housing 1 are made with the possibility of a hermetic connection with the nodes of the well device. Between the covers 12 of the sections C of the capacitor there is a dielectric made of three 60 layers of polymer film, while next to each of the covers 12 a layer of rough polypropylene film 13 is located, and between the layers of rough polypropylene film 13 a layer of polyethylene terephthalate film 14 is placed and the entire set of dielectric is impregnated with phenylxylylethane.

In comparison with the high-voltage pulse capacitor IKP-30-0.8, which was previously manufactured by the IPT of the National Academy of Sciences

of Ukraine for well devices for the intensification of oil production, at a nominal voltage of ZOkv, with a nominal capacity of О.vmkf, with a specific stored energy of 39.1J/dm From application. the claimed design

made it possible to increase the nominal capacity of the capacitor to 1.2μF, i.e. by 5095 and the specific energy stored in the capacitor to 57J/dm3, i.e. by 45.895.

The principle of operation of the pulse capacitor consists in the accumulation of electrical energy, followed by its release in a short period of time.

Claims (1)

Formula of the invention 76 High-voltage pulse capacitor containing a hollow cylindrical package of sequentially connected cylindrical sections placed in a cylindrical metal case, containing metal linings, between which a dielectric impregnated with an electrically insulating liquid is located, metal covers with insulators, inside which current outlets of positive polarity are placed, connected to the end of the section, the current outlet of negative polarity is connected to the end of the section and the metal case, while one of the metal covers is installed with /5 gap to the ends of the package of cylindrical sections and the formed cavity is filled with a gaseous dielectric, and the ends of the metal case are made with the possibility hermetic connection, which is characterized by the fact that a dielectric of three layers of polymer film is located between the covers of the capacitor sections, while a layer of rough polypropylene film is located near each of the covers, and a layer of polyethylene tere is located between the layers of the rough polypropylene film phthalate film and the entire dielectric set is impregnated with phenylxylylethane. c schi 6) in (o) (o) "c) d) - and? (ee) («c) se) se) what has) 60 b5