RU186787U1 - POWER CABLE - Google Patents

Abstract

The utility model relates to cable technology, namely, to the construction of power cables with plastic insulation and a sheath, designed for the transmission and distribution of electrical energy in stationary electrical installations with alternating voltage up to 1000 V and frequency up to 100 Hz. The power cable contains conductive conductors 1, insulation 2 from a cross-linked halogen-free polymer composition having an activation energy of at least 100 kJ / mol, with a TI of at least 100 for a time of 20,000 hours, with a KI of at least 28 and a specific heat of combustion of not more than 19 MJ / kg or from a cross-linked polyethylene composition, insulated cores of multicore cables are twisted into a core, an internal extruded sheath 3 of a halogen-free polymer composition with a KI of at least 40 and a specific heat of combustion of not more than 15 MJ / kg, thermal barrier 4 of glass enty or mica-containing tape, screen 5 of copper tapes or copper wires, or armor 6 of two galvanized steel tapes superimposed overlapping, or of steel wires, or wires of aluminum or aluminum alloy, and the outer shell 6 of a cross-linked polymer composition, halogen-free, having an activation energy of at least 100 kJ / mol, with a TI of at least 110 for a time of 20,000 hours, with a KI of at least 32 and a specific heat of combustion of not more than 18 MJ / kg. The technical result consists in the development of fireproof power cables designated at ambient temperature for a period of 60 years of service environments up to + 60 ° C.

Description

The utility model relates to cable technology, namely, to the construction of power cables with plastic insulation and a sheath, designed for the transmission and distribution of electrical energy in stationary electrical installations with alternating voltage up to 1000 V and frequency up to 100 Hz.

There are known non-combustible power cables of the PPGng (A) -NF and PvPGng (A) -NF brands, having conductive conductors, insulation and a sheath of polymer compositions that do not contain halogens (GOST 31996-2012 "Power cables with plastic insulation for nominal voltage 0.66; 1 and 3 kV ").

Such cables comply with the requirements for non-proliferation of combustion during group installation during testing in accordance with GOST IEC 60332-3-22-2011, the requirements for optical density of smoke during testing in accordance with GOST IEC 61034-2-2011, the requirements for corrosion activity of combustion products during testing in accordance with GOST IEC 60754-2-2015 and have a confirmed service life of 40 years at an ambient temperature of up to plus 50 ° С when tested according to IEC 60216-1 (2013) "Electrical insulating materials. Heat resistance characteristics. Part 1. Aging test procedures and evaluation of results."

However, in accordance with the requirements of PNST 167-2016 “Cable products for nuclear power plants. General technical requirements”, for cables intended for use at nuclear power plants, the assigned cable service life should be at least 60 years. The task was to select the design and determination of polymeric materials that provide a cable product with a service life of at least 60 years at an ambient temperature of up to plus 60 ° С while confirming the requirements for the non-proliferation of cable combustion in group laying with a fuel mass of 7 l / m, reducing light transmission during combustion and decay of not more than 40%, conductivity of an aqueous solution of absorbed smoke and gas products not more than 10 μS / mm with an acid number (pH) of not more than 4.3.

The technical result consists in the development of fire-resistant power cables with an assigned service life of 60 years at an ambient temperature of up to plus 60 ° C.

The technical result is achieved in that in a power cable containing at least one copper conductive core with insulation and an outer sheath of polymer compositions, the outer sheath is made of a cross-linked polymer composition that does not contain halogens with a temperature index (TI) determined by IEC 60216-1, at least 110 for a time of 20,000 hours, with an oxygen index (CI) of at least 32, and a specific heat of combustion determined in accordance with ISO 5660-1 of not more than 18 MJ / kg.

The insulation and the shell can be made of halogen-free polymer compositions crosslinked using the radiation or chemical crosslinking method, having an activation energy determined by GOST R 56722-2015 of at least 100 kJ / mol.

The cable insulation can be made from a cross-linked halogen-free polymer composition with a TI of at least 100 for a time of 20,000 hours, with a CI of at least 28 and a specific heat of combustion of not more than 19 MJ / kg, or from a cross-linked polyethylene composition.

The cable may additionally contain, on top of an insulated core or on top of an insulated core twisted into a core, an internal extruded sheath of a halogen-free polymer composition with a KI of at least 40 and a specific heat of combustion determined in accordance with ISO 5660-1 of not more than 15 MJ / kg

The cable may additionally contain a thermal barrier over the inner sheath in the form of a winding made of overlapping glass tape or mica-containing tape or a screen of copper tape or copper wire that can be connected with copper tape or skein, or armor of two galvanized steel tapes superimposed with an overlap, or from steel or aluminum or aluminum alloy wires.

As in prototype cable designs, the cable may have a bundle for central core filling, as well as fastening tapes over twisted insulated cores.

The utility model is illustrated in the drawing, which shows a power cable in section.

The power cable contains conductive conductors 1, insulation 2 from a cross-linked halogen-free polymer composition having an activation energy of at least 100 kJ / mol, with a TI of at least 100 for a time of 20,000 hours, with a KI of at least 28 and a specific heat of combustion of not more than 19 MJ / kg or from a cross-linked polyethylene composition, insulated cores of multicore cables are twisted into a core, an internal extruded sheath 3 of a halogen-free polymer composition with a KI of at least 40 and a specific heat of combustion of not more than 15 MJ / kg, thermal barrier 4 of glass tapes or mica tape, screen 5 of copper tapes or copper wires, or armor 6 of two galvanized steel tapes overlapping, or of steel wires or wires of aluminum or aluminum alloy, and the outer shell 7 of a cross-linked polymer composition not containing halogens having an activation energy of at least 100 kJ / mol, with a TI of at least 110 for a time of 20,000 hours, with a KI of at least 32 and a specific heat of combustion of not more than 18 MJ / kg.

The halogen-free polymer compositions used for the manufacture of the proposed cable are commercially available.

Conductors 1 are made of copper wire, traditional for electric cables, the twisting of the cable elements is carried out on conventional twisting equipment.

Thermal barrier 4 is imposed on the winding equipment, traditionally used in the cable industry.

Insulation 2, inner 3 and outer shell 7 are applied on extrusion equipment.

The overlay screen 5 of copper tapes or copper wires is carried out on known equipment, traditionally used in the cable industry.

The imposition of armor 6 is made on armor machines, traditionally used in the cable industry.

All samples of the proposed cables were tested for compliance with the following fire safety requirements: for non-proliferation of combustion during group installation according to GOST IEC 60332-3-22-2011, for smoke generation during combustion and smoldering in accordance with GOST IEC 61034-2-2005, for the amount of halogen gases emitted acids during the combustion of cable construction materials in accordance with GOST IEC 60754-2-2011. The test results are positive. The estimated service life was determined in accordance with the requirements of IEC 60216-1 and amounted to more than 60 years for an operating temperature of 60 ° C.

The results of tests carried out in accordance with the requirements of GOST IEC 60332-3-22-2011, on the service life, as well as comparative data on the specific heat of combustion of the cables (values of the calorific value of the cables of the prototype cables are taken as 100%) are given in the table.

Claims (9)

1. Power cable containing at least one copper conductive core, insulation and an outer sheath of polymer compositions, characterized in that the outer sheath is made of a halogen-free polymer composition with a temperature index (TI) of at least 110 for time 20,000 hours, with an oxygen index of at least 32 and a specific calorific value of not more than 18 MJ / kg. 2. The cable according to claim 1, characterized in that the insulation and the outer shell are made of halogen-free polymer compositions crosslinked by the radiation or chemical crosslinking method, having an activation energy of at least 100 kJ / mol. 3. The cable according to claim 2, characterized in that the insulation is made of a cross-linked halogen-free polymer composition with a temperature index (TI) of at least 100 for a time of 20,000 hours, with an oxygen index of at least 28 and a specific heat of combustion of not more than 19 MJ / kg. 4. The cable according to claim 1, characterized in that the insulation is made of a cross-linked polyethylene composition. 5. Cable according to any one of paragraphs. 1-4, characterized in that it further comprises, on top of an insulated core or on top of an insulated core twisted into a core, an inner shell of a halogen-free polymer composition with an oxygen index of at least 40 and a specific heat of combustion of not more than 15 MJ / kg. 6. The cable according to claim 5, characterized in that it further comprises a thermal barrier on top of the inner shell in the form of a winding made of glass tape or mica tape superimposed with overlapping. 7. The cable according to claim 5, characterized in that it further comprises a screen on top of the inner sheath made of copper tapes or copper wires. 8. The cable according to claim 7, characterized in that the copper tape or copper wire is connected by a copper tape or skein. 9. The cable according to claim 5, characterized in that it further comprises, on top of the inner shell, armor from two galvanized steel tapes superimposed overlapping, or from steel wires, or aluminum wires, or aluminum alloy wires.

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