Polyether-ether-ketone high-voltage flexible DC transmission optical fiber composite extruded cable

A flexible direct current transmission, polyether ether ketone technology, applied in the direction of insulated cables, communication cables, flexible cables, etc., can solve the problems of low carrier mobility, catalyst residue, etc.

Inactive Publication Date: 2018-03-06
YANGZHOU UNIV +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] At present, the commercial high-voltage DC cable materials on the market mainly use cross-linked polyethylene (XLPE), but the crystallinity of polyethylene is usually about 50%, and it has a

Method used

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  • Polyether-ether-ketone high-voltage flexible DC transmission optical fiber composite extruded cable
  • Polyether-ether-ketone high-voltage flexible DC transmission optical fiber composite extruded cable
  • Polyether-ether-ketone high-voltage flexible DC transmission optical fiber composite extruded cable

Examples

Experimental program
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preparation example Construction

[0030] 1. Preparation of modified potassium hexatitanate whiskers:

[0031] Add 1 to 3 kg of titanate coupling agent—pyrophosphate type monoalkoxy titanate TMC-114 or KR-38S into a mixed solvent of 10 L of water and 20 L of ethanol. After stirring for 60 min, add 100 kg of potassium hexatitanate whiskers with a diameter of 0.2-1.5 μm and a length of 10-50 μm into the above titanate coupling agent solution, ultrasonically disperse for 1-2 h, and then remove the Solvent ethanol and water to obtain 100 kg of surface-modified potassium hexatitanate whiskers.

[0032] 2. Preparation of thermally conductive insulating polyetheretherketone cable material:

[0033] 1. Preparation of modified nano-inorganic thermally conductive materials:

[0034] Method 1: Preparation of modified nano silicon nitride:

[0035] Add 1.0 kg of silane coupling agent KH550 into 10 L of water and 20 L of ethanol mixed solvent, stir for 30 min, then add 100 kg of nano-silicon nitride into the silane coupl...

example 1

[0086] Example 1. Production of cables with rated voltage ±160 kV:

[0087] (1) At a cross-sectional area of ​​500 mm 2 The tightly pressed circular copper conductor is wrapped with a semi-conductive nylon wrapping tape.

[0088] (2) Take the semi-conductive polyetheretherketone cable material, and form a conductor shielding layer 2 outside the wrapping tape through an extrusion process, with a thickness of 1.3 mm.

[0089] (3) Take thermally conductive and insulating polyetheretherketone cable material, and form an insulating layer 3 outside the conductor shielding layer 2 through extrusion process, with a thickness of 12.5 mm.

[0090] (4) Take the semiconductive polyether ether ketone cable material, and form an insulating shielding layer 4 outside the insulating layer 3 through an extrusion process, with a thickness of 1.0 mm.

[0091] (5) Wrap the optical fiber 6 in a stainless steel tube to make an optical fiber protected by a stainless steel tube in which the optical ...

example 2

[0097] Example 2. Production of cables with rated voltage ±220 kV:

[0098] (1) In a cross-sectional area of ​​1000 mm 2 The tightly pressed round high-purity aluminum conductor is wrapped with a semi-conductive nylon wrapping tape.

[0099] (2) Take the semi-conductive polyetheretherketone cable material, and form a conductor shielding layer 2 outside the wrapping tape through an extrusion process, with a thickness of 2.0 mm.

[0100] (3) Take thermally conductive and insulating polyetheretherketone cable material, and form an insulating layer 3 outside the conductor shielding layer 2 through an extrusion process, with a thickness of 25.0 mm.

[0101] (4) Take the semi-conductive polyetheretherketone cable material, and form an insulating shielding layer 4 outside the insulating layer 3 through an extrusion process, with a thickness of 1.3 mm.

[0102] (5) Wrap the optical fiber 6 in a stainless steel tube to make an optical fiber protected by a stainless steel tube in whic...

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Abstract

A polyether-ether-ketone (PEEK) high-voltage flexible DC transmission optical fiber composite extruded cable belongs to the technical field of wire and cable production. Metal conductors are arrangedin the center. The metal conductors are sequentially and concentrically coated with a conductor shielding layer, an insulating layer, an insulation shielding layer, a stainless steel pipe protected optical fiber layer, a semi-conductive buffer water blocking layer, a metal sheath layer, a nonmetal outer sheath layer, and a nonmetal conductive layer. A PEEK heat conducting and insulating, PEEK semi-conductive and PEEK conductive composite material is used as the material of the cable, and thus, a high-voltage flexible DC transmission optical fiber composite extruded cable all made of a PEEK material is constituted. The working temperature of the cable is increased, and high transmission capacity is achieved.

Description

technical field [0001] The invention belongs to the technical field of wire and cable production. Background technique [0002] The electric power industry is a basic industry related to the national economy and the people's livelihood. my country's economy continues to develop rapidly, people's living standards continue to improve, and energy demand grows rapidly. my country's power system needs to build UHV, long-distance, large-capacity, and low-loss power transmission channels. Power cables put forward higher requirements. At present, most of the power transmission cables in my country are AC extruded insulated cables, and with the continuous improvement of the operating voltage level, high-voltage flexible DC cables need to be used to solve the problem of long-distance cross-river, cross-river, cross-tourist scenic spots and megacities in China. The problem of power transmission corridors, and meet the power transmission needs of my country's offshore platforms and offsh...

Claims

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Application Information

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IPC IPC(8): H01B3/42H01B7/04H01B7/17H01B7/18H01B7/28H01B7/29H01B7/295H01B11/22
Inventor 朱爱萍张森
Owner YANGZHOU UNIV
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