Corona Shielding System For An Electrical Machine

Abstract

The present disclosure relates to electrical machines. The teachings thereof may be embodied in a corona shielding system, especially an outer corona shielding system, for an electrical machine. For example, a corona shielding system may include: a polymeric matrix; particles disposed in the matrix, including a mica-coated core and a layer of metal oxide disposed on the core; and a surface functionalization material disposed on a surface of the particles for binding to the matrix.

Claims

1. A corona shielding system for an electrical machine, the system comprising: a polymeric matrix; particles disposed in the polymeric matrix, the particles comprising a mica-coated core and a layer formed by a metal oxide disposed on the core; and a surface functionalization material disposed on a surface of the particles for binding to the matrix.

2. The corona shielding system as claimed in claim 1, wherein the metal oxide comprises tin oxide.

3. The corona shielding system as claimed in claim 1, wherein the polymeric matrix comprise plastic or resin.

4. The corona shielding system as claimed in claim 1, wherein the surface functionalization material comprises a molecule covalently bonded to the metal oxide or the polymeric matrix.

5. The corona shielding system as claimed in claim 1, wherein the surface functionalization material comprises an oligomeric structure.

6. The corona shielding system as claimed in claim 1, wherein the surface functionalization material comprises a polymeric structure.

7. The corona shielding system as claimed in claim 1, wherein the surface functionalization material comprises: a first component disposed far from the mica-coated core; and a second component disposed close to the mica-coated core; wherein the first component is formed with lower electrical polarity than the second component or the mica-coated core.

8. An electrical machine comprising: a high-voltage machine; and corona shielding system comprising: a polymeric matrix; particles disposed in the polymeric matrix, the particles comprising a mica-coated core and a layer formed by a metal oxide disposed on the core; and a surface functionalization material disposed on a surface of the particles for binding to the matrix.

Description

DETAILED DESCRIPTION

[0015] The corona shielding systems described in the present disclosure may include corona shielding systems for an electrical machine, especially a high-voltage machine, appropriately a generator for generation of electrical energy, an electric motor, or another piece of electrical equipment having a relatively high rated voltage, e.g., a transformer, a bushing, or a cable. In some embodiments, the corona shielding system includes an outer corona shielding system. In some embodiments, the corona shielding system comprises a polymeric matrix and particles disposed therein having a mica-coated core and a layer formed by metal oxide disposed on the core, wherein the particles have surface functionalization, especially for binding to the matrix.

[0016] The metal oxide may include tin oxide, e.g., tin dioxide. The matrix may be formed with plastic and/or with resin, e.g., a reactive resin.

[0017] By means of the surface functionalization for binding to the matrix, it is possible to reduce or even entirely avoid defects at the interface between the particle surface and the matrix. More particularly, for avoidance of defects, not only adhesion forces between the surface of the particles and the matrix are available; instead, the binding is enhanced by the surface functionalization. Delamination of the corona shielding system at the interface between the particle surface and matrix is thus counteracted. However, such defects that are critical because of the field line profile resulting from different permittivities of the particles and the matrix, specifically with regard to the expected electrical lifetime of the corona shielding system and hence the electrical machine. In some embodiments, the otherwise prevailing adhesion forces between the particle surface and matrix are at least partly replaced by covalent chemical bonds between the particle surface and matrix.

[0018] In some embodiments, the particles have dimensions of, at least on average (arithmetic average), not more than one millimeter, e.g., at least on average (arithmetic average), not more than 100 micrometers.

[0019] In some embodiments, the surface functionalization comprises molecules which firstly bind readily to the tin oxide surface of the particle, but secondly bind readily to the matrix. For example, in some embodiments, the surface functionalization comprises an organosilane.

[0020] In some embodiments, the functionalization in the corona shielding system of the invention comprises a molecule covalently bonded to metal oxide and/or the matrix.

[0021] In some embodiments, in the corona shielding system, the functionalization comprises an oligomeric structure. In some embodiments, the functionalization comprises a polymeric structure.

[0022] In some embodiments, the functionalization far from the core is formed with lower electrical polarity than close to the core and/or the core itself. In some embodiments, the functionalization comprises mercapto-propyltrimethoxysilane.

[0023] The functionalization with matrix-optimized structures and/or molecules improves sedimentation characteristics, meaning that the density is reduced and the current resistance is increased. Thus, the particles may be homogeneously distributed in the matrix. In some embodiments, the functionalization homogenizes the transition between the permittivities of the particles and the matrix. Wetting of the particles with the liquid matrix is distinctly improved as a result of the matching of the surface energy of the particles to a fluid matrix.

[0024] In some embodiments, the electrical machine comprises a high-voltage machine, e.g., a generator for generation of electrical energy, or an electric motor, or another piece of electrical equipment having a relatively high rated voltage, e.g., a transformer, a bushing, or a cable.