BS EN IEC 61125:2018
Current
The latest, up-to-date edition.
Insulating liquids. Test methods for oxidation stability. Test method for evaluating the oxidation stability of insulating liquids in the delivered state
Hardcopy , PDF
English
24-04-2018
FOREWORD
1 Scope
2 Normative references
3 Terms and definitions
4 Apparatus
Annex A (normative) - Thermometer specifications
Annex B (informative) - Method for evaluating the oxidation
stability of inhibited insulating liquids in the delivery
state by measurement of the induction period with
oxygen
Annex C (informative) - Method for evaluation of
thermo-oxidative behaviour of unused
ester insulating liquids
Bibliography
Annex ZA (normative) - Normative references to
international publications with their
corresponding European publications
Explains a test method for evaluating the oxidation stability of insulating liquids in the delivered state under accelerated conditions regardless of whether or not antioxidant additives are present.
Committee |
GEL/10
|
DevelopmentNote |
Supersedes BS EN 61125. (05/2018)
|
DocumentType |
Standard
|
Pages |
34
|
PublisherName |
British Standards Institution
|
Status |
Current
|
Supersedes |
This document describes a test method for evaluating the oxidation stability of insulating liquids in the delivered state under accelerated conditions regardless of whether or not antioxidant additives are present. The duration of the test can be different depending on the insulating liquid type and is defined in the corresponding standards (e.g. in IEC 60296, IEC 61099, IEC 62770). The method can be used for measuring the induction period, the test being continued until the volatile acidity significantly exceeds 0,10 mg KOH/g in the case of mineral oils. This value can be significantly higher in the case of ester liquids.
The insulating liquid sample is maintained at 120 °C in the presence of a solid copper catalyst whilst bubbling air at a constant flow. The degree of oxidation stability is estimated by measurement of volatile acidity, soluble acidity, sludge, dielectric dissipation factor, or from the time to develop a given amount of volatile acidity (induction period with air).
In informative Annex B, a test method for evaluating the oxidation stability of inhibited mineral insulating oils in the delivered state by measurement of the induction period with oxygen is described. The method is only intended for quality control purposes. The results do not necessarily provide information on the performance in service. The oil sample is maintained at 120 °C in the presence of a solid copper catalyst whilst bubbling through a constant flow of oxygen. The degree of oxidation stability is estimated by the time taken by the oil to develop a determined amount of volatile acidity (induction period with oxygen). Additional criteria such as soluble and volatile acidities, sludge and dielectric dissipation factor can also be determined after a specified duration.
In informative Annex C, a test method intended to simulate the thermo-oxidative behaviour of ester insulating liquids (headspace of air at 150 °C for 164 h) is described.
Additional test methods such as those described in IEC TR 62036 based on differential scanning calorimetry can also be used as screening tests, but are out of the scope of this document.
Standards | Relationship |
IEC 61125:2018 | Identical |
EN 60601-1-11:2010 | Identical |
EN IEC 61125:2018 | Identical |
IEC 61125:1992 | Identical |
ISO 4793:1980 | Laboratory sintered (fritted) filters — Porosity grading, classification and designation |
IEC 62021-1:2003 | Insulating liquids - Determination of acidity - Part 1: Automatic potentiometric titration |
IEC TR 62036:2007 | Mineral insulating oils - Oxidation stability test method based on differential scanning calorimetry (DSC) |
EN 60422:2013 | Mineral insulating oils in electrical equipment - Supervision and maintenance guidance |
IEC 62021-2:2007 | Insulating liquids - Determination of acidity - Part 2: Colourimetric titration |
EN ISO 3104:1996 | Petroleum products - Transparent and opaque liquids - Determination of kinematic viscosity and calculation of dynamic viscosity (ISO 3104:1994) |
IEC 60422:2013 | Mineral insulating oils in electrical equipment - Supervision and maintenance guidance |
IEC 60050-212:2010 | International Electrotechnical Vocabulary (IEV) - Part 212: Electrical insulating solids, liquids and gases |
ISO 383:1976 | Laboratory glassware — Interchangeable conical ground joints |
IEC 62770:2013 | Fluids for electrotechnical applications - Unused natural esters for transformers and similar electrical equipment |
IEC 61099:2010 | Insulating liquids - Specifications for unused synthetic organic esters for electrical purposes |
EN 62021-2 : 2007 | INSULATING LIQUIDS - DETERMINATION OF ACIDITY - PART 2: COLOURIMETRIC TITRATION |
IEC 60296:2012 RLV | Fluids for electrotechnical applications - Unused mineral insulating oils for transformers and switchgear |
EN 62021-3:2014 | Insulating liquids - Determination of acidity - Part 3: Test methods for non mineral insulating oils |
EN 60247:2004 | Insulating liquids - Measurement of relative permittivity, dielectric dissipation factor (tan d) and d.c. resistivity |
IEC 60666:2010 | Detection and determination of specified additives in mineral insulating oils |
ISO 6344-1:1998 | Coated abrasives Grain size analysis Part 1: Grain size distribution test |
IEC 60247:2004 | Insulating liquids - Measurement of relative permittivity, dielectric dissipation factor (tan d) and d.c. resistivity |
IEC 62021-3:2014 | Insulating liquids - Determination of acidity - Part 3: Test methods for non-mineral insulating oils |
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