BSI PD IEC TR 60099-10:2024
$198.66
Surge arresters – Rationale for tests specified by IEC 60099-4:2014
| Published By | Publication Date | Number of Pages |
| BSI | 2024 | 64 |
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | undefined |
| 4 | CONTENTS |
| 9 | FOREWORD |
| 11 | INTRODUCTION |
| 12 | 1 Scope 2 Normative references 3 Terms and definitions 4 Structure of the document 4.1 Content of each individual test rationale |
| 13 | 4.2 Relation between each test of IEC 60099-4:2014 and this document Table 1 – Test rationale clause/subclause number for each test in 60099-4:2014 |
| 14 | 5 Insulation withstand tests rationale 5.1 Arrester type for which the tests are applicable 5.2 Purpose of the tests 5.3 Historical notes 5.4 Tests rationale 5.4.1 General |
| 15 | 5.4.2 Sample selection rationale |
| 16 | Figures Figure 1 – Possible arcing distances (7 paths to consider for this example) for a multi-unit arrester (from CIGRÉ 696-2017) |
| 17 | 5.4.3 Test procedure rationale |
| 18 | Figure 2 – Withstand voltage versus duration |
| 20 | 5.4.4 Evaluation rationale 5.4.5 Common misunderstandings |
| 21 | 6 Residual voltage tests rationale 6.1 Arrester type for which the tests are applicable 6.2 Purpose of the tests 6.3 Historical notes 6.4 Tests rationale 6.4.1 General |
| 22 | 6.4.2 Sample selection rationale 6.4.3 Tests procedures rationale |
| 25 | 6.4.4 Evaluation rationale 7 Test to verify long term stability under continuous operating voltage rationale 7.1 Arrester type for which the test is applicable 7.2 Purpose of the test 7.3 Historical notes |
| 26 | 7.4 Test rationale 7.4.1 General |
| 27 | 7.4.2 Sample selection rationale Table 2 – Calculated minimum life expectancy if MO resistors would perfectly follow the Arrhenius law |
| 28 | 7.4.3 Test procedure rationale 7.4.4 Evaluation rationale 8 Test to verify the repetitive charge transfer rating (Qrs) rationale 8.1 Arrester type for which the test is applicable 8.2 Purpose of the test 8.3 Historical notes |
| 29 | 8.4 Test rationale 8.4.1 General 8.4.2 Sample selection rationale 8.4.3 Test procedure rationale Figure 3 – Sequence of the test to verify the repetitive charge transfer rating |
| 30 | 8.4.4 Evaluation rationale 8.4.5 Common misunderstandings |
| 31 | 9 Heat dissipation behavior of test sample rationale 9.1 Arrester type for which the test is applicable 9.2 Purpose of the test 9.3 Historical notes 9.4 Test rationale 9.4.1 General |
| 32 | 9.4.2 Sample selection rationale 9.4.3 Test procedure rationale 9.4.4 Evaluation rationale |
| 33 | 10 Operating duty test rationale 10.1 Arrester type for which the test is applicable 10.2 Purpose of the test 10.3 Historical notes Figure 4 – Example of cooldown curves of test samples |
| 34 | 10.4 Test rationale 10.4.1 General 10.4.2 Sample selection rationale 10.4.3 Test procedure rationale |
| 35 | Figure 5 – Operating duty test sequence |
| 36 | 10.4.4 Evaluation rationale |
| 37 | 10.4.5 Common misunderstandings 11 Power-frequency voltage-versus-time test rationale 11.1 Arrester type for which the test is applicable 11.2 Purpose of the test Figure 6 – Examples of TOV curves |
| 38 | 11.3 Historical notes 11.4 Test rationale 11.4.1 General 11.4.2 Sample selection rationale 11.4.3 Test procedure rationale |
| 39 | 11.4.4 Evaluation rationale 11.4.5 Common misunderstandings 12 Tests of arrester disconnector rationale 12.1 Arrester type for which the tests are applicable 12.2 Purpose of the tests Figure 7 – Power-frequency versus time test sequence |
| 40 | 12.3 Historical notes 12.4 Tests rationale 12.4.1 General 12.4.2 Sample selection rationale 12.4.3 Tests procedure rationale 12.4.4 Evaluation rationale |
| 41 | 13 Short-circuit tests rationale 13.1 Arrester type for which the test is applicable 13.2 Purpose of the test 13.3 Historical notes |
| 42 | 13.4 Test rationale 13.4.1 General |
| 43 | 13.4.2 Sample selection rationale 13.4.3 Test procedure rationale |
| 45 | 13.4.4 Evaluation rationale Figure 8 – Impact of the connecting leads on arc movement and short-circuit test severity |
| 46 | 13.4.5 Common misunderstandings 14 Test of the bending moment of porcelain-housed arresters rationale 14.1 Arrester type for which the test is applicable 14.2 Purpose of the test 14.3 Historical notes |
| 47 | 14.4 Test rationale 14.4.1 General Figure 9 – Graphic representation of the relationships between testsin the bending moment tests for porcelain-housed arresters |
| 48 | 14.4.2 Sample selection rationale 14.4.3 Test procedure rationale 14.4.4 Evaluation rationale Figure 10 – Examples of MBL and SSL test results |
| 49 | 15 Test of the bending moment of polymer-housed arresters rationale 15.1 Arrester type for which the test is applicable 15.2 Purpose of the test 15.3 Historical notes Figure 11 – Graphic representation of the relationships between tests in the bending moment tests for polymer-housed arresters |
| 50 | 15.4 Test rationale 15.4.1 General 15.4.2 Sample selection rationale |
| 51 | 15.4.3 Test procedure rationale 15.4.4 Evaluation rationale 16 Environmental tests rationale 16.1 Arrester type for which the tests are applicable 16.2 Purpose of the tests |
| 52 | 16.3 Historical notes 16.4 Test rationale 16.4.1 General 16.4.2 Sample selection rationale 16.4.3 Test procedure rationale 16.4.4 Evaluation rationale |
| 53 | 17 Seal leak rate test rationale 17.1 Arrester type for which the test is applicable 17.2 Purpose of the test 17.3 Historical notes 17.4 Test rationale 17.4.1 General 17.4.2 Sample selection rationale 17.4.3 Test procedure rationale 17.4.4 Evaluation rationale 18 Radio interference (RIV) test rationale 18.1 Arrester type for which the test is applicable |
| 54 | 18.2 Purpose of the test 18.3 Historical notes 18.4 Test rationale 18.4.1 General 18.4.2 Sample selection rationale 18.4.3 Test procedure rationale 18.4.4 Evaluation rationale 19 Test to verify the dielectric withstand of internal components rationale 19.1 Arrester type for which the test is applicable 19.2 Purpose of the test |
| 55 | 19.3 Historical notes 19.4 Test rationale 19.4.1 General 19.4.2 Sample selection rationale |
| 56 | 19.4.3 Test procedure rationale 19.4.4 Evaluation rationale 20 Tests of internal grading components rationale 20.1 Arrester type for which the tests are applicable 20.2 Purpose of the test 20.3 Historical notes 20.4 Test rationale 20.4.1 General |
| 57 | 20.4.2 Sample selection rationale 20.4.3 Test procedure rationale 20.4.4 Evaluation rationale 21 Weather aging tests rationale 21.1 Arrester type for which the tests are applicable |
| 58 | 21.2 Purpose of the tests 21.2.1 Salt fog test 21.2.2 UV light test 21.3 Historical notes 21.3.1 Salt fog test 21.3.2 UV light test 21.4 Test rationale 21.4.1 General |
| 59 | 21.4.2 Sample selection rationale 21.4.3 Test procedure rationale 21.4.4 Evaluation rationale 22 Routine tests and acceptance tests rationale 22.1 Routine tests |
| 60 | 22.2 Acceptance tests |
| 62 | Bibliography |
