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BS EN IEC 62271-4:2022 – TC:2023 Edition

BS EN IEC 62271-4:2022 – TC:2023 Edition

$280.87

Tracked Changes. High-voltage switchgear and controlgear – Handling procedures for gases for insulation and/or switching

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BSI 2023 548
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This part of IEC 62271 applies to the procedures for handling of gases and gas mixtures for insulation and/or switching during installation, commissioning, repair, overhaul, normal and abnormal operations and disposal at the end-of-life of high-voltage switchgear and controlgear. These procedures are regarded as minimum requirements to ensure the reliability of electric power equipment, the safety of personal working with these gases and gas mixtures and to minimize the impact on the environment. Additional requirements could be given or specified in the operating instruction manual of the manufacturer. For each gas or gas mixture, which is known to be used in electric power equipment at the date of the publication of this document, a separate annex describes specifications, handling procedures, safety measures, etc. For gases or gas mixtures not covered by these annexes the electric power equipment manufacturer should provide the information needed, following the structure of these annexes. Such gases or gas mixtures should also be described in a next edition or in amendments to this edition. NOTE 1 For the use of this document, high-voltage (HV) is defined as the rated voltage above 1 000 V. However, the term medium-voltage (MV) is commonly used for distribution systems with voltages above 1 kV and generally applied up to and including 52 kV. NOTE 2 Throughout this standard, the term “pressure” stands for “absolute pressure”. NOTE 3 Reference is also made to (Cigré Brochure 802, 2020). NOTE 4 For further details on gases, e.g. ecotoxicology, also refer to the chemical database ECHA (www.echa.europa.eu), which takes the actual volume band into consideration. NOTE 5 When reference to circuit-breakers is made, only gas circuit-breakers are of interest. When vacuum circuit breakers are of interest, they are explicitly mentioned.

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PDF Pages PDF Title
302 undefined
307 Annex ZA (normative)Normative references to international publicationswith their corresponding European publications
309 English
CONTENTS
322 FOREWORD
324 INTRODUCTION
325 1 Scope
2 Normative references
326 3 Terms and definitions
3.1 General terms and definitions
331 3.2 Terms and definitions for SF6
3.3 Terms and definitions for SF6 mixtures
332 3.4 Terms and definitions for compressed air
333 3.5 Terms and definitions for natural-origin gases
334 3.6 Terms and definitions for C5F10O (C5-FK) in mixtures with N2, CO2, O2 (C5‑FK mixtures)
335 3.7 Terms and definitions for C4F7N (C4-FN) in mixtures with N2, CO2, O2 (C4‑FN mixtures)
336 4 Gas handling during installation, commissioning and after repair or overhaul on site
4.1 General
337 4.2 Evacuation, filling and quality checking
338 Figures
Figure 1 – Evacuation, filling and checking of the quality of the gas after filling
339 Tables
Table 1 – Evacuation, filling and checking of the quality of the gas after filling
340 4.3 Toppingup of prefilled gas compartments to the filling pressure/density for insulation and/or switching
341 Figure 2 – Topping‑up of prefilled gas compartments to the filling pressure/densityfor insulation and/or switching
342 4.4 Filling sealed pressure systems
5 Gas handling during normal service life
5.1 Topping-up of gas to the filling pressure/density for insulation and/or switching
Table 2 – Toppingup of prefilled gas compartments to the filling pressure/density for insulation and/or switching
343 Figure 3 – Topping-up of a gas to the filling pressure/densityfor insulation and/or switching
344 5.2 Checking the quality of the gas
5.2.1 General
5.2.2 On-site measurement of the quality of gases with portable measurement equipment
Table 3 – Topping-up of a gas to the filling pressure/densityfor insulation and/or switching
345 5.2.3 Sampling and shipment of gases for offsite analysis
5.3 Rectifying the composition of a gas mixture
Table 4 – Sampling and shipment of gases
346 6 Recovery and reclaiming of gases during maintenance, repair, overhaul or dismantling on-site
6.1 General
6.2 Recovery and reclaiming of nonarced or normally arced gases from any gas compartment
347 Figure 4 – Example of recovery and reclaiming of nonarcedor normally arced gas from any gas compartment
348 6.3 Recovery and reclaiming from any gas compartment containing heavily arced gas
Table 5 – Example of recovery and reclaiming of nonarcedor normally arced gas from any gas compartment
349 Figure 5 – Example of recovery and reclaiming of heavilyarced gas from any gas compartment
350 7 End-of-life of electric power equipment
7.1 General
Table 6 – Example of recovery and reclaiming of heavily arced gasfrom any gas compartment
351 7.2 Endoflife of controlled or closed pressure systems
7.3 Endoflife of sealed pressure systems
Figure 6 – Endoflife of controlled or closed pressure systems
352 7.4 Gas recovery and reclaiming at the endoflife of sealed pressure systems
Figure 7 – Endoflife of sealed pressure systems
353 Figure 8 – Gas recovery and reclaiming at the endoflife of sealed pressure systems
354 Table 7 – Gas recovery at the endoflife of sealed pressure systems
355 Figure 9 – Dilution method
356 7.5 Dismantling of electric power equipment (informative)
Figure 10 – Dismantling of electric power equipment
357 Annex A (informative)Sulphur hexafluoride (SF6)
A.1 Gas properties
A.2 Safety and first aid
A.2.1 General
Figure A.1 – Pressure-temperature-density diagram for SF6
358 A.2.2 Protection of personnel
Table A.1 – Measures when working with SF6 electric power equipment
359 Table A.2 – Safety measures when opening or accessing gas compartments
360 A.2.3 Handling of contaminated safety equipment and tools
A.2.4 Pressurised equipment and tools or measuring devices
A.2.5 Personal safety and protective equipment
361 A.2.6 Facilities and services
A.2.7 Additional safety measures in case of sudden release of SF6
A.2.8 First aid equipment and treatment
362 A.3 Environmental impact
A.4 Training and certification
A.4.1 General
363 A.4.2 Training
364 A.4.3 Certification
A.5 Storage and transportation
A.5.1 General
A.5.2 Storage of containers filled with SF6
365 A.5.3 Transportation of containers filled with SF6
Table A.3 – Examples of container types required for storage and transportation of SF6
366 A.5.4 Storage and transportation of electric power equipment containing SF6
Table A.4 – International regulations for shipment of SF6
367 A.5.5 Responsibilities
A.6 Description of handling equipment
A.6.1 General
368 A.6.2 Filters
Figure A.2 – Schematic view of an example of a handling equipment for SF6
369 A.6.3 Vacuum pump
370 A.6.4 Main and vacuum compressors
A.6.5 Outlet compressor
A.6.6 External and internal gas storage containers
A.6.7 Evaporator and gas storage container heater
371 A.6.8 Gas piping and pipe junctions
A.6.9 Control instruments
A.6.10 Safety valves
A.6.11 Flexible hose connections
A.6.12 Portable devices for gas measurement
Table A.5 – Gas measuring devices
373 A.6.13 Gas leakage tester
A.6.14 Gas concentration alarm systems
374 A.6.15 Gas sampling cylinders
A.7 Reclaiming procedures
A.8 By-products
A.9 Procedure to evaluate the potential effects on health of byproducts
A.10 Handling of SF6
A.10.1 General
A.10.2 Filling gas compartments with SF6
A.10.3 Topping-up gas compartments with SF6 to the filling pressure for insulation and/or switching
A.10.4 Checking the quality of SF6
A.10.5 Recovery and reclaim of SF6
A.11 Specifications for SF6 needed for filling or topping-up electric power equipment
375 Annex B (informative)SF6 mixtures
B.1 Gas properties
B.1.1 General
B.1.2 Chemical properties
B.1.3 Physical properties
Table B.1 – Main chemical characteristics of CF4 and N2
376 B.1.4 Insulating and switching behaviour
Table B.2 – Main physical characteristics of CF4 and N2
377 B.2 Safety and first aid
B.2.1 General
B.2.2 Protection of personnel
B.2.3 Handling of contaminated safety equipment and tools
B.2.4 Pressurised equipment and tools or measuring devices
B.2.5 Personal safety and protective equipment
B.2.6 Facilities and services
B.2.7 Additional safety measures in case of sudden release of SF6 mixtures
B.2.8 First aid equipment and treatment
B.3 Environmental impact
B.4 Training and certification
B.4.1 General
378 B.4.2 Training
B.4.3 Certification
B.5 Storage and transportation
B.5.1 General
B.5.2 Storage of containers filled with SF6 mixture
380 B.5.3 Transportation of containers filled with SF6 mixture
Table B.3 – Examples of container types required for storage and transportation of SF6 mixtures and their complementary gases
381 B.5.4 Storage and transportation of electric power equipment containing SF6 mixture
Table B.4 – International regulations for shipment of SF6 mixtures
382 B.5.5 Responsibilities
B.6 Description of handling equipment
B.6.1 General
383 Figure B.1 – Schematic view of an example of a handling equipment for SF6 mixture
384 B.6.2 Filters
B.6.3 Vacuum pump
B.6.4 Main and vacuum compressors
B.6.5 Outlet compressor
B.6.6 External and internal gas storage containers
B.6.7 Evaporator and gas storage container heater
B.6.8 Gas piping and pipe junctions
B.6.9 Control instruments
B.6.10 Safety valves
B.6.11 Flexible hose connections
B.6.12 Portable devices for gas measurement
385 B.6.13 Gas leakage tester
B.6.14 Gas concentration alarm systems
Table B.5 – Gas measuring devices
386 B.6.15 Gas sampling cylinders
B.6.16 Gas mixing unit
B.7 Reclaiming procedures
B.8 By-products
B.9 Procedure to evaluate the potential effects on health of byproducts
B.10 Handling of SF6 mixtures
B.10.1 General
387 B.10.2 Filling gas compartments with SF6 mixtures
B.10.3 Topping-up gas compartments with SF6 mixtures to the filling pressure for insulation and/or switching
388 B.10.4 Checking the quality of SF6 mixtures
B.10.5 Recovery and reclaim of SF6 mixtures
389 B.10.6 Rectifying the composition of SF6 mixtures
B.11 Specifications for SF6 mixtures needed for filling or topping-up electric power equipment
390 Annex C (informative)Compressed air
C.1 Gas properties
C.1.1 General
C.1.2 Chemical properties
C.1.3 Physical properties
Table C.1 – Main chemical characteristics of N2 and O2
391 C.1.4 Insulating and switching behaviour
C.2 Safety and first aid
C.2.1 General
Table C.2 – Typical physical characteristics of N2 and O2
392 C.2.2 Protection of personnel
Table C.3 – Measures when working with electric powerequipment containing compressed air
393 C.2.3 Handling of contaminated safety equipment and tools
C.2.4 Pressurised equipment and tools or measuring devices
Table C.4 – Safety measures when opening or accessing gas compartments
394 C.2.5 Personal safety and protective equipment
395 C.2.6 Facilities and services
C.2.7 Additional safety measures in case of sudden release of compressed air
C.2.8 First aid equipment and treatment
396 C.3 Environmental impact
C.3.1 General
C.3.2 Ecotoxicology
397 C.3.3 Ozone depletion
C.3.4 Global warming/climate change (greenhouse effect)
C.3.5 Environmental impact of by-products
C.4 Training and certification
C.4.1 General
C.4.2 Training
398 C.4.3 Certification
399 C.5 Storage and transportation
C.5.1 General
C.5.2 Storage of containers filled with compressed air
C.5.3 Transportation of containers filled with compressed air
Table C.5 – Examples of container types required for storageand transportation of compressed air
400 C.5.4 Storage and transportation of electrical power equipment containing compressed air
C.5.5 Responsibilities
C.6 Description of handling equipment
C.6.1 General
Table C.6 – International regulations for shipment of compressed air
401 C.6.2 Filters
Figure C.1 – Controlled release of compressed air
402 C.6.3 Vacuum pump
Table C.7 – Typical filter types used during releaseof compressed air to the atmosphere
403 C.6.4 Main and vacuum compressors
C.6.5 Outlet compressor
C.6.6 External and internal gas storage containers
C.6.7 Evaporator and gas storage container heater
C.6.8 Gas piping and pipe junctions
C.6.9 Control instruments
404 C.6.10 Safety valves
C.6.11 Flexible hose connections
C.6.12 Portable devices for gas measurement
Table C.8 – Gas measuring devices
405 C.6.13 Gas leakage tester
C.6.14 Gas concentration alarm systems
406 C.6.15 Gas sampling cylinders
C.6.16 Gas purifying and filling device
Figure C.2 – Example of a gas filling and purifying device
407 C.7 Reclaiming procedures
C.7.1 General
C.7.2 Filtering recommendations
C.7.3 Transport of used compressed air in gas cylinders and containers by road
Table C.9 – Exemplary filtering methods
Table C.10 – Typical adsorbents for various compressed air contaminants
408 C.8 By-products
C.8.1 General
C.8.2 Decomposition of compressed air
409 C.8.3 Corrosion behaviour of compressed air and its byproducts
C.8.4 Measures for the removal of byproducts
C.8.5 Physiological characteristics of byproducts
410 C.9 Procedure to evaluate the potential effects on health of by-products
C.9.1 General
411 C.9.2 Formation of by-products and health effects
413 Table C.11 – OELs for NO2, NO, O3 and HNO3
416 Table C.12 – Example calculation of a normal leakage
418 Table C.13 – Example calculation of an abnormal leakage
419 Table C.14 – Example calculation for maintenance
421 C.10 Handling of compressed air
C.10.1 General
C.10.2 Filling gas compartments with compressed air
C.10.3 Topping-up gas compartments with compressed air to the filling pressure for insulation and/or switching
C.10.4 Checking the quality of compressed air
422 C.10.5 Recovery and reclaim of compressed air
C.11 Specifications for compressed air needed for filling or topping-up electric power equipment
423 Annex D (informative)Natural-origin gases
D.1 Gas properties
D.1.1 General
D.1.2 Chemical properties
D.1.3 Physical properties
Table D.1 – Main chemical characteristics of N2, O2 and CO2
424 D.1.4 Insulating and switching behaviour
D.2 Safety and first aid
D.2.1 General
Table D.2 – Typical physical characteristics of N2, O2 and CO2
425 Table D.3 – Measures when working with electric powerequipment containing natural-origin gases
426 D.2.2 Protection of personnel
Table D.4 – Safety measures when opening or accessing gas compartments
427 D.2.3 Handling of contaminated safety equipment and tools
D.2.4 Pressurised equipment and tools or measuring devices
D.2.5 Personal safety and protective equipment
428 D.2.6 Facilities and services
429 D.2.7 Additional safety measures in case of sudden release of natural-origin gases
D.2.8 First aid equipment and treatment
430 D.3 Environmental impact
D.3.1 General
D.3.2 Ecotoxicology
431 D.3.3 Ozone depletion
D.3.4 Global warming/climate change (greenhouse effect)
D.3.5 Environmental impact of by-products
D.4 Training and certification
D.4.1 General
432 D.4.2 Training
433 D.4.3 Certification
D.5 Storage and transportation
D.5.1 General
D.5.2 Storage of containers filled with natural-origin gases
434 D.5.3 Transportation of containers filled with natural-origin gases
Table D.5 – Examples of container types required for storageand transportation of natural-origin gases
435 D.5.4 Storage and transportation of electrical power equipment containing natural-origin gases
Table D.6 – International regulations for shipment of natural-origin gases
436 D.5.5 Responsibilities
D.6 Description of handling equipment
D.6.1 General
438 Figure D.1 – Schematic view of an example of a handlingequipment for natural origin gases
439 D.6.2 Filters
Table D.7 – Typical filter types used during release ofnatural-origin gases to the atmosphere
440 D.6.3 Vacuum pump
D.6.4 Main and vacuum compressors
D.6.5 Outlet compressor
441 D.6.6 External and internal gas storage container
D.6.7 Evaporator and gas storage container heater
D.6.8 Gas piping and pipe junctions
D.6.9 Control instruments
D.6.10 Safety valves
D.6.11 Flexible hose connections
442 D.6.12 Portable devices for gas measurement
Table D.8 – Gas measuring devices
444 D.6.13 Gas leakage tester
D.6.14 Gas concentration alarm systems
D.6.15 Gas sampling cylinders
D.6.16 Gas mixing unit
445 D.6.17 Gas filling unit
D.6.18 Gas recovery unit
D.6.19 Used gas storage and transportation devices
D.7 Reclaiming procedures
D.7.1 General
446 D.7.2 Filtering recommendations
D.7.3 Transport of used natural-origin gases in gas cylinders and containers by road
Table D.9 – Exemplary filtering operations
Table D.10 – Typical adsorbents for various contaminants of natural-origin gases
447 D.8 By-products
D.8.1 General
D.8.2 Decomposition of natural-origin gases
D.8.3 Corrosion behaviour of natural-origin gases and their byproducts
448 D.8.4 Measures for the removal of byproducts
D.8.5 Physiological characteristics of byproducts
449 D.9 Procedure to evaluate the potential effects on health of gas components and by-products
D.9.1 General
D.9.2 Formation of by-products and health effects
451 Table D.11 – OELs for NO2, NO, O3, CO and HNO3
454 Table D.12 – Example calculation of a normal leakage
456 Table D.13 – Example calculation of an abnormal leakage
457 Table D.14 – Example calculation for maintenance
459 D.10 Handling of natural-origin gases
D.10.1 General
D.10.2 Filling gas compartments with natural-origin gases
460 D.10.3 Topping-up gas compartments with natural-origin gases
D.10.4 Checking the quality of natural-origin gases
461 D.10.5 Recovery and reclaim of natural-origin gases
D.10.6 Rectifying the composition of natural-origin gas mixtures
462 D.11 Specifications for natural-origin gases needed for filling or topping-up electric power equipment
463 Annex E (informative)C5F10O (C5-FK) in mixtures with N2, CO2, O2 (C5-FK mixtures)
E.1 Gas properties
E.1.1 General
E.1.2 Chemical properties
Figure E.1 – Structure of the C5-FK molecule
464 E.1.3 Physical properties
Figure E.2 – Vapour pressure curve of C5-FK
Table E.1 – Main chemical characteristics C5-FK
465 E.1.4 Insulating and switching behaviour
E.2 Safety and first aid
E.2.1 General
Table E.2 – Main physical characteristics of C5-FK
466 E.2.2 Protection of personnel
Table E.3 – Measures when working with electricpower equipment containing C5-FK mixtures
467 Table E.4 – Safety measures when opening or accessing gas compartments
468 E.2.3 Handling of contaminated safety equipment and tools
E.2.4 Pressurised equipment and tools or measuring devices
469 E.2.5 Personal safety and protective equipment
470 E.2.6 Facilities and services
E.2.7 Additional safety measures in case of sudden release of C5-FK mixtures
E.2.8 First aid equipment and treatment
471 E.3 Environmental impact
E.3.1 General
E.3.2 Ecotoxicology
472 E.3.3 Ozone depletion
E.3.4 Global warming/climate change (greenhouse effect)
E.3.5 Environmental impact of by-products
E.3.6 Decomposition by UV-light in the upper atmosphere
E.4 Training and certification
E.4.1 General
473 E.4.2 Training
474 E.4.3 Certification
E.5 Storage and transportation
E.5.1 General
E.5.2 Storage of containers filled with C5-FK or C5-FK mixtures
475 Table E.5 – Methods for storage of C5-FK
Table E.6 – Examples of container types required for storage / transportation of C5-FK
476 E.5.3 Transportation of containers filled with C5-FK or C5-FK mixtures
Table E.7 – Methods for storage of C5-FK mixtures
Table E.8 – Examples of container types required for storage /transportation of C5-FK mixtures
477 Table E.9 – International regulations for shipment of C5-FK
478 E.5.4 Storage and transportation of electrical power equipment containing C5-FK mixtures
Table E.10 – International regulations for shipment of C5-FK mixtures
479 E.5.5 Responsibilities
E.6 Description of handling equipment
E.6.1 General
480 Figure E.3 – Schematic view of an example of a handling equipment for C5-FK mixture
481 E.6.2 Filters
482 E.6.3 Vacuum pump
Table E.11 – Typical filter types
483 E.6.4 Main and vacuum compressors
E.6.5 Outlet compressor
E.6.6 External and internal gas storage containers
E.6.7 Evaporator and gas storage container heater
484 E.6.8 Gas piping and pipe junctions
E.6.9 Control instruments
E.6.10 Safety valves
E.6.11 Flexible hose connections
E.6.12 Portable devices for gas measurement
Table E.12 – Gas measuring devices
486 E.6.13 Gas leakage tester
E.6.14 Gas concentration alarm systems
E.6.15 Gas sampling cylinders
487 E.6.16 Gas mixing unit
E.6.17 Gas filling unit
E.6.18 Gas recovery unit
488 E.6.19 Used gas storage and transportation devices
E.7 Reclaiming procedures
E.8 By-products
E.8.1 General
E.8.2 Decomposition of C5-FK mixtures
489 Table E.13 – OELs and LC50 values for C5-FK mixtures by-products
490 E.8.3 Corrosion behaviour of C5-FK mixtures and their byproducts
E.8.4 Measures for the removal of by-products
491 E.8.5 Physiological characteristics of byproducts
E.9 Procedure to evaluate the potential effects on health of gas components and by-products
E.9.1 General
492 E.9.2 Formation of by-products and health effects
496 Table E.14 – Example calculation of a normal leakage
498 Table E.15 – Example calculation of an abnormal leakage
499 Table E.16 – Example calculation for maintenance
500 Table E.17 – TWA values of gas components
501 E.10 Handling of C5-FK mixtures
E.10.1 General
E.10.2 Filling gas compartments with C5-FK mixtures
502 E.10.3 Topping-up gas compartments with C5-FK mixtures to the filling pressure for insulation and/or switching
E.10.4 Checking the quality of C5-FK mixtures
503 E.10.5 Recovery and reclaim of C5-FK mixtures
E.10.6 Rectifying the composition of C5-FK mixtures
E.11 Specifications for C5-FK mixtures needed for filling or topping-up electric power equipment
504 Annex F (informative)C4F7N (C4-FN) in mixtures with N2, CO2, O2 (C4-FN mixtures)
F.1 Gas properties
F.1.1 General
F.1.2 Chemical properties
Figure F.1 – Structure of the C4-FN molecule
505 F.1.3 Physical properties
Figure F.2 – Vapour pressure curve of C4-FN
Table F.1 – Main chemical characteristics C4-FN
506 F.1.4 Insulating and switching behaviour
F.2 Safety and first aid
F.2.1 General
Table F.2 – Main physical characteristics of C4-FN
507 F.2.2 Protection of personnel
Table F.3 – Measures when working with electric powerequipment containing C4-FN mixtures
508 Table F.4 – Safety measures when opening or accessing gas compartments
509 F.2.3 Handling of contaminated safety equipment and tools
F.2.4 Pressurised equipment and tools or measuring devices
F.2.5 Personal safety and protective equipment
510 F.2.6 Facilities and services
F.2.7 Additional safety measures in case of sudden release of C4-FN mixtures
511 F.2.8 First aid equipment and treatment
F.3 Environmental impact
F.3.1 General
F.3.2 Ecotoxicology
512 F.3.3 Ozone depletion
F.3.4 Global warming/climate change (greenhouse effect)
F.3.5 Environmental impact of by-products
513 F.3.6 Decomposition by UV-light in the upper atmosphere
F.4 Training and certification
F.4.1 General
F.4.2 Training
514 F.4.3 Certification
515 F.5 Storage and transportation
F.5.1 General
F.5.2 Storage of containers filled with C4-FN or C4-FN mixtures
Table F.5 – Methods for storage of C4-FN
Table F.6 – Examples of container types required for storage / transportation of C4-FN
516 Table F.7 – Methods for storage of C4-FN mixtures
517 F.5.3 Transportation of containers filled with C4-FN or C4-FN mixtures
Table F.8 – Examples of container types required for storageand transportation of C4-FN mixtures
Table F.9 – International regulations for shipment of C4-FN
519 F.5.4 Storage and transportation of electrical power equipment containing C4-FN mixtures
Table F.10 – International regulations for shipment of C4-FN mixtures
520 F.5.5 Responsibilities
F.6 Description of handling equipment
F.6.1 General
521 Figure F.3 – Schematic view of an example of a handling equipment for C4-FN mixture
522 F.6.2 Filters
523 F.6.3 Vacuum pump
Table F.11 – Typical filter types
524 F.6.4 Main and vacuum compressors
F.6.5 Outlet compressor
F.6.6 External and internal gas storage containers
F.6.7 Evaporator and gas storage container heater
525 F.6.8 Gas piping and pipe junctions
F.6.9 Control instruments
F.6.10 Safety valves
F.6.11 Flexible hose connections
F.6.12 Portable devices for gas measurement
Table F.12 – Gas measuring devices
527 F.6.13 Gas leakage tester
F.6.14 Gas concentration alarm systems
F.6.15 Gas sampling cylinder
528 F.6.16 Gas mixing unit
F.6.17 Gas filling unit
F.6.18 Gas recovery unit
529 F.6.19 Used gas storage and transportation devices
F.7 Reclaiming procedures
F.8 By-products
F.8.1 General
F.8.2 Decomposition of C4-FN mixtures
530 Table F.13 – OELs and LC50 values for C4-FN mixtures by-products
531 F.8.3 Corrosion behaviour of C4-FN mixtures and their byproducts
F.8.4 Measures for the removal of by-products
532 F.8.5 Physiological characteristics of byproducts
F.9 Procedure to evaluate the potential effects on health of gas components and by-products
F.9.1 General
533 F.9.2 Formation of by-products and health effects
537 Table F.14 – Example calculation of a normal leakage
538 Table F.15 – Example calculation of an abnormal leakage
539 Table F.16 – Example calculation for maintenance
540 Table F.17 – TWA values of gas components
541 F.10 Handling of C4-FN mixtures
F.10.1 General
F.10.2 Filling gas compartments with C4-FN mixtures
542 F.10.3 Topping-up gas compartments with C4-FN mixtures to the filling pressure for insulation and/or switching
543 F.10.4 Checking the quality of C4-FN mixtures
F.10.5 Recovery and reclaim of C4-FN mixtures
F.10.6 Rectifying the composition of C4-FN mixtures
F.11 Specifications for C4-FN mixtures needed for filling or topping-up electric power equipment
544 Bibliography

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